Internship Report - Febrianto Nugroho (UI)

INTERNSHIP REPORT
PT. TRIPATRA ENGINEERING
5th
JANUARY 2015 –27th
FEBRUARY 2015
CABLE SIZING CALCULATION
400 V SWITCHGEAR AND MCC PROCESS (360-ES-03)
ONSHORE OIL TREATING FACILITIES AND LPG RECOVERY PLANT
UJUNG PANGKAH LIQUID DEVELOPMENT PROJECT
Written by:
Febrianto Nugroho 1206291885
ELECTRICAL ENGINEERING DEPARTMENT
FACULTY OF ENGINEERING UNIVERSITY OF INDONESIA
DEPOK
2015
!

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PT.*TRIPATRA*ENGINEERING*
2015*
UNIVERSITAS*INDONESIA*2015* 1"
PREFACE
Praise be to Allah SWT. for His blessings and guidance, that author is able to
finish this internship which takes place at PT Tripatra Engineering (TPE) Jakarta
from January 5th
2015 until February 27th
2015. The purpose of this internship is
to fulfill the requirement needed by the students in finishing their study in
Electrical Engineering, Faculty of Engineering, Universitas Indonesia.
During this internship, author has gained many experiences applying the
knowledge that has been learned throughout his study at the university in
understanding the real life conditions of work practices. Many had helped and
guided the author during the internship period and in writing this internship
report. Therefore, in this opportunity the author would like to express his gratitude
and many thanks to:
1. Parents and family for providing support, motivation and prayer.
2. Ir. GunawanWibisono, Msc., Ph.D as the Head of Electrical Engineering
Department Faculty of Engineering Universitas Indonesia.
3. Dr. Abdul Muis, S.T, M.Eng as the Internship Coordinator of Electrical
Engineering Department Faculty of Engineering Universitas Indonesia.
4. Mr. Johannes Bangun as the Head of Electrical Department in PT. Tripatra
5. Mr. Adi Iskandar as our mentor and Electrical Engineer in PT. Tripatra
6. Mr. SarmenNapitupulu as the Electrical Engineer in PT. Tripatra
7. Mr. Nopran Adhiansyah as the Electrical Engineer in PT. Tripatra
8. Mr. Haris Hakim as the Electrical Engineer in PT. Tripatra
9. Mrs. Diah Ayu Ciptaning Utami as the Human Resources in PT. Tripatra
10. Mr. Nasarudin as the Human Resources in PT Tripatra
11. Every employees of Tripatra Engineering for helping the writer throughout the
internship process.
12. Every other people that can’t be mentioned one by one for every help that they
have provided to the writer.

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The author realizes that this internship report is still far from perfect. Therefore
the author hopes for critics and suggestions from the readers for improvements in
future writings. In the end, the author hopes that this report can be useful to the
readers.
Jakarta, February 2015
Author

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TABLE OF CONTENTS
PREFACE ............................................................................................................... 1
TABLE OF CONTENTS........................................................................................ 3
CHAPTER I ............................................................................................................ 6
1.1 BACKGROUND.............................................................................................. 6
1.2 OBJECTIVES.................................................................................................. 7
1.3 TIME AND LOCATION ................................................................................... 8
CHAPTER II........................................................................................................... 9
2.1 COMPANY'S PROFILE (PT. TRIPATRA ENGINEERING) .......................... 9
2.1.1 Brief History........................................................................................ 9
2.1.2 Vision and Mission ............................................................................. 9
2.1.3 The Business ..................................................................................... 11
CHAPTER III........................................................................................................ 12
3.1 PROJECT DESCRIPTION ............................................................................... 12
3.2 DISTRIBUTION VOLTAGES.......................................................................... 12
3.3 ELECTRICAL OVERVIEW............................................................................. 13
3.3.1 General Overview ............................................................................. 13
3.3.2 Essential Power Supply..................................................................... 15
3.3.3 Essential Power Users....................................................................... 16
3.3.4 Critical Power Supply ....................................................................... 16
3.3.5 Critical Power Users ......................................................................... 17
3.4 CODES AND STANDARDS............................................................................ 18
3.5 LOAD UTILITY............................................................................................ 19
3.6 UTILIZATION VOLTAGES ............................................................................ 20
CHAPTER IV ....................................................................................................... 21
4.1 CALCULATION CRITERIA............................................................................ 21
4.2 CALCULATION METHOD AND FORMULA .................................................... 22

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4.2.1 Cable Ampacity Correction Factor ................................................... 22
4.2.2 Resistance Cable Data and Resistance Correction Factor................. 23
4.2.3 Multiplying Factor ............................................................................ 24
4.2.4 Full Load Current.............................................................................. 26
4.2.4.1 Generator................................................................................... 26
4.2.4.2 Motors ....................................................................................... 26
4.2.4.3 Transformers ............................................................................. 27
4.2.4.4 Distribution Board / Panel......................................................... 28
4.2.4.5 Static Load ................................................................................ 28
4.2.5 Minimum cable size based on cable ampacity.................................. 29
4.2.6 Number of Cable calculation ............................................................ 29
4.2.7 Voltage drop calculation ................................................................... 30
4.2.7.1 Permissible Voltage Drop ......................................................... 30
4.2.7.2 AC voltage drop at steady state................................................. 30
4.2.7.3 AC voltage drop at starting ....................................................... 31
4.2.7.4 DC voltage drop ........................................................................ 32
4.2.8 Short circuit thermal withstand capacity........................................... 33
CHAPTER V......................................................................................................... 35
5.1 BASIC CRITERIA ......................................................................................... 35
5.2 MOTOR LOAD............................................................................................. 35
5.2.1 Load Specification ............................................................................ 35
5.2.2 Cable Specification ........................................................................... 36
5.2.3 Cable Sizing Calculation................................................................... 37
5.2.3.1 Cable Ampacity Correction Factor ........................................... 37
5.2.3.2 Resistance Cable Data and Resistance Correction Factor......... 37
5.2.3.3 Motor Full Load Current........................................................... 38
5.2.3.4 Minimum cable size based on cable ampacity.......................... 38
5.2.3.5 Number of Cable....................................................................... 39
5.2.3.6 Voltage drop calculation ........................................................... 39
5.2.3.6.1 AC voltage drop at steady state............................................. 39

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5.2.3.6.2 AC voltage drop at starting ................................................... 40
5.2.3.7 Short circuit thermal withstand capacity................................... 40
5.2.4 Cable Selection.................................................................................. 41
5.3 FEEDER LOAD ............................................................................................ 42
5.3.1 Load Specification ............................................................................ 42
5.3.2 Cable Specification ........................................................................... 42
5.3.3 Cable Sizing Calculation................................................................... 43
5.3.3.1 Cable Ampacity Correction Factor ........................................... 43
5.3.3.2 Resistance Cable Data and Resistance Correction Factor......... 43
5.3.3.3 Feeder Full Load Current.......................................................... 44
5.3.3.4 Minimum cable size based on cable ampacity.......................... 44
5.3.3.5 Number of Cable....................................................................... 45
5.3.3.6 Voltage drop calculation ........................................................... 45
5.3.3.6.1 AC voltage drop at steady state............................................. 45
5.3.3.7 Short circuit thermal withstand capacity................................... 46
5.3.4 Cable Selection.................................................................................. 46
CHAPTER VI ....................................................................................................... 47
REFERENCES...................................................................................................... 48
APPENDICES
APPENDIX – 1 Calculation Sheet
APPENDIX – 2 PT. Sumi Indo KabelTbk. Low Voltage Cable Catalog
APPENDIX – 3 ABB Motor for Hazardous Areas Catalog
APPENDIX – 4 UPD-TJ-P2-EL-SL-1001-0 Single Line Diagram (Key)
APPENDIX – 5 UPD-TJ-P2-EL-SL-0052-1-0 Single Line Diagram (Detail)
APPENDIX – 6 UPD-TJ-P2-EL-SL-0052-2-0 Single Line Diagram (Detail)
APPENDIX – 7 UPD-TJ-P2-EL-DR-0011-2 Plant Layout

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CHAPTER I
INTRODUCTION
1.1 Background
Electrical engineering stands at a time of extraordinary opportunity, in the
changing energy, information, communication, transportation, and environmental
needs of the society. Electrical Engineers (EE's) are on the cutting edge of high
technology.
Electrical engineering plays an important role in modern oil and gas industry.
Electrical engineers are equipped to lead exciting, innovative and productive
careers designing enormous electrical power grids that span continents and bring
electricity to our homes and offices, designing control and instrumentation
systems for the oil and gas industry, designing communications systems,
designing electronic devices for commercial applications, designing computers
and their applications and much more.
There is a high demand on electrical engineers in the oil and gas industry.
Electrical engineers are an important part of the petrochemical industry ensuring
safe, reliable and economic production of oil and gas. Electrical engineers design,
monitor, control and manage the electric power system that supplies power to the
hundreds of high voltage motors and thousands of low voltage motors in the field.
It is with those motors that the oil and/or gas could be extracted from the wells for
processing at the plant. Electrical engineers also design, supervise, run and
monitor instrumentation control consoles protecting personnel, machinery and
equipment in the plant.
For that specific reason, PT. Tripatra Engineering is a good place to gain some
experiences. Not only that it has been for four decades experienced in such field,
it also one of the largest engineering company in Indonesia. Therefore, author
decides to do internship at PT. Tripatra Engineering. PT. Tripatra Engineering is a

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subcontractor of PT. Tripatra Engineers and Constructors. PT.
TripatraEngineering focuses on the engineering design activity related to EPC
(Engineering, Procurement and Construction) project awarded to PT. Tripatra
Engineers and Constructors. PT. TripatraEngineering also does the blanket
engineering project tendered by Oil and Gas Companies. One of the EPC projects
awarded to PT. Tripatra Engineers and Constructors was the involvement of PT.
Tripatra Engineering in Ujung Pangkah Liquid Development Phase 2.
The internship program mainly discuss about the Cable Sizing Calculation in
Ujung Pangkah Liquid Development Project. The cable selection is such an
important part of design engineering, because the cables are used to connect loads
to Switchgear/Motor Control Center (MCC), transformer to switchgear,
switchgear to transformer and generator to switchgear. Cable sizing must be
calculate carefully and must fulfill certain criteria in order to meet the client
specifications and standards. It is important to make sure that the cable size meet
the requirement of cable ampacity, maximum voltage drop allowed and short
circuit capacity as per company specification and standard.
1.2 Objectives
The objectives of the internship are:
1. To complete a compulsory subject in the Department of Electrical
Engineering, University of Indonesia, in order to obtain undergraduate degree
(S1).
2. To implement the knowledge gained during study to real life application.
3. To know and understand cable sizing, calculation and selection.
4. To develop experiences on real problems that lie in work life.
5. To provide opportunity for students to gain experience in practical
engineering, the ability to communicate and socialize in the industrialized
world.

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1.3 Time and Location
The internship was carried out for two months from 5th January to 27th February
2015 in PT. Tripatra Engineering (TPE), Jakarta. The internship took place in the
TPE office building located at Building 3 on 2nd
Floor. Internship students follow
the same working hours as applied to the field or in the office unit, from 07.45
until 16.45.

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CHAPTER II
OVERVIEW OF PT. TRIPATRA ENGINEERING
2.1 Company's Profile (PT. TRIPATRA ENGINEERING)
2.1.1 Brief History
PT. Tripatra Engineering is an engineering company that provide engineering
design services. This company does the engineering design for EPC (Engineering,
Procurement and Construction) project awarded to PT. Tripatra Engineers and
Constructors. The Company also provides blanket-engineering project tendered
by Oil and Gas Companies.
2.1.2 Vision and Mission
Vision
To be a world-class company providing integrated innovative engineering
solutions through excellent multidiscipline engineering
Mission
1. To provide world-class engineering and project management solutions for
energy & natural resources sectors.
2. To create synergy across our group’s integrated platform.
3. To create optimum shareholders value.
4. To continuously develop its human capital.
5. To become a good corporate citizen.
In pursuit of the mission, Tripatra as lawful and innovative organization will
adhere to:
1. Highest standard of ethics and professional integrity.
2. A safe and healthy environment.
3. Commitment to the utmost customer satisfaction.

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4. Recognition of human capital and its development as valuable asset.
5. Stimulating work environment with motivation, effective communication and
leadership covenant.
6. Continuous quality improvement and sustainability as a way of life
Tripatra has formulated the values that distinguish them from other companies
and is believed to have brought the company to the progress until now. The values
are believed to inspire all components and can bring the company ahead of the
competition in the present and the future.
The values are formulated in Insan Tripatra. Is the duty of every employee and
management of the Company to continue to hold and run values of 6(six) + 1(one)
which has been proclaimed as the guidance in life and work in the company:
• Professionally Honest : Upholding ethics, integrity and professionalism
• Perfection : The process and final results in the best quality
• Open & Positive : Open and respect in all directions
• Self Learning : Learn from any mistakes and experiences, honed expertise
proactive
• Challenge : Catch the opportunities, welcome the challenge
• Innovate : Creative and innovative solutions
Figure 2.1. Insan Tripatra

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• Energetic : Breakthrough difficulties, influence enthusiasm and support change
towards improvement
2.1.3 The Business
PT. TripatraEngineering is an engineering company that provide engineering
design services. This company does the engineering design for EPC (Engineering,
Procurement and Construction) project awarded to PT. Tripatra Engineers and
Constructors. The Company also provides blanket-engineering project tendered
by Oil and Gas Companies.
PT. TripatraEngineering mainly focuses on two divisions.
1. Design and Engineering
With more than 600 design, engineering and other technical personnel,
strategically located across its various company divisions, PT. Tripatra
Engineering is able to offer its clients the expertise necessary to ensure the
success of their projects, and the dedication to enable continuous support. At PT.
Tripatra Engineering the emphasis of state-of-the-art design based on the most up-
to-date engineering technology is very important.
2. Project Management
Through its extensive experience in Project Management, TRIPATRA has
developed proven methods and systems for the successful and seamless
implementation of large projects. By combining an appropriate method of project
organization with the support of sophisticated software systems, and with its
highly qualified and diverse team of experts, TRIPATRA has been able to provide
its clients with a comprehensive approach to project realization.
TRIPATRA’s approach to project management includes, among others, a concise
work and task definition and assignment, planning, scheduling, monitoring and
cost control. Qualified in all these areas of the project cycle, TRIPATRA is able
to provide its clients with best practices in engineering, project management,
procurement, construction, commissioning, and operations.

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CHAPTER III
ELECTRICAL OVERVIEW
UJUNG PANGKAH LIQUID DEVELOPMENT PHASE 2
3.1 Project Description
Hess (Indonesia-Pangkah) Ltd. (HIPL), as operator, is developing the Ujung
Pangkah gas reserves for export to the PLN power station at Gresik. The Ujung
Pangkah gas field is located between 2 and 10km offshore off the north coast of
East Java approximately 35km north of Gresik. Ujung Pangkah gas field is
divided into two phases. Phase 1 is the existing plant and Phase 2 is the expanded
field. The electrical system in phase 2 is a project that is held by PT. Tripatra
Engineering. The facility will be designed for a 25 year operating life, as specified
in the Basis of Design (referred to: UPD-TJ-P2-PR-BD-0001).
Power is generated at 11,000V AC, 3-phase, 50Hz, as part of the OPF facilities.
Main power generators are located at OPF nearby substation and are gas-turbine
driven. The main power generators were sized to supply all electrical loads under
all operating conditions, for all facilities (OPF and OTF/LPGF), under the worst
case load and ambient conditions, with one main power generator off-line. The
main power generators are directly feed main 11kV Switchboard (160- ES-01)
located in OPF substation. The 11 kV Switchboard will then supplied the existing
Phase 1 and Phase 2.
3.2 Distribution Voltages
Power distribution is the process of delivering electricity into the user, that is from
power generation to final end user or a load. To obtain minimum power losses and
in order for the transmission to be efficient, the normal power distribution will be
at the following stages:

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! 11 kV AC 3-phase main power supply from OPF
! 6,600V AC 3-phase for MV motor loads
! 400V AC 3-phase for LV motor loads
! 400V AC 3-phase and neutral for package equipment and non-motor loads
! 230VAC 1-phase and neutral; for general lighting and small power loads.
Power distribution for emergency power to essential supplies will be at:
! 400V AC 3-phase and neutral for main feeders, package equipment and motor
loads
! 230V AC 1-phase and neutral; for lighting and small power loads
Phase 2 electrical loads are handled by the 11 kV Switchgear 160-ES-01 (referred
to: UPD-TJ-P2-EL-SL-1001-0). Phase 2 mainly consist of these following
switchgear (referred to: UPD-TJ-P2-EL-SL-1001-0) :
! 6.6 KV Switchgear and MCC 360-ES-01 located in the Substation B
! 400 V Switchgear and MCC Process 360-ES-03 located in the Substation B
! 400 V Switchgear and MCC Utility 360-ES-02 located in the Substation B
! 400 V Switchgear and MCC Substation C 360-ES-04 located in the Substation
C
! 400 V MCC Inlet/Residue Gas Compressor and Metering 360-ES-31 located
in the Compressor and Metering Panel Room
3.3 Electrical Overview
3.3.1 General Overview
Power is generated at 11,000V AC, 3-phase, 50Hz, as part of the OPF facilities.
Main power generators are located at OPF nearby substation and are gas-turbine
driven. The main power generators were sized to supply all electrical loads under
all operating conditions, for all facilities (OPF and OTF/LPGF), under the worst
case load and ambient conditions, with one main power generator off-line. The

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main power generators are directly feed main 11kV Switchboard (160- ES-01)
located in OPF substation.
The main source of power for the OTF and LPGF shall be dual 11kV cable
feeders from the OPF 11kV Switchboard (160-ES-01). The dual 11kV feeders
shall terminate directly to the OTF/LPGF main 11/6.6kV power transformers. The
11kV feeders from OPF and the 11/6.6kV transformers are sized to supply all
OTF and LPGF electrical loads under all operating conditions with one
feeder/transformer off-line and shall be sized for the ONAF rating of the 11/6.6kV
transformers.
Power will be distributed at 6,600V AC 50Hz in 3-phase (MV), and at 400/230V
AC 50Hz in 3-phase with neutral (LV). The MV power system has had its neutral
earthed via low resistance at the transformer star points. The LV power system
has had its neutral solidly earthed at the transformer and emergency generator star
points.
A local emergency generator is provided for the OTF/LPGF, which is driven by
diesel engine. The OTF and LPGF electrical systems will in general consist of the
following main components:
! Dual 11kV feeders (2 x 100%) from the OPF main 11kV switchboard
! Dual 11/6.6kV Power Transformers (2 x 100%) feeding the OPF/LPGF MV
Switchboard, which includes motor starters for MV drives as well as feeders
to distribution transformers
! Process LV Switchboard and Utilities LV Switchboard, each fed by dual
6.6/0.4kV Distribution Transformers (2 x 100%)
! OTF/LPGF Essential Switchboard, fed from a local diesel engine driven
Emergency Generator sized to support essential loads (1 x 100%)
! Main AC and DC UPS Systems for critical services

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The liquids development project also involves additional jetty facilities. Power
supply for electrical consumers is supplied from portable diesel generator. The
portable generator will occasionally be operated to supply power to Jetty Loading
Arm facilities when crude oil or LPG is offloaded from storage tank to a tanker
ship. A small UPS for instrumentation, control and communication system
services are provided and supplied from existing LV power distribution. The jetty
electrical facilities for OTF/LPGF in general consist of the following main
components:
! Jetty Loading Arm LV distribution board, fed directly from portable diesel
generator
! AC UPS system for critical services, fed from existing LV power distribution
(Refered to UPD-TJ-P2-EL-PH-0102)
3.3.2 Essential Power Supply
An emergency generator is provided at the OTF/LPGF electrical substation, sized
to maintain power to essential users only. The emergency generator is connected
directly to the OTF/LPGF Essential LV Switchboard, which is a single bus
section with two incomers. One incomer is connected to the normal supply from
the OTF LV Switchboard, and this is closed during normal operation. The second
incomer will be connected to the emergency generator.
On loss of voltage at the essential switchboard, the emergency generator is
automatically started up and regulates its speed and voltage. The supply from the
normal power supply would automatically disconnect, and then the incomer from
the emergency generator will automatically close to energize the switchboard.
The controls for the essential switchboard is designed so that after the automatic
operation, it will be possible to re-close back to the normal switchboard so that
normal users can be supplied from the essential power supply. This operation

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however is manually initiated and operating procedures shall be written to ensure
in this event the generator is not overloaded by normal users.
3.3.3 Essential Power Users
Essential power users are loads related to the safety of personnel and equipment
but which are suitable for short breaks in the power supply without detriment
(such as during starting of emergency generators). Such loads are to be supplied
by emergency generators. Those loads are listed below:
! Feeders to all Critical power supplies
! Emergency and escape lighting
! HVAC systems for rooms containing essential equipment
! Safe and Controlled Shutdown
! Hazardous drain pumps (for continuous drain systems only) and flare/vent
scrubber pumps
! Turbine enclosure Ventilation
! Lube Oil Cooler Fans, where required by the package SUPPLIER
! Equipment anti-condensation heaters
Where there are two redundant essential users (e.g. pump A and B in a
duty/standby arrangement) one is fed from an essential switchboard and the other
from a normal switchboard.
3.3.4 Critical Power Supply
Critical Power Supplies are derived from storage batteries and distributed to
critical users as either AC or DC supply from UPS systems. The purpose of
critical power supplies is to provide the most reliable power supply for critical
users.

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Main UPS systems are three phase. UPS Power equipment is provided as 2 x
100% redundant rectifier/inverter units (UPS A and UPS B) and 2 x 50% batteries
based on the calculated design load for all connected critical users.
AC UPS systems are of the static, double conversion type with fully-electronic
static bypass switches for each UPS A and UPS B system and a separated manual
maintenance bypass switch. The by-pass AC supply is taken from a different
supply to that of the UPS main supply to minimize common mode failure.
A dedicated 110V DC UPS System is provided for switchgear control, protection
and circuit breakers. The DC UPS System is provided as 2 x 100% redundant
rectifiers and 2 x 50% batteries.
DC UPS systems for Diesel Fire Pumps and Emergency Generators is preferred to
be 24V DC, and be 1 x 100% redundant rectifier with 1 x 100% battery.
DC UPS systems for Compressor Gas Turbine backup lube oil pumps are at 1 x
100% rectifier with 1 x 100% battery.
Batteries are Valve-Regulated Lead Acid (VRLA). Dedicated ventilated battery
rooms are not provided. Each battery bank is installed with an isolator in order to
provide facilities for tripping the batteries.
3.3.5 Critical Power Users
Critical Users are those loads necessary for the operation of safety systems and for
facilitating or assisting safe evacuation. It is generally not appropriate for any
break in power supply for critical users, even for a short duration. Critical users
are generally those users listed below:
! Fire & Gas safety systems
! Shutdown & Process Control Systems (ESD & PCS)
! Telecommunications systems (Voice & Data)
! Gas Turbine / Compressor UCP

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! Switchgear tripping and closing supplies
! Gas Turbine backup Lube oil pumps
! Emergency Generator starting and control
! Diesel Engine Fire Pump Starting and Control
! Escape Route Lighting (self contained with integral battery)
! Exit Lighting (self contained with integral battery)
Control systems, telecommunications and UCPs are supplied from common UPS
systems, which also supply other critical users of various systems and packages.
Battery systems for diesel engines and backup lube oil systems are provided as
part of the package supply. Diesel engine driven generators and firewater pumps
have had battery systems sized for cranking duty rather than autonomy time.
3.4 Codes and Standards
Material selection, design, manufacturing, testing and installation of the cable and
its components shall comply with currently applicable statutes, regulation, safety
codes and standards issued by the following:
! API : American Petroleum Institute
! IEEE : Institute of Electrical and Electronic Engineer
! IEC : International Electrotechnical Commission
! IP : Institute of Petroleum
! NFPA : National Fire Protection Association
Indonesian Codes and Regulation
! PUIL : PeraturanUmumInstalasiListrik
! Government Regulation Number 19,1973
! Government Regulation Number 11,1979
! Decision of Director General of Oil and Natural Gas Number

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36/KPTS/DJ/MIGAS/1977
! Technical Directorate of Oil and Natural Gas Letter Number
008/380/DMT/1988
! Directorate General Oil and Natural Gas (MIGAS) Regulation
No.43P/382/DDJM/1992 for Terms and Conditions for Appointment of third
party
! MIGAS Guidelines under Regulation Number 06P/0746/M.PE/91
3.5 Load Utility
Load utility is used to determine which switchgear suits the motor. Since there are
lots of motors and feeders related to the plant and each loads required different
voltages to operate, then those loads are utilized to different switchgear. Those
switchgears have the voltages operation of 11 KV, 6.6KV, 400V and 230V. The
load utilization are described as follows:
! Motors rated above 132 kW : 6.6 kV, 3 Phase, 3 Wire, 50 Hz
! Motors rated above 0.18 kW up to 132 kW : 400 V, 3 phase, 3/4 Wire, 50 Hz
! Motors up to 0.18 kW : 230 V, 1 Phase, 2 Wire, 50 Hz
! Space Heater, Auxiliary power supply : 230 V, 1 phase, 2 Wire, 50 Hz

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3.6 Utilization Voltages
The utilization for typical loads are given below:
Table 3.1 Utilization for typical loads
LOADS UTILIZATION VOLTAGES
Motors less than 0.37kW 400V 3ph+E or 230V, 1ph+E, 50Hz
Motors – 0.37kW up to 132kW 400V, 3ph+E, 50Hz
Motors – above 132kW 6,600, 3ph+E, 50Hz
Process Heaters 400V, 3ph+E, 50Hz
Welding Sockets 400V, 3ph+E+N, 50Hz
Convenience Sockets (field) 230V, 1ph+E+N, 50Hz
Lighting (normal – emergency) 230V, 1ph+E+N, 50Hz
Anti-condensation Heaters 230V, 1ph+E+N, 50Hz
Diesel Engine Starters & Controls 24V DC, 2 wire
MCC Contactor Controls 230V, 1ph+E+N, 50Hz
Instrumentation, safety and
communications system
230V, 1ph+E+N, 50Hz

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CHAPTER IV
CABLE SIZING CRITERIA
4.1 Calculation Criteria
! Allowable steady state current carrying capacity.
Current carrying capacity is defined as the amperage a conductor can safely carry
before melting occurs in the conductor and/or the insulation. There are many
factors that will limit the amount of current that can be passed through a wire.
Determining factors include: Conductor Size, The larger the circular mil area, the
greater the current capacity. Insulation, The amount of heat generated should
never exceed the maximum temperature rating of the insulation material. Ambient
(surrounding) temperature, The higher the ambient temperature, the less heat
required to reach the maximum temperature rating of the insulation. Conductor
Number, Heat dissipation is lessened as the number of individually insulated
conductors, bundled together, is increased. Installation Conditions, Restricting the
heat dissipation by installing the conductor in conduit, duct, trays or raceways
lessens the current carrying capacity. This restriction can be alleviated somewhat
by using proper ventilation methods, forced air cooling, etc.
! Allowable voltage drop during steady state and transient (motor starting)
condition.
Voltage drop is defined as the amount of voltage losses that occurs through all
part of circuit due to impedance. The longer the cable the voltage drop will
become greater. Therefore the voltage drop aspect is critical to supply the voltage
to the loads.
! Short circuit current withstand capacity.
This criterion is applied to determine the minimum cross section area of the cable,
so that cable can withstand the short circuit current. Failure to check the conductor
size for short-circuit heating could result in permanent damage to the cable

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insulation and could also result into fire. In addition to thermal stresses, the cable
may also be subjected to significant mechanical stresses.
4.2 Calculation Method and Formula
4.2.1 Cable Ampacity Correction Factor
Cable ampacity is corrected by cable ampacity correction factor, that consists of
temperature correction factor and cable grouping correction factor. The formula of
cable correction factor is shown below:
F = F!!!x!F! (4-1)
where:
F : Cable ampacity correction factor
F! : Correction factor for ambient temperature and conductor
temperature consideration (Temperature correction factor)
F! : Correction factor for cable grouping consideration
Temperature correction factor is related to the environment ambient temperature
(or specified value as per company specification), temperature conductor rating
(depend on insulation type used) and reference ambient temperature as per
manufacture used for the cable. The formula of the temperature correction factor
is shown below:
F! =
!!!!!!
!!!!!
(4-2)
where:
TC : Temperature Rating of Conductor in 0
C (900
C for XLPE and
700
C for PVC)
T1 : Environment/ Field Ambient Temperature in 0
C (400
C)
T2 : Reference Temperature Ambient in 0
C

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Ft :Cable ampacity correction factor
Cable grouping correction factor is depend on the particular method of installation
in the ladder or tray or if direct buried. Here is the sample of cable grouping
correction factor table as per PT. Sumi Indo KabelTbk. (a cable manufacturer)
catalogue:
Table 4.1 Correction factor table for multi-core cable grouping
4.2.2 Resistance Cable Data and Resistance Correction Factor
When the ambient temperature value is different with ambient temperature
condition of resistance data as per manufacturer/catalogue data, resistance

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correction factor is applied to correct the resistance cable data. The formula of
resistance correction factor is shown below:
F! = 1 + α(T! − T!)! (4-3)
where:
T1 : New Conductor ambient temperature in o
C
T0 : Temperature resistance design as per manufacture/ catalogue in
o
C
α : 0.00393 for copper
Fr : Resistance correction factor
The corrected cable resistance can be achieved by the following formula:
R! = !F!!!x!!R! (4-4)
Where:
R : Corrected cable resistance in Ohm/km
R0 : Resistance cable data as per manufacture in Ohm/km
4.2.3 Multiplying Factor
The multiplying factor will be based on NFPA 70 Requirements, which is:
! Clause 210.19(A)(1)
Branch circuit conductors shall have an ampacity not less than the maximum load
to be served. Where a branch circuit supplies continuous loads or any combination
of continuous and non-continuous loads, the minimum branch circuit conductor
size, before the application of any adjustment or correction factors, shall have an
allowable ampacity not less than the non-continuous load plus 125 percent of the
continuous load
! Clause 215.2(A)(1)

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Feeder conductors shall have an ampacity not less than required to supply the load
as computed in parts II, III and IV of article 220. The minimum feeder circuit
conductor size, before the application of any adjustment or correction factors,
shall have an allowable ampacity not less than the non-continuous load plus 125
percent of the continuous load.
! Clause 215.2(B)(1)
The ampacity of feeder conductors shall not be less than the sum of the nameplate
ratings of the transformer supplied when only transformer is supplied.
! Clause 215.2(B)(2)
The ampacity of feeders supplying a combination of transformer and utilization
equipment shall not be less than the sum of the nameplate rating of the
transformer and 125 percent of the designed potential load of the utilization
equipment that will be operated simultaneously
! Clause 430.22(A)
Branch circuit conductor that supply a single motor used in a continuous duty
application shall have ampacity of not less than 125 percent of the motor’s full
load current rating.
! Clause 445.13
The ampacity of the conductors from the generator terminal to the first
distribution device(s) containing over current protection shall not be less than 115
percent of the nameplate current rating of the generator
Hence the multiplying factor can be concluded as:
! Multiplying factor (MF) for motor = 1.25
! Multiplying factor for generator = 1.15
! Multiplying factor for distribution board or lighting panel = 1.25
! Multiplying factor for static load = 1

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4.2.4 Full Load Current
4.2.4.1 Generator
The Full load current and the design current for generator is calculated using the
formula:
I!" !=!
!!"#!!!!"""
!!.!!!!.!"#!!
(4-5)
I! =!MF!"#!x!I!" (4-6)
= 1.15 xI!"
where:
I! : Design Current (A)
I!" : Full load current (A)
P!"# : Generator power (kW)
V!! : Line to line voltage (V)
cos!φ : Generator power factor
MF!"# : Multiplying factor for generator
4.2.4.2 Motors
The Full load current and the design current for motors is calculated using the
formula:
I!" !=!
!!!!!!"""
!!.!!!!.!.!"#!!
(4-7)
I! !=!MF!"#"$!x!I!" (4-8)
= 1.25 xI!"

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where:
P! : Motor power (kW)
cos!φ : Motor power factor
η : Motor efficiency
MF!"#"$ : Multiplying factor for motor
4.2.4.3 Transformers
The Full load current and the design current for transformer is calculated using the
formula:
I!" !=!
!!"!!!!"""
!!.!!!
(4-9)
I! =!MF!"#$%!x!I!" (4-10)
= 1.00 xI!"
where:
I!" : Full load current (Amp)
S!" : Transformer power (KVA)
V!! : Line to line voltage (Volts)
MF!"#$% : Multiplying Factor for Transformers

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4.2.4.4 Distribution Board / Panel
The Full load current and the design current for distribution panel is calculated
using the formula:
I!" !=!
!!"!!!!"""
!!.!!!!.!"#!!
(4-11)
I! =!MF!"!x!I!" (4-12)
= 1.25 xI!"
where:
P!" : Distribution board/panel power (kW)
cos!φ : Distribution board/panel power factor
MF!" : Multiplying factor for distribution board
4.2.4.5 Static Load
The Full load current and the design current for static load is calculated using the
formula:
I!" !=!
!!"#"$%
!!.!!!!.!.!"#!!
(4-13)
I! =!MF!"#"!x!I!" (4-14)
= 1.00 xI!"
where:

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P!"#"$% : Static load (kW)
cos!φ : Static load power factor
η : Static load efficiency
MF!"#" : Multiplying factor for static load
4.2.5 Minimum cable size based on cable ampacity
Cable ampacity is corrected by derated factor and the deratedampacity shall be
larger than the full load current.
I! !=!I!!x!F! > I!" (4-15)
where:
I! : Corrected cable ampacity (A)
I! : Current carrying capacity (A)
F : Derating factor
4.2.6 Number of Cable calculation
To fulfill the full load current, the number of cable (number of pulling) is
calculated using the formula:
! =!
!!"
!!
(4-16)

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where:
! : Number of cables used
I! : Corrected cable ampacity (A)
4.2.7 Voltage drop calculation
4.2.7.1 Permissible Voltage Drop
The maximum permissible voltage drop along the length of the cable with
reference to the nominal supply voltage is:
Table 4.2 % Voltage Drop for typical loads (referred to: UPD-TJ-P2-EL-PH-0101)
Load Types % Voltage Drop
Motors 5% running at full load 15 % on starting
Feeders 5% at full load between the MCC and the load terminals 2%
between MCC and a distribution board
Lighting 3% between lighting distribution board and most distant lighting
fixture
4.2.7.2 AC voltage drop at steady state
The steady state voltage drop for AC system is given by the following formula:
V! != !k. I!"!(R. cos!φ! + !X. sin!φ).
!
!"""
!.
!""%
!
!.
!
!
(4-17)
V! !≤!V!"#$%
where:
V!"#$% : Specified allowable voltage drop

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V! : Voltage drop (%)
V : Voltage (V); line-to-line voltage for 3-phase system, or line-to-
neutral voltage for 1-phase system
R : Resistance of the cable (Ohm per 1000 m)
X : Reactance of the cable (Ohm per 1000 m)
cos!φ : Power factor
L : Cable length
n : Number of cable in parallel
k : Constant; 3 for 3-phase system, and 2 for 1-phase system
Cable size shall be upgraded to bigger size or add more number of cables in
parallel when VDis greater than the specified allowable voltage drop value.
4.2.7.3 AC voltage drop at starting
The voltage drop for AC system during motor starting is given by the following
formula:
V!"# != !k. I!"!(R. cos!φ!" !+ !X. sin!φ!").
!
!"""
!.
!""%
!
!.
!
!
(4-18)
V!st! ≤!V!"#$%
where:
V!"#$% : Specified allowable voltage drop
V!st : Motor starting voltage drop (%)

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V : Voltage (V); line-to-line voltage for 3-phase system, or line-to-
neutral voltage for 1-phase system
I!" : Motor starting current (A)
R : Resistance of the cable (Ohm per 1000 m)
X : Reactance of the cable (Ohm per 1000 m)
cos!φ!": Motor starting power factor
L : Cable length
n : Number of cable in parallel
k : Constant; 3 for 3-phase system, and 2 for 1-phase system
The value of motor starting current is as below or based on Vendor datasheet.
I!" = 7 x IFL (for LV Motors up to 11 kW)
I!" = 6 x IFL (for LV Motors above 11 kW)
I!" = 5 x IFL (for all MV Motors)
4.2.7.4 DC voltage drop
Based on Ohm Law, cable and wire voltage drop for DC cable are:
V! =
!!!!!!!!!!!!!!!"
!"""!!!!
(4-19)
where:
V! : Voltage Drop across the cable (Volt)
R! : Cables Resistance (Ohm/Km)

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L : Estimated Cable Length (M)
I!" : Full Load Current (Ampere)
n : Number of parallel conductors
V!" =
!!!!!!""%
!!"
(4-20)
where:
V!" : Allowable percentage of Voltage Drop (%)
V!" : Nominal Voltage (Volt)
4.2.8 Short circuit thermal withstand capacity
Short circuit at load can be calculated by the equation below:
!!" =!
!!"
!"""!!!!!"
(4-21)
where:
!!" : Short Circuit Current (kA)
I!" : Full Load Current (A)
!!" : Sub-transient reactance for motor (p.u)
The minimum conductor size of LV cables are calculated by formula shown
below which is based on ANSI/IEEE Std 242-2001:
!
!
!
x!t = 0.0297 x!log
!!"!!"#
!!!!"#
(4-22)
or

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! !" =!
!!!!!"""!!!
!.!"#!!! !!"#
!!"!!"#
!!!!"#
!
!"""
(4-23)
!!" !≤ !!
where:
A : Min. cable size cross sectional area (circular mils)
I : Max. short circuit current (A)
T : Short circuit duration time (sec)
Tc : Max. permissible continuous operating temp. (90o
C : XLPE
Cable)
Tsc : Max. permissible temp. at short circuit (250o
C : XLPE Cable)

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CHAPTER V
CABLE SIZING CALCULATION
5.1 Basic Criteria
The following criteria and environment condition is used for cable sizing
calculation;Criteria is based on standard documents, cable catalogs, and client's
specification. The criterion consist of:
! Steel Wire Armor (SWA) - Low Smoke Free Halogen (LSFH) cables is sized
based on 90°C insulation temperature and 40°C ambient.
! The power and control cables are Steel Wire Armor (SWA) cable, copper
conductor, Cross-linked polyethylene (XLPE) insulated
! The cable data for resistance, reactance and ampacity of cable is taken from
vendor catalog (Cable of PT. Sumi Indo KabelTbk.)
! Maximum service temperature of conductor with XLPE insulation: 90 °C.
! Maximum short circuit condition of temparature of conductor with XLPE
insulation: 250 °C
! Installation in open air is on cable tray (touching) (referred to PT. Sumi Indo
KabelTbk. Low Voltage Cable Catalog)
5.2 Motor Load
5.2.1 Load Specification
Consider 482-HM-04A-P, a Depropanizer Condenser Fan Motor A which is
connected using XLPE/SWA/LSFH Cable to 360 ES 03 LPG/OTF 400 V
Switchgear. The specification of the Fan Motor is given below:
Table 5.1 Depropanizer Condenser Fan Motor A (482-HM-04A-P) specification
Parameters Value
Power Rating 30 KW

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Voltage 400 V
Efficiency at full load 0.92
Power Factor at full load 0.86
Power Factor at starting 0.3
Multiplying Factor 1.25
5.2.2 Cable Specification
Cable used for Depropanizer Condenser Fan Motor A (482-HM-04A-P) is a 0.6/1 kV
- XLPE/SWA/LSFH 3/C # 25 mm2
. The cable length is set to be 225 m (200m + 25 m
of contingency).The specification of the cable is described as follows:
Table 5.2 0.6/1 kV - XLPE/SWA/LSFH 3/C # 25 mm2
specification
Parameters Value
Size 0.6/1 kV - XLPE/SWA/LSFH 3/C # 25 mm2
Conductor Size (Kcmil) 50
Ampacity in Air (A) 153
Ampacity in Ground (A) 111
R (ohm / 1000 m) 0.727
X (ohm / 1000 m) 0.0779
Overall Diameter (mm) 27.5
Approx. Weight (kg/km) 1840

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5.2.3 Cable Sizing Calculation
5.2.3.1 Cable Ampacity Correction Factor
Referring to equation (4-2), The T1 which is the new conductor ambient temperature
is set to be 40o
Cand T2 which is the reference ambient temperature is 30o
C, referring
to PT. Sumi Indo Kabel Low Voltage Catalog, the temperature correction factor is
calculated as follows:
F! =
!!!!!!
!!!!!
=
!"!!!"
!"!!"
= !0.91 (5-1)
The installation assumption of the cable are using cable tray, number of tray is 2 and
the number of cable in each tray is 4, from the Table 4.1, F!is 0.77 (referred to PT.
Sumi Indo Kabel Low Voltage Catalog)
Table 5.3 Correction factor table for multi-core cable grouping perforated trays
Since F!is 0.77 and F! is 0.91, referring to equation (4-1), the overall correction factor
is equal to:
F = F!!!x!F! = 0.77!x!0.91! = !0.7 (5-2)
5.2.3.2 Resistance Cable Data and Resistance Correction Factor
Resistance of cable is provided at 20o
C (referred to PT. Sumi Indo Kabel Low
Voltage Cable Catalog),the ambient temperature is set to be at 40o
C. Referring to
equation (4-3), The resistance correction factor is:

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F! = 1 + α(T! − T!)!
F! = 1 + 0.00393!x(40 − 20)!
F! = 1.079 (5-3)
Referring to equation (4-4), and Table 5.2 for the R! value,
R! = !F!!!x!!R!
R! = !1.079!!!0.727
R! = !0.784!!ℎ!/!" (5-4)
5.2.3.3 Motor Full Load Current
Referring to equation (4-6), the Motor full load current can be calculated as follows:
I!" !=!
P!!x!1000
3!. V!!!. η. cos!φ
I!" !=!
!"!!!!"""
!!!!!!""!!!!.!"!!!!.!!
= 53.48 A (5-5)
Referring to equation (4-7),
I! =!MF!"#"$!x!I!"
I!= 1.25 x 53.48 A = 66.85 A (5-6)
5.2.3.4 Minimum cable size based on cable ampacity
Cable ampacity is corrected by Cable ampacity correction factor (F). From calculation
(5-2), F is equal to 0.7. Referring to equation (4-15) and Table 5.2, I! is the cable
ampacity in air and equal to 153 A. The Corrected cable ampacity (I!) can be
I! !=!I!!x!F
I! != !153!x!0.7!!

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I! != 107.55 A (5-7)
Since the system only used 1 cable, hence I!is equal to 107.55 A. Otherwise, I!should
be multiplied by the number of cable used in the system. Referring to calculation (5-
5), I!"is equal to 53.48 A. By equation (4-15), the corrected cable ampacity (I!) must
be larger than the full load current(I!").
I! > I!"
107.55!!! > !53.48!! (5-8)
By this condition, 0.6/1 kV - XLPE/SWA/LSFH 3/C # 25 mm2
suits the cable
ampacity for the system.
5.2.3.5 Number of Cable
To fulfill the full load current referring to equation (4-16), the number of cable is
! =!
!!"
!!
! =!
53.48
107.55
! = !0.49 ≈ 1 (5-9)
The number of 0.6/1 kV - XLPE/SWA/LSFH 3/C # 25 mm2
cable used is 1.
5.2.3.6 Voltage drop calculation
5.2.3.6.1 AC voltage drop at steady state
Referring to equation (4-17), the voltage drop at steady state are calculated as follows:
V! != !k. I!"!(R. cos!φ! + !X. sin!φ).
L
1000
!.
100%
V
!.
1
n

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V! != ! 3!!!53.48!!![(0.784!!!0.88)!+ (0.0779!!! sin (cos!!
0.88)]!!!
225
1000
!!
!100%
400
!!!
1
1
V! != !3.789!% (5-10)
From Table 4.2, the %voltage drop as per specification for motor running is 5%
V! !≤!V!"#$%
3.789!%!! ≤ !5!% (5-11)
suits the ac voltage
drop steady state criteria for the system.
5.2.3.6.2 AC voltage drop at starting
Referring to equation (4-18), the voltage drop at starting are calculated as follows:
V!"# != !k. I!"!(R. cos!φ!" !+ !X. sin!φ!").
L
1000
!.
100%
V
!.
1
n
V!"# != 3!!!53.48!!![(0.784!!!0.3)!+ (0.0779!!!0.95)]!!!
225
1000
!!
!100%
400
!!!
1
1
V!"# != !12.09!% (5-12)
From Table 4.2, the %voltage drop as per specification for motor starting is 15%
V!st! ≤!V!"#$%
12.09!% ≤ !15!% (5-13)
drop starting criteria for the system.
5.2.3.7 Short circuit thermal withstand capacity
Referring to equation (4-21), short circuit at load can be calculated as follows:

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!!" =!
!!"
1000!!!!!"
!!" =!
53.48
1000!!!0.3
!!" = !0.178!!" (5-14)
To calculate the maximum short circuit current, referring to equation (4-23)
! !" =!
!!!!1000!!!
!.!"#!!! !"#
!!"!!"#
!!!!"#
!
1000
! !" =!
50!!!1000!!!
!.!"#!!! !"#
!"#!!"#
!"!!"#
!.!"
1000
! !" = !8.994!!"! (5-15)
!!" !≤ !!
0.178!!" ≤ !8.994!!"! (5-16)
suits the short circuit
current criteria for the system.
5.2.4 Cable Selection
Based on the calculation of (5-8), (5-11), (5-13) and (5-16), all of the cable criteria
conditions are fulfilled by the 0.6/1 kV - XLPE/SWA/LSFH 3/C # 25 mm2
cable.
Hence, the cable is suitable to be used for Depropanizer Condenser Fan Motor A
(482-HM-04A-P).

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5.3 Feeder Load
5.3.1 Load Specification
Consider 339-OEH-01A, a VRU Compressor A - Lube Oil Heater which is connected
using XLPE/SWA/LSFH Cable to 360 ES 03 LPG/OTF 400 V Switchgear. The
specification of the Heater is given below:
Table 5.4 VRU Compressor A - Lube Oil Heater (339-OEH-01A) specification
Parameters Value
Power Rating 3 KW
Voltage 400 V
Efficiency at full load 1
Power Factor at full load 0.85
Power Factor at starting N/A
Multiplying Factor 1
5.3.2 Cable Specification
Cable used for VRU Compressor A - Lube Oil Heater (339-OEH-01A)is a 0.6/1 kV -
XLPE/SWA/LSFH 3/C # 2.5 mm2
. The number of cable is set to be 1. The cable
length is set to be 195 m (180m + 15 m of contingency). The specification of the
cable is described as follows:
Table 5.5 0.6/1 kV - XLPE/SWA/LSFH 3/C # 2.5 mm2
specification
Parameters Value
Size 0.6/1 kV - XLPE/SWA/LSFH 3/C # 2.5 mm2
Conductor Size (Kcmil) 5

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Ampacity in Air (A) 37
Ampacity in Ground (A) 32
R (ohm / 1000 m) 7.41
X (ohm / 1000 m) 0.0961
Overall Diameter (mm) 16.5
Approx. Weight (kg/km) 485
5.3.3 Cable Sizing Calculation
5.3.3.1 Cable Ampacity Correction Factor
The installation assumption is using the same installation assumption as for motor
load, which is using cable tray. The number of tray is 2 and the number of cable in
each tray is 4, from the Table 4.1, F!is 0.77 (referred to PT. Sumi Indo Kabel Low
Voltage Catalog)
Referring to equation (5-1), the F! is equal to 0.91. Referring to equation (5-2), the
overall correction factor (F) is equal to 0.7.
5.3.3.2 Resistance Cable Data and Resistance Correction Factor
Using the same calculation as in calculation (5-3), the F!, which is the resistance
correction factor is equal to 1.079. Using the equation (4-4), and Table 5.5 for the R!
value, the corrected cable resistance for 0.6/1 kV - XLPE/SWA/LSFH 3/C # 2.5 mm2
cable is calculated as follows
R! = !F!!!x!!R!
R! = !1.079!!!7.41
R! = !7.99!!!ℎ!/!" (5-17)

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5.3.3.3 Feeder Full Load Current
Referring to equation (4-6), the Feeder full load current can be calculated as follows:
I!" !=!
P!!x!1000
3!. V!!!. η. cos!φ
I!" !=!
!!!!!"""
!!!!!!""!!!!!!!!.!"
= 5.094 A (5-18)
Referring to equation (4-7),
I! =!MF!""#"$!x!I!"
I! = 1 x 5.094A = 5.094 A (5-19)
5.3.3.4 Minimum cable size based on cable ampacity
Cable ampacity is corrected by Cable ampacity correction factor (F). From calculation
(5-2), F is equal to 0.7. Referring to equation (4-15) and Table 5.5, I! is the cable
ampacity in air and equal to 37 A. The Corrected cable ampacity (I!) can be
I! !=!I!!x!F
I! != !37!x!0.7!!
I! != 26 A (5-20)
Since the system only used 1 cable, hence I!is equal to 26 A. Otherwise, I!should be
multiplied by the number of cable used in the system. Referring to calculation (5-18),
I!" is equal to 5.094 A. By equation (4-15), the corrected cable ampacity (I!) must be
larger than the full load current (I!").
I! > I!"
26!!! > 5.094! (5-21)

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By this condition, 0.6/1 kV - XLPE/SWA/LSFH 3/C # 2.5 mm2
suits the cable
ampacity for the system.
5.3.3.5 Number of Cable
To fulfill the full load current referring to equation (4-16), the number of cable shall
be:
! =!
!!"
!!
! =!
5.09
26
! = !0.19 ≈ 1 (5-22)
The number of 0.6/1 kV - XLPE/SWA/LSFH 3/C # 2.5 mm2
cable used is 1.
5.3.3.6 Voltage drop calculation
5.3.3.6.1 AC voltage drop at steady state
Referring to equation (4-17), the voltage drop at steady state are calculated as follows:
V! != !k. I!"!(R. cos!φ! + !X. sin!φ).
L
1000
!.
100%
V
!.
1
n
V! != ! 3!!!5.094!!![(7.99!!!0.85)!+ (0.0961!!! sin (cos!!
0.85)]!!!
195
1000
!!
!100%
400
!!!
1
1
V! != !2.944!% (5-23)
From Table 4.2, the %voltage drop as per specification for feeder running is 5%
V! !≤!V!"#$%
2.944!!%!! ≤ !5!% (5-24)
drop steady state criteria for the system.

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5.3.3.7 Short circuit thermal withstand capacity
Referring to equation (4-21), short circuit at load can be calculated as follows:
!!" =!
!!"
1000!!!!!"
!!" =!
5.094!
1000!!!0.3
!!" = !0.169!!" (5-25)
To calculate the maximum short circuit current, referring to equation (4-22)
! !" =!
!!!!1000!!!
!.!"#!!! !"#
!!"!!"#
!!!!"#
!
1000
! !" =!
5!!!1000!!!
!.!"#!!! !"#
!"#!!"#
!"!!"#
!.!"
1000
! !" = !0.8994!!"! (5-26)
!!" !≤ !!
0.169!!" ≤ !0.8994!!"! (5-27)
suits the short circuit
current criteria for the system.
5.3.4 Cable Selection
Based on the calculation of (5-21), (5-24) and (5-27), all of the cable criteria
conditions are fulfilled by the 0.6/1 kV - XLPE/SWA/LSFH 3/C # 2.5 mm2
cable.
Hence, the cable is suitable to be used for VRU Compressor A - Lube Oil Heater
(339-OEH-01A).

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CHAPTER VI
CONCLUSION
The conclusion that can be summarize from this cable sizing calculations are:
! Cable sizing for cables run from 400 V Switchgear and MCC Process 360-ES-03
to the loads already meet the requirement of allowable steady state current
carrying capacity. Where the condition of I! > I!" is fulfilled.
to the loads already meet the requirement of allowable voltage drop during steady
state and transient (motor starting) condition. Where the condition of
V! !≤!V!"!"#andV!"# !≤!V!"#$% are fulfilled.
to the loads already meet the requirement of short circuit current withstand
capacity. Where the condition of !!" !≤ !! is fulfilled.

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REFERENCES
Tripatra Engineering. Cable Sizing and Volt Drop Calculation. Document no:
DMAN-TPE-ENGELC-027.
Tripatra Engineering. Cable Tray Sizing and Selection. Document no: DMAN-TPE-
ENGELC-028.
CM Corporation. Current carrying capacity of copper conductors. Retrieved on 20th
March 2015 from http://www.cmcorporation.com/conductors/current-carrying-
capacity-of-copper-conductors
EPB. Fundamentals of electricity: Voltage drop. Retrieved on 18th
March 2015 from
http://epb.apogee.net/foe/frvd.asp.
Tripatra.Tripatra’s profile. Retrieved on 18th
March 2015 from
http://intranet.tripatra.com/default.aspx
Electerical Engineering Portal.Sizing of power cables. Retrieved on 19th
March 2015
fromhttp://electrical-engineering-portal.com/sizing-of-power-cables-for-circuit-
breaker- controlled-feeders-part-1
DP Kothari and I J Nagarath. 2003. Modern Power System Analysis 3rd
Edition.
Tata McGraw-Hill Education.

0.6 kV CONTINUOUS ALUMINUM CORRUGATED ARMOR
Correction Factor
: 40 Ft - Temp Correction Factor : 0.91
Fg - Cable Group Cor. Fact (In Cable Tray): 0.77 cable&tray&
number&of&tray&2
: 30 Fr - Resistance Cor. Fact : 1.079 number&of&cable&4
: 90
: 20
: 250
: 50
Ia/In CURRENT Ic Fg Ft Id Ro Fr R
X
(@50Hz)
MAX Vdn Vdn
MAX
Vdn
Vdn
SC
@LOAD
TIME
VALUE UNIT (VOLT) UNIT (pu) (pu) (pu) (pu) (A) (A) (pu) (A) (m) (no) (m) (Type)
COND SIZE
(kcmil)
(A) (pu) (pu) (A) (ohm/km) (ohm/km) (ohm/km) (%) (%) (%) (%) (kA) (s) Tsc (o
C) Tc (o
C)
1 M 482HM04A&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& DEPROPANIZER&CONDENSER&FAN&MOTOR&A 4827HM704A& 30 kW 400 V 0.92 0.88 0.3 1.25 53.48 66.86 7.5 401.14 225 1 225 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&25&mm2 50 153 0.77 0.91 107.55 0.73 1.08 0.78 0.08 5 3.79 15 12.10 0.3 0.18 0.16 250 90
2 M 482HM04B&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& DEPROPANIZER&CONDENSER&FAN&MOTOR&B 4827HM704B& 30 kW 400 V 0.92 0.88 0.3 1.25 53.48 66.86 7.5 401.14 280 1 280 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&35&mm2 68 188 0.77 0.91 132.15 0.52 1.08 0.57 0.08 5 3.46 15 11.74 0.3 0.18 0.16 250 90
3 M 482PM01A&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& DEETHANIZER&REFLUX&PUMP&MOTOR&A 4827PM701A 22 kW 400 V 0.91 0.9 0.3 1.25 38.77 48.46 7.4 286.91 280 1 280 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&25&mm2 50 153 0.77 0.91 107.55 0.73 1.08 0.78 0.08 5 3.48 15 10.77 0.3 0.13 0.16 250 90
4 M 482PM01B&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& DEETHANIZER&REFLUX&PUMP&MOTOR&B 4827PM701B 22 kW 400 V 0.91 0.9 0.3 1.25 38.77 48.46 7.4 286.91 280 1 280 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&25&mm2 50 153 0.77 0.91 107.55 0.73 1.08 0.78 0.08 5 3.48 15 10.77 0.3 0.13 0.16 250 90
5 M 482PM02A&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& DEPROPANIZER&REFLUX&PUMP&MOTOR&A 4827PM702A 36 kW 400 V 0.94 0.89 0.3 1.25 62.11 77.64 7.4 459.62 280 2 280 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&16&mm2 27 118 0.77 0.91 165.89 1.15 1.08 1.24 0.08 5 4.29 15 12.44 0.3 0.21 0.16 250 90
6 M 482PM02B&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& DEPROPANIZER&REFLUX&PUMP&MOTOR&B 4827PM702B 36 kW 400 V 0.94 0.89 0.3 1.25 62.11 77.64 7.4 459.62 280 2 280 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&16&mm2 27 118 0.77 0.91 165.89 1.15 1.08 1.24 0.08 5 4.29 15 12.44 0.3 0.21 0.16 250 90
7 M 482PM04A&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& DEBUTANIZER&REFLUX&PUMP&MOTOR&A 4827PM704A 45 kW 400 V 0.95 0.87 0.3 1.25 78.59 98.23 7.6 597.26 280 1 280 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&50&mm2 76 219 0.77 0.91 153.94 0.39 1.08 0.42 0.07 5 3.81 15 14.24 0.3 0.26 0.16 250 90
8 M 332HM02A&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& CRUDE&OIL&RUNDOWN&COOLER&FAN&MOTOR&A 3327HM702A 15 kW 400 V 0.92 0.88 0.3 1.25 26.74 33.43 7.5 200.57 165 1 165 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&10&mm2 20 88 0.77 0.91 61.86 1.83 1.08 1.97 0.08 5 3.39 15 9.58 0.3 0.09 0.16 250 90
9 M 339PM01A&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& FLASH&GAS&COMPRESSOR&A&7&COMPRESSOR&PRE7LUBE&OIL&PUMP&MOTOR 3397PM701A 2.5 kW 400 V 0.83 0.88 0.3 1.25 4.94 6.18 7.6 37.55 250 1 250 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&2.5&mm2 5 37 0.77 0.91 26.01 7.41 1.08 7.99 0.10 5 3.79 15 10.12 0.3 0.02 0.16 250 90
10 F 339OEH01A&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& VRU&COMPRESSOR&A&7&LUBE&OIL&HEATER 3397OEH701A 3 kW 400 V 1 0.85 N/A 1 5.09 5.09 N/A N/A 195 1 195 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&2.5&mm2 5 37 0.77 0.91 26.01 7.41 1.08 7.99 0.10 5 2.94 15 N/A 0.3 0.02 0.16 250 90
11 M 332PM01A&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& CRUDE&OIL&RUNDOWN&PUMP&MOTOR&A 3327PM701A 36 kW 400 V 0.94 0.89 0.3 1.25 62.11 77.64 7.4 459.62 210 6 210 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&25&mm2 50 153 0.77 0.91 645.27 0.73 1.08 0.78 0.08 5 0.69 15 2.16 0.3 0.21 0.16 250 90
12 M 332PM01B&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& CRUDE&OIL&RUNDOWN&PUMP&MOTOR&B 3327PM701B 36 kW 400 V 0.94 0.89 0.3 1.25 62.11 77.64 7.4 459.62 210 1 210 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&25&mm2 50 153 0.77 0.91 107.55 0.73 1.08 0.78 0.08 5 4.14 15 12.94 0.3 0.21 0.16 250 90
13 M 339PM03A&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& FLASH&GAS&COMPRESSOR&A&7&ENGINE&PRE&LUBE&OIL&PUMP&MOTOR 3397PM703A 3.7 kW 400 V 0.84 0.88 0.3 1.25 7.22 9.03 7.7 55.63 250 1 250 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&4&mm2 8 42 0.77 0.91 29.52 4.61 1.08 4.97 0.09 5 3.46 15 9.50 0.3 0.02 0.16 250 90
14 M 381PM02&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& CRUDE&OIL&RE7RUN&PUMP&MOTOR 3817PM702 22 kW 400 V 0.91 0.9 0.3 1.25 38.77 48.46 7.4 286.91 385 1 385 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&25&mm2 50 153 0.77 0.91 107.55 0.73 1.08 0.78 0.08 5 4.78 15 14.81 0.3 0.13 0.16 250 90
15 M 436HM01A&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& REGENERATION&GAS&COOLER&FAN&MOTOR&A 4367HM701A 2.5 kW 400 V 0.83 0.88 0.3 1.25 4.94 6.18 7.6 37.55 250 1 250 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&2.5&mm2 5 37 0.77 0.91 26.01 7.41 1.08 7.99 0.10 5 3.79 15 10.12 0.3 0.02 0.16 250 90
16 M 436HM01B&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& REGENERATION&GAS&COOLER&FAN&MOTOR&B 4367HM701B 2.5 kW 400 V 0.83 0.88 0.3 1.25 4.94 6.18 7.6 37.55 250 1 250 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&2.5&mm2 5 37 0.77 0.91 26.01 7.41 1.08 7.99 0.10 5 3.79 15 10.12 0.3 0.02 0.16 250 90
17 F 332VT027P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& LP&ELECTROSTATIC&TREATER 332&7VT702 30 kW 400 V 1 0.8 N/A 1 54.13 54.13 N/A N/A 160 1 160 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&25&mm2 50 153 0.77 0.91 107.55 0.73 1.08 0.78 0.08 5 2.53 15 N/A 0.3 0.18 0.16 250 90
18 F 339OEH01B&7&P OTF/LPGF&&400&V&SWITCHGEAR&&&MCC&PROCESS& 3607&ES7&03& VRU&COMPRESSOR&B&7&LUBE&OIL&HEATER 3397OEH701B 3 kW 400 V 1 0.85 N/A 1 5.09 5.09 N/A N/A 195 1 195 0.6/1&kV&7&XLPE/SWA/LSFH&3/C&#&2.5&mm2 5 37 0.77 0.91 26.01 7.41 1.08 7.99 0.10 5 2.94 15 N/A 0.3 0.02 0.16 250 90
NO. LOAD TYPE
CABLE TAG
NUMBER
TEMPERATURE
CONDITION
POWER RATING CABLE SIZE
CABLE AMPACITY LOAD SCSTARTING CURRENT
Environment Condition
T1 - T amb (°C)
Design Cable- Catalogue
T2 - T amb (°C) (Ampacity)
Tc - T Rating of Cond. (°C)
To - T amb (°C) (Resistance)
Tsc- Tmax at SC (°C)
Frequency for Reactance (Hz)
FROM CABLE DATA RUNNINGTO
EGUIPMENT
TAG NUMBER
DESCRIPTION
EGUIPMENT TAG
NUMBER
DESCRIPTION
ESTIMATED
LENGTH
TOTAL
LENGTH
DESIGN
CURRENT
STARTING SC CAPACITY OF CONDUCTOR
PF. AT
START
NUMBER
OF CABLE
VOLTAGE( Vn)
EFF. AT
FULL
LOAD
PF. AT
FULL
LOAD
FULL LOAD
CURRENT
(IFL)
MULTIPLY
FACTOR
LOAD
Xd"

MINIMUM
CONDUCTOR
kcmill
1 8.99
1 12.23
1 8.99
1 8.99
2 4.86
2 4.86
2 13.67
1 3.60
1 0.90
1 0.90
1 8.99
1 8.99
1 1.44
1 8.99
1 0.90
1 0.90
1 8.99
1 0.90
SHORT CIRCUIT
CAPACITY OF
CONDUCTOR
(kA) @ 0.16 S
SC CAPACITY OF CONDUCTOR

Internship Report - Febrianto Nugroho (UI)

Head Office/Factory:
Jl. Gatot Subroto Km 7,8 Kel Pasir Jaya, Kec. Jati Uwung, Tangerang 15135-Indonesia
Phone : (62-21) 5922404, 5928066 (Hunting) Fax. : (62-21) 59301979, 5922576, 5901469
c Copyright Sumi Indo Kabel 2009
All rights reserved. This catalogue is the copyright work of PT. Sumi Indo Kabel Tbk. No part of this publication may be reproduced, stored in a retrieval system, or transmitted,
in any form or by means, electronic, mechanical, photocopying, recording or otherwise, without prior permission of PT. Sumi Indo Kabel.
All information contained in this catalogue is believed to be accurate at the time issue. PT. Sumi Indo Kabel reserve the right to change information or specification at any time
in the light of technical developments or revisions.
Issue : 3 Date: June 2009

Section 1 - Contents & Information
Low Voltage Catalogue Index
Page Number
SECTION 1 - Contents & Information
Index Page 11
Company Profile of PT. SUMI INDO KABEL Tbk 2
Cable Specification 3
SECTION 2 - PVC Insulated Cables
Unarmoured Cables
450/750 Volts PVC Insulated Cables (Cu/PVC, NYA) 5
450/750 Volts PVC Insulated Cables (Flexible Cu/PVC, NYAF) 6
300/500 Volts PVC Insulated and PVC Sheathed Cables (PVC/PVC, NYM) 8
300/500 Volts PVC Insulated and PVC Sheathed Cables (Flexible PVC/PVC, NYMHY) 10
450/750 Volts PVC Insulated and PVC Sheathed Cables (Flexible PVC/PVC, NYYHY) 11
600/1000 Volts PVC Insulated and PVC Sheathed Cables (PVC/PVC, NYY) 18
600/1000 Volts PVC Insulated, Copper Tape Shielded and PVC Sheathed Cables (PVC/PVC-S, NYSY) 30
Armoured Cables
600/1000 Volts PVC Insulated, Steel Wire Armoured and PVC Sheathed Cables (PVC/SWA/PVC, NYRY) 35
600/1000 Volts PVC Insulated, Flat Steel Wire Armoured and PVC Sheathed Cables (PVC/FSWA/PVC, NYFGbY) 41
600/1000 Volts PVC Insulated, Double Steel Tape Armoured and PVC Sheathed Cables (PVC/DSTA/PVC, NYBY) 46
SECTION 3 - XLPE Insulated Cables
Unarmoured Cables
600/1000 Volts XLPE Insulated and PVC Sheathed Cables (XLPE/PVC, N2XY) 52
600/1000 Volts XLPE Insulated, Copper Tape Shielded and PVC Sheathed Cables (XLPE/PVC-S, N2XSY) 62
Armoured Cables
600/1000 Volts XLPE Insulated, Steel Wire Armoured and PVC Sheathed Cables (XLPE/SWA/PVC, N2XRY) 67
600/1000 Volts XLPE Insulated, Flat Steel Wire Armoured and PVC Sheathed Cables (XLPE/FSWA/PVC, N2XFGbY) 73
600/1000 Volts XLPE Insulated, Double Steel Tape Armoured and PVC Sheathed Cables (XLPE/DSTA/PVC, N2XBY) 78
SECTION 4 - General Information
Current Carrying Capacity for XLPE Insulated cable (single core) 83
Current Carrying Capacity for XLPE Insulated cable (multicore) 84
Current Carrying Capacity for PVC Insulated cable (single core) 85
Current Carrying Capacity for PVC Insulated cable (multicore) 86
Correction factor of Curent carrying capacity 87
Cable arrangement for Installation purpose 88
Explanation of Flame Retardant / Fire Resistant Characteristic 91
Page - 1

Page - 2
1
Company Profile of PT. Sumi Indo Kabel Tbk
The Company was established on July 23, 1981 with its Head Office
and Factory located in Tangerang, Banten. The Company is engaged
in the manufacturing of Power Cable, Telecommunication Cable &
Fiber Optic, and Copper Wire.
The Company was listed in the Jakarta and Surabaya Stock Exchanges
in 1990. The Company became Foreign Capital Investment (PMA)
in 1994, with the participation of Sumitomo Electric Industries, Ltd.,
Japan, one of the biggest in cable and wire industries in the world. The
name of Company became PT Sumi Indo Kabel Tbk. since 1999.
The Company received official recognition of its quality management
system standard from SGS, certification ISO 9001 : 2000 for its Power
Cable & Control Cable, Telephone Cable & Fiber Optic Cable, and
Copper Wire Rod in 2002. This was the first recognition in Indonesia
for Electric Cable and Wire industries.

Section 2 - PVC Insulated Cables
Unarmoured Cables
450/750 V PVC INSULATED WIRE (Cu/PVC)
acc. to IEC 60227
Copper Conductor (Solid) PVC Insulation
Copper Conductor (Stranded) PVC Insulation
Colour of Insulation : Red, White, Black, Green, Brown, Blue, Yellow, Green-yellow
450/750 V PVC INSULATED WIRE (Cu/PVC Flexible)
acc. to IEC 60227
Copper Conductor (Flexible) PVC Insulation
Colour of Insulation : Red, White, Black, Green, Brown, Blue, Yellow, Green-yellow
Page - 4
Note : Special application upon request
* Available product in accordance to : SPLN or other requirement.
* Tin coated Copper conductor.

1 Scope
2 Conductor
The conductor shall be solid, circular stranded or compacted stranded.
3 Insulation
4 Identification of cores
Number of core Identification of cores
Single core Black (Natural for XLPE insulated)
Two cores Red, Black
Three cores Red, Yellow, Blue
Four cores Red, Yellow, Blue, Black
Five core or more Black insulation with white numbered code.
5 Cabling and filling
6 Metallic Shielding (if required)
The metallic shielding shall consist of either one or more Copper tapes or a concentric layer of
copper wires.
7 Inner sheath (armour cable only).
8 Metallic armour
9 Outer sheath
The conductor shall be formed from plain annealed copper or aluminium complying with IEC 60228,
ASTM B3 and B8.
The insulation shall be cross-linked polyethylene (XLPE) or Polivinyl chloride (PVC) in accordance
to IEC 60502-1.
The outer sheath shall consist of a thermoplastic compound such as polyvinyl chloride (PVC),
polyethylene (PE), halogen free (LSOH), etc in accordance with IEC 60502-1.
Page - 3
The cores of all cables shall be identified by color or numbered printed on the surface of insulation in
accordance with the following sequence or other sequence.
The multi cores shall be laid up together with suitable filler to give the completed cable a
substantially circular cross section and bound with suitable binder tape.
The inner sheath shall consist of extruded thermoplastic compound such as :polyvinyl chloride
(PVC), polyethylene (PE),halogen free (LSOH), etc in accordance to IEC 60502-1.
The metallic armour shall consist of single layer of round galvanized steel wire or flat galvanized steel
wire and steel tape or double layer of galvanized steel tapes in accordance to IEC 60502-1.
The armour of single core cables shall consist of single layer of aluminium wire or double layers of
aluminium tape as non magnetic material.
Cable Specification
These specification apply to material and constructions of cross-linked thermosetting polyethylene
(XLPE) or Polivinyl chloride (PVC) insulated wire and cables for rated voltages 0.3/0.5 kV up to
0.6/1(1.2) kV accordance to IEC 60502-1, Indonesia Electric Power Company (SPLN)

Unarmoured Cables
CONSTRUCTION TECHNICAL DATA
Conductor : Plain Annealed Copper Voltage
(to IEC 60228 class 1 or 2) Uo/U - 450/750 V
Insulation : PVC Compound type C Operating Temperature
Colour Ident. : Red, White, Black, Green, Maximum 70°C
Blue, Yellow, Green-yellow
1.5 1 / 1.38 1.38 0.7 3.0 22 12.1 0.011 2500
1.5 7 / 0.52 1.56 0.7 3.5 23 12.1 0.010 2500
2.5 1 / 1.78 1.78 0.8 4.0 33 7.41 0.010 2500
2.5 7 / 0.67 2.01 0.8 4.0 35 7.41 0.009 2500
4 1 / 2.26 2.26 0.8 4.5 49 4.61 0.0085 2500
4 7 / 0.85 2.55 0.8 4.5 52 4.61 0.0077 2500
6 1 / 2.77 2.77 0.8 5.0 69 3.08 0.0070 2500
6 7 / 1.04 3.12 0.8 5.0 72 3.08 0.0065 2500
10 1 / 3.57 3.57 1.0 6.0 113 1.83 0.0070 2500
10 7 / 1.35 4.05 1.0 6.5 119 1.83 0.0065 2500
16 7 / 1.70 5.10 1.0 7.5 179 1.15 0.0050 2500
25 7 / 2.13 6.39 1.2 9.0 277 0.727 0.0050 2500
35 7 / 2.52 7.56 1.2 10.5 377 0.524 0.0040 2500
50 19 / 1.83 9.15 1.4 12.5 530 0.387 0.0045 2500
70 19 / 2.17 10.85 1.4 14.0 727 0.268 0.0035 2500
95 19 / 2.52 12.60 1.6 16.5 985 0.193 0.0035 2500
120 37 / 2.03 14.21 1.6 18.0 1218 0.153 0.0032 2500
150 37 / 2.27 15.89 1.8 20.0 1522 0.124 0.0032 2500
185 37 / 2.52 17.64 2.0 22.0 1873 0.0991 0.0032 2500
240 61 / 2.26 20.34 2.2 25.5 2465 0.0754 0.0032 2500
300 61 / 2.52 22.68 2.4 28.0 3055 0.0601 0.0030 2500
400 61 / 2.86 25.74 2.6 31.5 3927 0.0470 0.0028 2500
Page - 5
V/5 min
Maximum AC
Test
Voltage
MΩ.km
Thickness
Nominal
Resistance Resistance
wire
Conductor
of
Nominal No./
Diameter
Minimum
Insulation
Cross-
Diameter
of wire
(approx.)
Conductorsection Insulation
Weight
Nominal
Overall
Ω/kmkg/kmmm²
(Approx.)(Approx.)
No./mm
area (approx.)
mmmm mm
450/750 V PVC INSULATED WIRE
CU/PVC (IEC 60227)
Conductor
at 70°Cat 20°C
of Diameter of

Unarmoured Cables
(to IEC 60228 class 5) Uo/U - 450/750 V
Insulation : PVC Compound type C Operating Temperature
Colour Ident. : Red, White, Black, Green, Maximum 70°C
Blue, Yellow, Green-yellow
1.5 1.58 0.7 3.5 22 13.30 0.010 2500
2.5 0.26 2.04 0.8 4.0 34 7.98 0.009 2500
4 0.31 2.59 0.8 4.5 50 4.95 0.007 2500
6 0.31 3.46 0.8 5.5 75 3.30 0.006 2500
10 0.41 4.62 1.0 7.0 130 1.91 0.0056 2500
16 0.41 5.66 1.0 8.0 186 1.21 0.0046 2500
25 0.41 7.06 1.2 10.0 286 0.78 0.0044 2500
35 0.41 8.43 1.2 11.0 395 0.554 0.0038 2500
50 0.41 10.07 1.4 13.5 550 0.386 0.0037 2500
70 0.51 11.97 1.4 15.0 760 0.272 0.0032 2500
95 0.51 13.73 1.6 17.5 1008 0.206 0.0032 2500
120 0.51 15.53 1.6 19.5 1270 0.161 0.0029 2500
150 0.51 17.56 1.8 22.0 1605 0.129 0.0029 2500
185 0.51 19.16 2.0 24.0 1914 0.106 0.0029 2500
240 0.51 22.0 2.2 27.0 2491 0.0801 0.0028 2500
Page - 6
Maximum MinimumNominal Nominal
Thickness Overall
section Conductor
Nominal Diameter Insulation
Cross- of of Diameter of Resistance Resistance
Weight Conductor
0.26
at 70°C
area (Approx.) (Approx.)(approx.)
mm mm kg/km Ω/kmmm² mm
(approx.)
Insulation wire at 20°C
mm V/5 minMΩ.km
Conductor AC
Maximum Test
Diameter Voltage
of wire
450/750 V PVC INSULATED WIRE
CU/PVC-Flexible (IEC 60227)

Unarmoured Cables
300/500 V PVC INSULATED AND PVC SHEATHED CABLES
PVC/PVC (NYM) - IEC 60227 , SPLN 42-2
Conductor PVC Inner covering
PVC Insulation PVC Sheath
PVC/PVC Flexible (NYMHY) - IEC 60227 , SPLN 42-2
Conductor
PVC Insulation PVC Sheath
PVC/PVC Flexible (IEC 60227, SPLN 42-6-3)
Tape (manufacturer's option)
Conductor PVC Sheath
PVC Insulation
Filler (Polyprophylene yarn,or extruded filler up to request)
Page - 7

Unarmoured Cables
(to IEC 60228 class 1 and 2) Uo/U - 300/500 V
Insulation : PVC Compound Operating Temperature
Inner covering : PVC Compound Maximum 70°C
Sheath : PVC Compound type ST2
Colour Ident. : Insulation : Two cores - Red,Black
Three cores - Red,Yellow, Blue
Sheath - White
TWO AND THREE CORES
No.
of
Core
-
1.5 1 / 1.38 1.38 0.7 0.4 1.2 9.5 129 12.1
7 / 0.52 1.56 0.7 0.4 1.2 10.0 138 12.1
2.5 1 / 1.78 1.78 0.8 0.4 1.2 11.0 173 7.41
7 / 0.67 2.01 0.8 0.4 1.2 11.0 184 7.41
4 1 / 2.26 2.26 0.8 0.4 1.2 12.0 222 4.61
2 7 / 0.85 2.55 0.8 0.4 1.2 12.5 239 4.61
6 1 / 2.77 2.77 0.8 0.4 1.2 13.0 294 3.08
7 / 1.04 3.12 0.8 0.4 1.2 14.0 313 3.08
10 1 / 3.57 3.57 1.0 0.6 1.4 16.0 453 1.83
7 / 1.35 4.05 1.0 0.6 1.4 17.0 492 1.83
16 7 / 1.70 5.10 1.0 0.6 1.4 19.0 668 1.15
25 7 / 2.13 6.39 1.2 0.8 1.4 23.0 998 0.727
35 7 / 2.52 7.56 1.2 1.0 1.6 26.0 1336 0.524
1.5 1 / 1.38 1.38 0.7 0.4 1.2 10.0 150 12.1
7 / 0.52 1.56 0.7 0.4 1.2 10.5 159 12.1
2.5 1 / 1.78 1.78 0.8 0.4 1.2 11.5 205 7.41
7 / 0.67 2.01 0.8 0.4 1.2 12.0 216 7.41
4 1 / 2.26 2.26 0.8 0.4 1.2 12.5 266 4.61
3 7 / 0.85 2.55 0.8 0.4 1.2 13.0 286 4.61
6 1 / 2.77 2.77 0.8 0.4 1.4 14.0 357 3.08
7 / 1.04 3.12 0.8 0.4 1.4 14.5 381 3.08
10 1 / 3.57 3.57 1.0 0.6 1.4 17.0 557 1.83
7 / 1.35 4.05 1.0 0.6 1.4 18.0 600 1.83
16 7 / 1.70 5.10 1.0 0.8 1.4 20.5 849 1.15
25 7 / 2.13 6.39 1.2 0.8 1.6 24.5 1270 0.727
35 7 / 2.52 7.56 1.2 1.0 1.6 27.5 1679 0.524
Conductor Nominal Nominal
at 20°C
Conductor
Ω/km
Resistance
Thickness
Sheath
Weightdiameter
cable cable
Maximum
Nominal No./ Diameter Thickness
Cross- Diameter of of
section
Overall
of of
No./mm
(approx.) (approx.)
mm kg/kmmm
area
of wire Conductor Insulation
(approx.)
of
mm²
Thickness
of Inner
covering
(approx.)
mm mm
(approx.)
mm
Page - 8

Unarmoured Cables
(to IEC 60228 class 1 and 2) Uo/U - 300/500 V
Insulation : PVC Compound Operating Temperature
Colour Ident. : Insulation : Four core - Red,Yellow, Blue, Black
Five core - Black with numbering code
Sheath - White
FOUR AND FIVE CORES
No.
of
Core
-
1.5 1 / 1.38 1.38 0.7 0.4 1.2 11.0 177 12.1
7 / 0.52 1.56 0.7 0.4 1.2 11.5 189 12.1
2.5 1 / 1.78 1.78 0.8 0.4 1.2 12.5 247 7.41
7 / 0.67 2.01 0.8 0.4 1.2 13.0 262 7.41
4 1 / 2.26 2.26 0.8 0.4 1.4 14.0 340 4.61
4 7 / 0.85 2.55 0.8 0.4 1.4 14.5 361 4.61
6 1 / 2.77 2.77 0.8 0.4 1.4 15.5 456 3.08
7 / 1.04 3.12 0.8 0.4 1.4 16.0 482 3.08
10 1 / 3.57 3.57 1.0 0.6 1.4 18.5 690 1.83
7 / 1.35 4.05 1.0 0.6 1.4 19.5 742 1.83
16 7 / 1.70 5.10 1.0 0.8 1.4 22.5 1059 1.15
25 7 / 2.13 6.39 1.2 1.0 1.6 27.5 1616 0.727
35 7 / 2.52 7.56 1.2 1.0 1.6 30.0 2107 0.524
1.5 1 / 1.38 1.38 0.7 0.4 1.2 11.5 210 12.1
7 / 0.52 1.56 0.7 0.4 1.2 12.0 223 12.1
2.5 1 / 1.78 1.78 0.8 0.4 1.2 13.5 293 7.41
7 / 0.67 2.01 0.8 0.4 1.2 14.0 313 7.41
4 1 / 2.26 2.26 0.8 0.6 1.4 15.5 424 4.61
5 7 / 0.85 2.55 0.8 0.6 1.4 16.5 452 4.61
6 1 / 2.77 2.77 0.8 0.6 1.4 17.0 548 3.08
7 / 1.04 3.12 0.8 0.6 1.4 17.5 579 3.08
10 1 / 3.57 3.57 1.0 0.6 1.4 20.0 839 1.83
7 / 1.35 4.05 1.0 0.6 1.4 21.5 898 1.83
16 7 / 1.70 5.10 1.0 0.8 1.6 25.0 1310 1.15
25 7 / 2.13 6.39 1.2 1.0 1.6 30.0 1969 0.727
35 7 / 2.52 7.56 1.2 1.2 1.6 33.5 2617 0.524
Maximum
Conductor Nominal Nominal Overall
of Inner of of of Resistance
Thickness Thickness diameter Weight
cablesection of wire Conductor Insulation
Conductor
at 20°C
area (approx.) (approx.) (approx.) (approx.) (approx.)
covering Sheath cable
mm kg/kmmm² No./mm mm mm
Page - 9
Ω/kmmm mm

Unarmoured Cables
(to IEC 60228 class 5) Uo/U - 300/500 V
Insulation : PVC Compound type D Operating Temperature
Sheath : PVC Compound type ST5 Maximum 70°C
Colour Ident. : Insulation - Red,Black: Two core - Red,Black
Three core - Red,Yellow, Blue
Four core - Red,Yellow, Blue, Black
Five core - Black with numbering code
Sheath - White
Number
of
Core
-
0.75 1.13 7.0 64 26.0
2 1 0.21 1.31 7.5 74 19.5
1.5 1.58 8.5 98 13.3
2.5 0.26 2.04 10.0 145 7.98
0.75 1.13 7.5 75 26.0
3 1 0.21 1.31 7.5 87 19.5
1.5 1.58 9.0 121 13.3
2.5 0.26 2.04 10.5 180 7.98
0.75 1.13 8.0 90 26.0
4 1 0.21 1.31 8.5 108 19.5
1.5 1.58 10.0 150 13.3
2.5 0.26 2.04 11.5 219 7.98
0.75 1.13 9.0 111 26.0
5 1 0.21 1.31 9.5 129 19.5
1.5 1.58 11.0 182 13.3
2.5 0.26 2.04 13.0 266 7.98
Conductor Nominal Nominal Overall Maximum
Nominal Maximum Diameter Thickness Thickness diameter Weight Conductor
of ResistanceCross- Diameter of of
section of wire Conductor Insulation
of of
(approx.) (approx.)
Sheath cable cable at 20°C
(approx.)
mm² mm mm mm mm mm kg/km
area (approx.)
0.6 0.8
0.26 0.7 0.8
Ω/km
0.6 0.8
0.26 0.7 0.9
0.8 1.0
0.21 0.6 0.8
0.6 0.9
0.26 0.7 1.0
0.8 1.1
0.21 0.6 0.8
0.26 0.7 1.1
0.8 1.1
0.21 0.6 0.9
0.21
Page - 10
0.8 1.2
0.80.6
0.6 0.9

Unarmoured Cables
(to IEC 60228 class 5) Uo/U - 450/750 V
Filler : Suitable material Maximum 70°C
Colour Ident. : Insulation - Red,Black
Sheath - Black
TWO CORES
1.5 1.58 1.8 10.5 126 13.3
2.5 0.26 2.04 1.8 12.0 166 7.98
4 0.31 2.59 1.8 14.0 230 4.95
6 0.31 3.46 1.8 15.5 297 3.30
10 0.41 4.62 1.8 18.0 422 1.91
16 0.41 5.66 1.8 20.0 562 1.21
25 0.41 7.06 1.8 23.5 809 0.780
35 0.41 8.43 1.8 26.0 1061 0.554
50 0.41 10.07 1.8 30.5 1451 0.386
70 0.51 11.97 1.9 34.5 1949 0.272
95 0.51 13.73 2.0 39.0 2546 0.206
120 0.51 15.53 2.1 43.0 3160 0.161
Conductor
Maximum
Diameter
kg/km
1.6
0.26
mm mm mm
(approx.) (approx.)
of
Insulation Sheath
Thickness
area (approx.)(approx.)
Nominal Nominal
Conductor
Ω/km
1.4
1.4
1.6
MaximumOverall
at 20°C
diameter
Resistance
cable
of
WeightThickness
of
mm² mmmm
section Conductor
Nominal Diameter
Cross- of
of wire
of
cable
0.7
0.8
1.0
1.0
1.0
1.0
1.2
1.2
Page - 11

Unarmoured Cables
(to IEC 60228 class 5) Uo/U - 450/750 V
Colour Ident. : Insulation - Red,Yellow , Blue
Sheath - Black
THREE CORES
1.5 1.58 1.8 11.0 153 13.3
2.5 0.26 2.04 1.8 12.5 204 7.98
4 0.31 2.59 1.8 14.5 287 4.95
6 0.31 3.46 1.8 16.5 380 3.30
10 0.41 4.62 1.8 19.0 552 1.91
16 0.41 5.66 1.8 21.0 744 1.21
25 0.41 7.06 1.8 25.0 1085 0.780
35 0.41 8.43 1.8 28.0 1443 0.554
50 0.41 10.07 1.8 32.5 1986 0.386
70 0.51 11.97 2.0 37.0 2702 0.272
95 0.51 13.73 2.1 42.0 3542 0.206
120 0.51 15.53 2.2 46.0 4408 0.161
(approx.)area (approx.) (approx.) (approx.)
at 20°Csection of wire Conductor Insulation Sheath cable cable
of ResistanceofCross- Diameter of of of
Maximum Diameter Thickness Thickness diameter Weight
Maximum
ConductorNominal
1.0
1.0
1.0
1.2
Overall
Ω/km
0.26
0.8
1.0
0.7
1.6
1.2
1.4
1.4
1.6
Page - 12

Unarmoured Cables
(to IEC 60228 class 5) Uo/U - 450/750 V
Colour Ident. : Insulation - Red,Yellow , Blue , Black
Sheath - Black
FOUR CORES
1.5 1.58 1.8 12.0 181 13.3
2.5 0.26 2.04 1.8 13.5 247 7.98
4 0.31 2.59 1.8 16.0 353 4.95
6 0.31 3.46 1.8 18.0 471 3.30
10 0.41 4.62 1.8 20.5 696 1.91
16 0.41 5.66 1.8 23.5 942 1.21
25 0.41 7.06 1.8 27.5 1390 0.780
35 0.41 8.43 1.8 31.0 1856 0.554
50 0.41 10.07 1.9 36.0 2579 0.386
70 0.51 11.97 2.1 41.0 3517 0.272
95 0.51 13.73 2.2 47.0 4610 0.206
120 0.51 15.53 2.4 51.5 5769 0.161
Maximum
Cross- Diameter of of of of of Resistance
cable at 20°Csection of wire Conductor Insulation
area (approx.) (approx.) (approx.)
Sheath cable
1.0
1.2
(approx.)
mm² mm mm mm mm mm kg/km Ω/km
0.26
0.8
1.0
0.7
1.2
1.4
1.0
1.0
1.4
1.6
1.6
Page - 13

Unarmoured Cables
(to IEC 60228 class 5) Uo/U - 450/750 V
Colour Ident. : Insulation - Black with numbering code
Sheath - Black
FIVE CORES
1.5 1.58 1.8 13.0 215 13.3
2.5 0.26 2.04 1.8 14.5 290 7.98
4 0.31 2.59 1.8 17.0 425 4.95
6 0.31 3.46 1.8 19.5 567 3.30
10 0.41 4.62 1.8 22.5 847 1.91
16 0.41 5.66 1.8 25.5 1154 1.21
25 0.41 7.06 1.8 30.5 1703 0.780
35 0.41 8.43 1.9 34.0 2297 0.554
50 0.41 10.07 2.0 40.0 3200 0.386
Maximum
of ResistanceCross- Diameter of of
of of
(approx.) (approx.)
(approx.)
area (approx.)
Ω/km
0.26
1.0
1.0
1.2
0.7
Page - 14
0.8
1.0
1.2
1.4
1.0

Unarmoured Cables
(to IEC 60228 class 5) Uo/U - 450/750 V
Sheath - Black
CONTROL CABLE : 1.5 mm²
6 1.58 1.8 14.0 240 13.3
7 0.26 1.58 1.8 14.0 258 13.3
8 0.26 1.58 1.8 15.0 295 13.3
9 0.26 1.58 1.8 16.0 326 13.3
10 0.26 1.58 1.8 17.0 360 13.3
12 0.26 1.58 1.8 17.5 408 13.3
14 0.26 1.58 1.8 18.5 458 13.3
15 0.26 1.58 1.8 19.0 489 13.3
16 0.26 1.58 1.8 19.0 514 13.3
18 0.26 1.58 1.8 20.0 562 13.3
19 0.26 1.58 1.8 20.0 580 13.3
20 0.26 1.58 1.8 21.0 614 13.3
24 0.26 1.58 1.8 23.5 725 13.3
30 0.26 1.58 1.8 24.5 868 13.3
32 0.26 1.58 1.8 25.0 921 13.3
37 0.26 1.58 1.8 26.5 1034 13.3
40 0.26 1.58 1.8 27.5 1110 13.3
50 0.26 1.58 1.9 30.5 1374 13.3
52 0.26 1.58 1.9 31.5 1424 13.3
60 0.26 1.58 1.9 33.0 1617 13.3
61 0.26 1.58 1.9 33.0 1635 13.3
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.7
Conductor
0.7
0.7
0.7
0.7
Maximum Diameter
Ω/km
0.26 0.7
0.7
0.7
0.7
mm mm mm mm mm kg/km
cable at 20°C
core (approx.) (approx.) (approx.) (approx.)
of of wire Conductor Insulation Sheath cable
Weight Conductor
No Diameter of of of of of Resistance
Thickness
Nominal Nominal Overall Maximum
Thickness diameter
Page - 15
0.7
0.7
0.7
0.7

Unarmoured Cables
(to IEC 60228 class 5) Uo/U - 450/750 V
Sheath - Black
CONTROL CABLE : 2.5 mm²
6 2.04 1.8 15.5 331 7.98
7 0.26 2.04 1.8 15.5 358 7.98
8 0.26 2.04 1.8 17.0 406 7.98
9 0.26 2.04 1.8 18.0 455 7.98
10 0.26 2.04 1.8 19.5 505 7.98
12 0.26 2.04 1.8 20.0 577 7.98
14 0.26 2.04 1.8 21.0 654 7.98
15 0.26 2.04 1.8 21.5 697 7.98
16 0.26 2.04 1.8 22.0 732 7.98
18 0.26 2.04 1.8 23.0 806 7.98
19 0.26 2.04 1.8 23.0 834 7.98
20 0.26 2.04 1.8 24.0 887 7.98
24 0.26 2.04 1.8 27.0 1049 7.98
30 0.26 2.04 1.8 28.5 1266 7.98
32 0.26 2.04 1.8 29.0 1342 7.98
37 0.26 2.04 1.9 31.0 1527 7.98
40 0.26 2.04 1.9 32.0 1644 7.98
50 0.26 2.04 2.0 35.5 2037 7.98
52 0.26 2.04 2.0 36.5 2115 7.98
60 0.26 2.04 2.1 39.0 2423 7.98
61 0.26 2.04 2.1 39.0 2450 7.98
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
Ω/km
0.26 0.8
0.8
0.8
0.8
mm mm mm mm mm kg/km
cable at 20°C
core (approx.) (approx.) (approx.) (approx.)
of of wire Conductor Insulation Sheath cable
Conductor
No Diameter of of of of of Resistance
Maximum Diameter Thickness Thickness diameter Weight
Page - 16
0.8
0.8
0.8
0.8
0.8
0.8

Constructions :
Conductor (Annealed Copper)
Insulation (PVC Compound)
up to request)
Binding tape (Manufacturer's option)
Outer sheath (PVC Compound)
Page - 17
Unarmoured Cables
PVC/PVC (acc. to IEC 60502-1)
Filler (Polyprophylene yarn,or extruded filler
1 1
22
3
4
5 5
1
2
3
4
5
* Available product in accordance to : SPLN, ICEA/NEMA,
AS standard or other requirement.
* Flame retardant test acc to IEC 60332-3 Cat. A, B or C.
* Anti termite performance.
* Polyethylene / Low smoke Halogen Free sheathed

PVC/PVC (IEC 60502-1)
(to IEC 60228 class 1 or 2)
Insulation : PVC Compound type A Operating Temperature
: Insulation - Black
Sheath - Black
SINGLE CORE
Nominal No./ Diameter Thickness Thickness diameter Weight Conductor
section of wire Conductor Insulation Sheath cable cable at 20°C
area (approx.) (approx.) (approx.) (approx.)
mm² No./mm mm mm mm mm kg/km
1.5 1 / 1.38 1.38 0.8 1.4 6.0 52 12.1
1.5 7 / 0.52 1.56 0.8 1.4 6.0 55 12.1
2.5 1 / 1.78 1.78 0.8 1.4 6.5 65 7.41
2.5 7 / 0.67 2.01 0.8 1.4 6.5 70 7.41
4 1 / 2.26 2.26 1.0 1.4 7.5 90 4.61
4 7 / 0.85 2.55 1.0 1.4 7.5 95 4.61
6 7 / 1.04 3.12 1.0 1.4 8.0 120 3.08
10 7 / 1.35 4.05 1.0 1.4 9.0 170 1.83
16 7 / 1.70 5.10 1.0 1.4 10.0 235 1.15
25 7 / 2.13 6.39 1.2 1.4 12.0 345 0.727
35 7 / 2.52 7.56 1.2 1.4 13.0 450 0.524
50 19 / 1.83 9.15 1.4 1.4 15.0 620 0.387
70 19 / 2.17 10.85 1.4 1.4 16.5 825 0.268
95 19 / 2.52 12.60 1.6 1.5 19.0 1105 0.193
120 37 / 2.03 14.21 1.6 1.5 21.0 1350 0.153
150 37 / 2.27 15.89 1.8 1.6 23.0 1680 0.124
185 37 / 2.52 17.64 2.0 1.7 25.5 2060 0.0991
240 61 / 2.26 20.34 2.2 1.8 28.5 2685 0.0754
300 61 / 2.52 22.68 2.4 1.9 31.5 3315 0.0601
400 61 / 2.86 25.74 2.6 2.0 35.5 4235 0.0470
500 61 / 3.20 28.80 2.8 2.1 39.0 5250 0.0366
630 91 / 2.96 32.56 2.8 2.2 43.0 6560 0.0283
800 127 / 2.85 37.05 2.8 2.3 48.0 8345 0.0221
1000 127 / 3.20 41.60 3.0 2.5 53.0 10455 0.0176
Page - 18
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

: Insulation - Red,Black
Sheath - Black
TWO CORES
section area of wire Conductor Insulation Sheath cable cable at 20°C
(approx.) (approx.) (approx.) (approx.)
1.5 1 / 1.38 1.38 0.8 1.8 10.5 125 12.1
1.5 7 / 0.52 1.56 0.8 1.8 10.5 130 12.1
2.5 1 / 1.78 1.78 0.8 1.8 11.0 155 7.41
2.5 7 / 0.67 2.01 0.8 1.8 11.5 165 7.41
4 1 / 2.26 2.26 1.0 1.8 13.0 215 4.61
4 7 / 0.85 2.55 1.0 1.8 13.5 225 4.61
6 7 / 1.04 3.12 1.0 1.8 14.5 280 3.08
10 7 / 1.35 4.05 1.0 1.8 16.5 390 1.83
16 7 / 1.70 5.10 1.0 1.8 18.5 535 1.15
25 7 / 2.13 6.39 1.2 1.8 22.0 785 0.727
35 7 / 2.52 7.56 1.2 1.8 24.5 1020 0.524
50 19 / 1.83 9.15 1.4 1.8 28.5 1395 0.387
70 19 / 2.17 10.85 1.4 1.9 32.0 1865 0.268
95 19 / 2.52 12.60 1.6 2.0 36.5 2490 0.193
120 37 / 2.03 14.21 1.6 2.1 40.0 3045 0.153
150 37 / 2.27 15.89 1.8 2.2 44.5 3775 0.124
185 37 / 2.52 17.64 2.0 2.4 49.0 4635 0.0991
240 61 / 2.26 20.34 2.2 2.6 55.5 6045 0.0754
300 61 / 2.52 22.68 2.4 2.7 61.5 7435 0.0601
Page - 19
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

: Insulation - Red,Yellow , Blue
Sheath - Black
THREE CORES
1.5 1 / 1.38 1.38 0.8 1.8 11.0 150 12.1
1.5 7 / 0.52 1.56 0.8 1.8 11.0 160 12.1
2.5 1 / 1.78 1.78 0.8 1.8 11.5 190 7.41
2.5 7 / 0.67 2.01 0.8 1.8 12.0 200 7.41
4 1 / 2.26 2.26 1.0 1.8 13.5 270 4.61
4 7 / 0.85 2.55 1.0 1.8 14.0 285 4.61
6 7 / 1.04 3.12 1.0 1.8 15.5 360 3.08
10 7 / 1.35 4.05 1.0 1.8 17.5 515 1.83
16 7 / 1.70 5.10 1.0 1.8 19.5 720 1.15
25 7 / 2.13 6.39 1.2 1.8 23.5 1065 0.727
35 7 / 2.52 7.56 1.2 1.8 26.0 1400 0.524
50 6.8 1.4 1.8 24.5 1730 0.387
70 8.2 1.4 2.0 28.0 2405 0.268
95 Three- 9.7 1.6 2.1 32.5 3305 0.193
120 Segmental 10.9 1.6 2.2 35.0 3950 0.153
150 Stranded 11.9 1.8 2.3 38.5 4835 0.124
185 13.6 2.0 2.5 43.0 6035 0.0991
240 15.8 2.2 2.7 49.0 8050 0.0754
300 17.5 2.4 2.9 53.5 10010 0.0601
Page - 20
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

: Insulation - Red,Yellow , Blue , Black
Sheath - Black
FOUR CORES
1.5 1 / 1.38 1.38 0.8 1.8 11.5 180 12.1
1.5 7 / 0.52 1.56 0.8 1.8 12.0 190 12.1
2.5 1 / 1.78 1.78 0.8 1.8 12.5 235 7.41
2.5 7 / 0.67 2.01 0.8 1.8 13.0 245 7.41
4 1 / 2.26 2.26 1.0 1.8 15.0 335 4.61
4 7 / 0.85 2.55 1.0 1.8 15.5 355 4.61
6 7 / 1.04 3.12 1.0 1.8 16.5 450 3.08
10 7 / 1.35 4.05 1.0 1.8 19.0 650 1.83
16 7 / 1.70 5.10 1.0 1.8 21.5 915 1.15
25 7 / 2.13 6.39 1.2 1.8 25.5 1370 0.727
35 7 / 2.52 7.56 1.2 1.8 28.5 1805 0.524
50 8.1 1.4 1.9 28.0 2245 0.387
70 9.7 1.4 2.1 32.0 3125 0.268
95 Four- 11.4 1.6 2.2 37.0 4295 0.193
120 Segmental 12.9 1.6 2.4 40.5 5165 0.153
150 Stranded 14.2 1.8 2.5 44.5 6335 0.124
185 16.0 2.0 2.7 49.5 7895 0.0991
240 18.2 2.2 2.9 55.5 10510 0.0754
300 20.6 2.4 3.1 62.0 13110 0.0601
Page - 21
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

: Insulation - Black with numbering code
Sheath - Black
FIVE CORES
1.5 1 / 1.38 1.38 0.8 1.8 12.5 215 12.1
1.5 7 / 0.52 1.56 0.8 1.8 13.0 225 12.1
2.5 1 / 1.78 1.78 0.8 1.8 13.5 275 7.41
2.5 7 / 0.67 2.01 0.8 1.8 14.0 290 7.41
4 1 / 2.26 2.26 1.0 1.8 16.0 400 4.61
4 7 / 0.85 2.55 1.0 1.8 17.0 425 4.61
6 7 / 1.04 3.12 1.0 1.8 18.0 545 3.08
10 7 / 1.35 4.05 1.0 1.8 21.0 790 1.83
16 7 / 1.70 5.10 1.0 1.8 23.5 1125 1.15
25 7 / 2.13 6.39 1.2 1.8 28.0 1680 0.727
35 7 / 2.52 7.56 1.2 1.9 31.5 2245 0.524
50 19 / 1.83 9.15 1.4 2.1 37.5 3130 0.387
Page - 22
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

(to IEC 60228 class 1)
Filler (if necessary): Suitable material Maximum 70°C
Sheath - Black
CONTROL CABLE : 1.5 mm² (Solid conductor)
No Nominal No./ Diameter Thickness Thickness diameter Weight Conductor
of Cross-section Diameter of of of of of Resistance
core area of wire Conductor Insulation Sheath cable cable at 20°C
6 1.5 1 / 1.38 1.38 0.8 1.8 13.5 240 12.1
7 1.5 1 / 1.38 1.38 0.8 1.8 13.5 260 12.1
8 1.5 1 / 1.38 1.38 0.8 1.8 14.5 290 12.1
9 1.5 1 / 1.38 1.38 0.8 1.8 15.5 325 12.1
10 1.5 1 / 1.38 1.38 0.8 1.8 16.5 360 12.1
12 1.5 1 / 1.38 1.38 0.8 1.8 17.0 410 12.1
14 1.5 1 / 1.38 1.38 0.8 1.8 18.0 460 12.1
15 1.5 1 / 1.38 1.38 0.8 1.8 18.5 490 12.1
16 1.5 1 / 1.38 1.38 0.8 1.8 19.0 515 12.1
18 1.5 1 / 1.38 1.38 0.8 1.8 20.0 565 12.1
19 1.5 1 / 1.38 1.38 0.8 1.8 20.0 585 12.1
20 1.5 1 / 1.38 1.38 0.8 1.8 20.5 615 12.1
21 1.5 1 / 1.38 1.38 0.8 1.8 21.5 650 12.1
24 1.5 1 / 1.38 1.38 0.8 1.8 23.0 735 12.1
30 1.5 1 / 1.38 1.38 0.8 1.8 24.5 880 12.1
32 1.5 1 / 1.38 1.38 0.8 1.8 25.0 930 12.1
37 1.5 1 / 1.38 1.38 0.8 1.8 26.5 1050 12.1
40 1.5 1 / 1.38 1.38 0.8 1.8 27.5 1130 12.1
50 1.5 1 / 1.38 1.38 0.8 1.9 30.0 1395 12.1
52 1.5 1 / 1.38 1.38 0.8 1.9 31.0 1450 12.1
60 1.5 1 / 1.38 1.38 0.8 2.0 33.0 1665 12.1
61 1.5 1 / 1.38 1.38 0.8 2.0 33.0 1685 12.1
Page - 23
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

Sheath - Black
CONTROL CABLE : 1.5 mm² (Stranded conductor)
6 1.5 7 / 0.52 1.56 0.8 1.8 14.0 255 12.1
7 1.5 7 / 0.52 1.56 0.8 1.8 14.0 275 12.1
8 1.5 7 / 0.52 1.56 0.8 1.8 15.0 310 12.1
9 1.5 7 / 0.52 1.56 0.8 1.8 16.0 345 12.1
10 1.5 7 / 0.52 1.56 0.8 1.8 17.5 380 12.1
12 1.5 7 / 0.52 1.56 0.8 1.8 18.0 430 12.1
14 1.5 7 / 0.52 1.56 0.8 1.8 19.0 490 12.1
15 1.5 7 / 0.52 1.56 0.8 1.8 19.5 515 12.1
16 1.5 7 / 0.52 1.56 0.8 1.8 20.0 545 12.1
18 1.5 7 / 0.52 1.56 0.8 1.8 21.0 600 12.1
19 1.5 7 / 0.52 1.56 0.8 1.8 21.0 620 12.1
20 1.5 7 / 0.52 1.56 0.8 1.8 21.5 650 12.1
21 1.5 7 / 0.52 1.56 0.8 1.8 22.5 685 12.1
24 1.5 7 / 0.52 1.56 0.8 1.8 24.5 775 12.1
30 1.5 7 / 0.52 1.56 0.8 1.8 25.5 930 12.1
32 1.5 7 / 0.52 1.56 0.8 1.8 26.0 980 12.1
37 1.5 7 / 0.52 1.56 0.8 1.8 27.5 1110 12.1
40 1.5 7 / 0.52 1.56 0.8 1.8 28.5 1195 12.1
50 1.5 7 / 0.52 1.56 0.8 1.9 32.0 1475 12.1
52 1.5 7 / 0.52 1.56 0.8 1.9 32.5 1530 12.1
60 1.5 7 / 0.52 1.56 0.8 2.0 35.0 1760 12.1
61 1.5 7 / 0.52 1.56 0.8 2.0 35.0 1780 12.1
Page - 24
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

Sheath - Black
6 2.5 1 / 1.78 1.78 0.8 1.8 14.5 315 7.41
7 2.5 1 / 1.78 1.78 0.8 1.8 14.5 340 7.41
8 2.5 1 / 1.78 1.78 0.8 1.8 16.0 390 7.41
9 2.5 1 / 1.78 1.78 0.8 1.8 17.0 435 7.41
10 2.5 1 / 1.78 1.78 0.8 1.8 18.5 480 7.41
12 2.5 1 / 1.78 1.78 0.8 1.8 19.0 550 7.41
14 2.5 1 / 1.78 1.78 0.8 1.8 20.0 625 7.41
15 2.5 1 / 1.78 1.78 0.8 1.8 20.5 665 7.41
16 2.5 1 / 1.78 1.78 0.8 1.8 21.0 705 7.41
18 2.5 1 / 1.78 1.78 0.8 1.8 22.0 775 7.41
19 2.5 1 / 1.78 1.78 0.8 1.8 22.0 800 7.41
20 2.5 1 / 1.78 1.78 0.8 1.8 22.5 845 7.41
21 2.5 1 / 1.78 1.78 0.8 1.8 23.5 890 7.41
24 2.5 1 / 1.78 1.78 0.8 1.8 25.5 1010 7.41
30 2.5 1 / 1.78 1.78 0.8 1.8 27.0 1220 7.41
32 2.5 1 / 1.78 1.78 0.8 1.8 27.5 1290 7.41
37 2.5 1 / 1.78 1.78 0.8 1.9 29.5 1475 7.41
40 2.5 1 / 1.78 1.78 0.8 1.9 30.5 1590 7.41
50 2.5 1 / 1.78 1.78 0.8 2.0 33.5 1970 7.41
52 2.5 1 / 1.78 1.78 0.8 2.0 34.5 2045 7.41
60 2.5 1 / 1.78 1.78 0.8 2.1 37.0 2345 7.41
61 2.5 1 / 1.78 1.78 0.8 2.1 37.0 2380 7.41
Page - 25
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

Sheath - Black
6 2.5 7 / 0.67 2.01 0.8 1.8 15.5 330 7.41
7 2.5 7 / 0.67 2.01 0.8 1.8 15.5 360 7.41
8 2.5 7 / 0.67 2.01 0.8 1.8 16.5 410 7.41
9 2.5 7 / 0.67 2.01 0.8 1.8 17.5 460 7.41
10 2.5 7 / 0.67 2.01 0.8 1.8 19.0 505 7.41
12 2.5 7 / 0.67 2.01 0.8 1.8 19.5 580 7.41
14 2.5 7 / 0.67 2.01 0.8 1.8 20.5 660 7.41
15 2.5 7 / 0.67 2.01 0.8 1.8 21.0 700 7.41
16 2.5 7 / 0.67 2.01 0.8 1.8 22.0 740 7.41
18 2.5 7 / 0.67 2.01 0.8 1.8 23.0 815 7.41
19 2.5 7 / 0.67 2.01 0.8 1.8 23.0 845 7.41
20 2.5 7 / 0.67 2.01 0.8 1.8 23.5 890 7.41
21 2.5 7 / 0.67 2.01 0.8 1.8 25.0 930 7.41
24 2.5 7 / 0.67 2.01 0.8 1.8 26.5 1065 7.41
30 2.5 7 / 0.67 2.01 0.8 1.8 28.5 1285 7.41
32 2.5 7 / 0.67 2.01 0.8 1.8 29.0 1360 7.41
37 2.5 7 / 0.67 2.01 0.8 1.9 30.5 1555 7.41
40 2.5 7 / 0.67 2.01 0.8 1.9 32.0 1675 7.41
50 2.5 7 / 0.67 2.01 0.8 2.0 35.5 2075 7.41
52 2.5 7 / 0.67 2.01 0.8 2.0 36.5 2155 7.41
60 2.5 7 / 0.67 2.01 0.8 2.1 38.5 2475 7.41
61 2.5 7 / 0.67 2.01 0.8 2.1 38.5 2510 7.41
Page - 26
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

Sheath - Black
CONTROL CABLE : 4 mm² (Solid conductor)
6 4 1 / 2.26 2.26 1.0 1.8 17.5 460 4.61
7 4 1 / 2.26 2.26 1.0 1.8 17.5 500 4.61
8 4 1 / 2.26 2.26 1.0 1.8 19.0 570 4.61
9 4 1 / 2.26 2.26 1.0 1.8 20.0 640 4.61
10 4 1 / 2.26 2.26 1.0 1.8 22.0 710 4.61
12 4 1 / 2.26 2.26 1.0 1.8 22.5 820 4.61
14 4 1 / 2.26 2.26 1.0 1.8 24.0 940 4.61
15 4 1 / 2.26 2.26 1.0 1.8 24.5 995 4.61
16 4 1 / 2.26 2.26 1.0 1.8 25.0 1060 4.61
18 4 1 / 2.26 2.26 1.0 1.8 26.5 1165 4.61
19 4 1 / 2.26 2.26 1.0 1.8 26.5 1210 4.61
20 4 1 / 2.26 2.26 1.0 1.8 27.0 1280 4.61
21 4 1 / 2.26 2.26 1.0 1.8 28.5 1340 4.61
24 4 1 / 2.26 2.26 1.0 1.9 31.0 1540 4.61
30 4 1 / 2.26 2.26 1.0 2.0 33.0 1890 4.61
32 4 1 / 2.26 2.26 1.0 2.0 34.0 2000 4.61
37 4 1 / 2.26 2.26 1.0 2.1 36.0 2285 4.61
40 4 1 / 2.26 2.26 1.0 2.1 37.5 2465 4.61
50 4 1 / 2.26 2.26 1.0 2.3 41.5 3070 4.61
52 4 1 / 2.26 2.26 1.0 2.3 43.0 3190 4.61
60 4 1 / 2.26 2.26 1.0 2.4 45.5 3660 4.61
61 4 1 / 2.26 2.26 1.0 2.4 45.5 3715 4.61
Page - 27
Unarmoured Cables
(to IEC 60228 clas 1) Uo/U - 600/1000 V
Colour Ident.
W/km

Sheath - Black
CONTROL CABLE : 4 mm² (Stranded conductor)
6 4 7 / 0.85 2.55 1.0 1.8 18.5 485 4.61
7 4 7 / 0.85 2.55 1.0 1.8 18.5 535 4.61
8 4 7 / 0.85 2.55 1.0 1.8 20.0 605 4.61
9 4 7 / 0.85 2.55 1.0 1.8 21.0 675 4.61
10 4 7 / 0.85 2.55 1.0 1.8 23.0 750 4.61
12 4 7 / 0.85 2.55 1.0 1.8 24.0 865 4.61
14 4 7 / 0.85 2.55 1.0 1.8 25.0 990 4.61
15 4 7 / 0.85 2.55 1.0 1.8 25.5 1050 4.61
16 4 7 / 0.85 2.55 1.0 1.8 26.5 1115 4.61
18 4 7 / 0.85 2.55 1.0 1.8 28.0 1230 4.61
19 4 7 / 0.85 2.55 1.0 1.8 28.0 1280 4.61
20 4 7 / 0.85 2.55 1.0 1.8 29.0 1350 4.61
21 4 7 / 0.85 2.55 1.0 1.8 30.5 1420 4.61
24 4 7 / 0.85 2.55 1.0 1.9 33.0 1625 4.61
30 4 7 / 0.85 2.55 1.0 2.0 35.0 1990 4.61
32 4 7 / 0.85 2.55 1.0 2.0 35.5 2110 4.61
37 4 7 / 0.85 2.55 1.0 2.1 38.0 2410 4.61
40 4 7 / 0.85 2.55 1.0 2.1 39.5 2600 4.61
50 4 7 / 0.85 2.55 1.0 2.3 44.0 3240 4.61
52 4 7 / 0.85 2.55 1.0 2.3 45.5 3365 4.61
60 4 7 / 0.85 2.55 1.0 2.4 48.5 3860 4.61
61 4 7 / 0.85 2.55 1.0 2.4 48.5 3915 4.61
Page - 28
Unarmoured Cables
(to IEC 60228 clas 2) Uo/U - 600/1000 V
Colour Ident.
W/km

Unarmoured Cables
Constructions :
up to request)
Copper Tape screen
600/1000 V PVC INSULATED, METALLIC SCREENED AND PVC SHEATHED CABLES
PVC/PVC-S (IEC 60502-1)
Page - 29
1
2
3
4
5
6
7
1
2
3
4
5
7
6
* Copper wire screen.

Unarmoured Cables
Metallic screen : Annealed Copper tape
Sheath - Black
TWO CORES
1.5 1 / 1.38 1.38 0.8 0.1 1.8 10.5 145 12.1
1.5 7 / 0.52 1.56 0.8 0.1 1.8 11.0 147 12.1
2.5 1 / 1.78 1.78 0.8 0.1 1.8 11.5 176 7.41
2.5 7 / 0.67 2.01 0.8 0.1 1.8 11.5 179 7.41
4 1 / 2.26 2.26 1.0 0.1 1.8 13.0 240 4.61
4 7 / 0.85 2.55 1.0 0.1 1.8 13.5 246 4.61
6 7 / 1.04 3.12 1.0 0.1 1.8 14.5 304 3.08
10 7 / 1.35 4.05 1.0 0.1 1.8 16.5 418 1.83
16 7 / 1.70 5.10 1.0 0.1 1.8 18.5 568 1.15
25 7 / 2.13 6.39 1.2 0.1 1.8 22.0 822 0.727
35 7 / 2.52 7.56 1.2 0.1 1.8 24.5 1064 0.524
50 19 / 1.83 9.15 1.4 0.1 1.8 28.5 1450 0.387
70 19 / 2.17 10.85 1.4 0.1 1.9 32.0 1910 0.268
95 19 / 2.52 12.60 1.6 0.1 2.0 36.5 2542 0.193
120 37 / 2.03 14.21 1.6 0.1 2.1 40.0 3103 0.153
150 37 / 2.27 15.89 1.8 0.1 2.2 44.5 3840 0.124
185 37 / 2.52 17.64 2.0 0.1 2.4 49.0 4679 0.0991
240 61 / 2.26 20.34 2.2 0.1 2.6 55.5 6096 0.0754
300 61 / 2.52 22.68 2.4 0.1 2.7 61.5 7523 0.0601
Thickness
Nominal
Cross- of
Thickness
Overall
diameter
of
Nominal
(approx.)
Diameter
of
Nominal
Thickness
of
Nominal
No./
Diameter
at 20°Ccable
mm
Conductor
mm² No./mm
Conductorsection area of wire
(approx.)
Weight
of
Maximum
Conductor
Resistance
cable
mm mm
Sheath
mm
Insulation
(approx.)
Ω/kmkg/km
(approx.) (approx.)
of
Copper tape
mm
Page - 30

Unarmoured Cables
Sheath - Black
THREE CORES
1.5 1 / 1.38 1.38 0.8 0.1 1.8 11.0 173 12.1
1.5 7 / 0.52 1.56 0.8 0.1 1.8 11.5 174 12.1
2.5 1 / 1.78 1.78 0.8 0.1 1.8 12.0 214 7.41
2.5 7 / 0.67 2.01 0.8 0.1 1.8 12.5 220 7.41
4 1 / 2.26 2.26 1.0 0.1 1.8 14.0 298 4.61
4 7 / 0.85 2.55 1.0 0.1 1.8 14.5 306 4.61
6 7 / 1.04 3.12 1.0 0.1 1.8 15.0 385 3.08
10 7 / 1.35 4.05 1.0 0.1 1.8 17.5 542 1.83
16 7 / 1.70 5.10 1.0 0.1 1.8 20.0 753 1.15
25 7 / 2.13 6.39 1.2 0.1 1.8 23.5 1108 0.727
35 7 / 2.52 7.56 1.2 0.1 1.8 26.0 1445 0.524
50 6.8 1.4 0.1 1.9 25.0 1774 0.387
70 8.2 1.4 0.1 2.0 28.0 2439 0.268
95 9.7 1.6 0.1 2.1 32.5 3348 0.193
120 10.9 1.6 0.1 2.2 35.0 3994 0.153
150 11.9 1.8 0.1 2.4 38.5 4885 0.124
185 13.6 2.0 0.1 2.5 43.0 6076 0.0991
240 15.8 2.2 0.1 2.7 48.5 8095 0.0754
300 17.5 2.4 0.1 2.9 53.5 10060 0.0601
Maximum
of of
Thickness diameter Weight Conductor
at 20°Csection area of wire Conductor Insulation
of of ResistanceCross- Diameter
Segmental
Stranded
kg/kmmm mmmm² No./mm mm mm
Ω/km
Three-
(approx.) (approx.) (approx.)(approx.)
Sheath cable cable
of
Thickness
of
Copper tape
mm
(approx.)
Nominal
Page - 31

Unarmoured Cables
Sheath - Black
FOUR CORES
1.5 1 / 1.38 1.38 0.8 0.1 1.8 12.0 202 12.1
1.5 7 / 0.52 1.56 0.8 0.1 1.8 12.5 206 12.1
2.5 1 / 1.78 1.78 0.8 0.1 1.8 13.0 260 7.41
2.5 7 / 0.67 2.01 0.8 0.1 1.8 13.5 265 7.41
4 1 / 2.26 2.26 1.0 0.1 1.8 15.0 366 4.61
4 7 / 0.85 2.55 1.0 0.1 1.8 15.5 378 4.61
6 7 / 1.04 3.12 1.0 0.1 1.8 17.0 482 3.08
10 7 / 1.35 4.05 1.0 0.1 1.8 19.5 682 1.83
16 7 / 1.70 5.10 1.0 0.1 1.8 21.5 957 1.15
25 7 / 2.13 6.39 1.2 0.1 1.8 26.0 1412 0.727
35 7 / 2.52 7.56 1.2 0.1 1.8 28.5 1856 0.524
50 8.1 1.4 0.1 2.0 28.5 2302 0.387
70 9.7 1.4 0.1 2.1 32.0 3177 0.268
95 11.4 1.6 0.1 2.2 37.0 4360 0.193
120 12.9 1.6 0.1 2.4 40.5 5217 0.153
150 14.2 1.8 0.1 2.5 44.5 6394 0.124
185 16.0 2.0 0.1 2.7 49.5 7962 0.0991
240 18.2 2.2 0.1 2.9 55.5 10591 0.0754
300 20.6 2.4 0.1 3.1 61.5 13179 0.0601
Nominal
Stranded
Segmental
Four-
No./ Diameter Thickness
ResistanceCross- Diameter of of
Thickness diameter Weight ConductorNominal
of wire Conductor Insulation
of of of
Ω/kmmm² No./mm mm mm
Sheath cable cable at 20°Csection area
mm mm
kg/km
Thickness
of
Copper tape
mm
(approx.)
Page - 32

Unarmoured Cables
Sheath - Black
FIVE CORES
1.5 1 / 1.38 1.38 0.8 0.1 1.8 12.5 238 12.1
1.5 7 / 0.52 1.56 0.8 0.1 1.8 13.5 244 12.1
2.5 1 / 1.78 1.78 0.8 0.1 1.8 14.0 302 7.41
2.5 7 / 0.67 2.01 0.8 0.1 1.8 14.5 312 7.41
4 1 / 2.26 2.26 1.0 0.1 1.8 16.5 434 4.61
4 7 / 0.85 2.55 1.0 0.1 1.8 17.0 450 4.61
6 7 / 1.04 3.12 1.0 0.1 1.8 18.5 578 3.08
10 7 / 1.35 4.05 1.0 0.1 1.8 21.0 827 1.83
16 7 / 1.70 5.10 1.0 0.1 1.8 24.0 1166 1.15
25 7 / 2.13 6.39 1.2 0.1 1.8 28.5 1730 0.727
35 7 / 2.52 7.56 1.2 0.1 1.9 31.5 2286 0.524
50 19 / 1.83 9.15 1.4 0.1 2.1 37.5 3057 0.387
Conductor Nominal Nominal OverallNominal
Thickness diameter Weight ConductorNominal No./ Diameter Thickness
section area of wire Conductor Insulation
of ofCross- Diameter of of
mm mm kg/km Ω/kmmm² No./mm mm mm
(approx.) (approx.)
(approx.) (approx.)
Maximum
of Resistance
mm
(approx.)
Page - 33
Thickness
of
Copper tape

600/1000 V PVC INSULATED, ALUMINIUM WIRE ARMOURED AND PVC SHEATHED CABLES
Constructions :
Inner Covering (PVC Compound)
600/1000 V PVC INSULATED, STEEL WIRE ARMOURED AND PVC SHEATHED CABLES
Constructions :
up to request)
Page - 34
Armoured Cables
PVC/AWA/PVC (acc. to IEC 60502-1)
Round Aluminium Wire armour
PVC/SWA/PVC (acc. to IEC 60502-1)
Galvanized Round Steel Wire armour
1
1
2
3
5
4
6
7
8
2
3
4
5
6
7
8
1
2
3
4
5
6
1
2
3
4
5
6

600/1000 V PVC INSULATED,ALUMINIUM WIRE ARMOURED AND PVC SHEATHED CABLES
PVC/AWA/PVC (IEC 60502-1)
Inner covering : PVC Compound ST1 Maximum 70°C
Armour
Sheath - Black
SINGLE CORE
Conductor Nominal Nominal Nominal Nominal Overall Maximum
Nominal No./ Diameter Thickness Thickness diameter of Thickness diameter Weight Conductor
Cross- Diameter of of of inner of of of Resistance
section of wire Conductor Insulation covering wire Sheath cable cable at 20°C
area (approx.) (approx.) (approx.) (approx.) (approx.) (approx.)
mm² No./mm mm mm mm mm mm mm kg/km
16 7 / 1.70 5.10 1.0 1.0 0.8 1.8 14.5 370 1.15
25 7 / 2.13 6.39 1.2 1.0 0.8 1.8 16.5 495 0.727
35 7 / 2.52 7.56 1.2 1.0 0.8 1.8 17.5 620 0.524
50 19 / 1.83 9.15 1.4 1.0 1.25 1.8 20.5 845 0.387
70 19 / 2.17 10.85 1.4 1.0 1.25 1.8 22.0 1075 0.268
95 19 / 2.52 12.60 1.6 1.0 1.25 1.8 24.5 1380 0.193
120 37 / 2.03 14.21 1.6 1.0 1.6 1.8 27.0 1705 0.153
150 37 / 2.27 15.89 1.8 1.0 1.6 1.8 29.0 2054 0.124
185 37 / 2.52 17.64 2.0 1.0 1.6 1.8 31.0 2450 0.0991
240 61 / 2.26 20.34 2.2 1.0 1.6 1.9 34.0 3110 0.0754
300 61 / 2.52 22.68 2.4 1.0 2.0 2.0 38.0 3865 0.0601
400 61 / 2.86 25.74 2.6 1.2 2.0 2.1 42.0 4885 0.0470
500 61 / 3.20 28.80 2.8 1.2 2.0 2.2 46.0 5965 0.0366
630 91 / 2.96 32.56 2.8 1.2 2.0 2.4 50.0 7335 0.0283
800 127 / 2.85 37.05 2.8 1.4 2.5 2.5 56.0 9410 0.0221
1000 127 / 3.20 41.60 3.0 1.4 2.5 2.7 61.0 11635 0.0176
Page - 35
Armoured Cables
Uo/U - 600/1000 V
: Aluminium Wire
Colour Ident.
Aluminium
W/km

Armoured Cables
Inner covering : PVC Compound
Armour : Galvanized Steel Wire
Sheath - Black
TWO CORES
1.5 1 / 1.38 1.38 0.8 1.0 0.8 1.8 14.0 332 12.1
1.5 7 / 0.52 1.56 0.8 1.0 0.8 1.8 14.5 347 12.1
2.5 1 / 1.78 1.78 0.8 1.0 0.8 1.8 15.0 380 7.41
2.5 7 / 0.67 2.01 0.8 1.0 0.8 1.8 15.5 395 7.41
4 1 / 2.26 2.26 1.0 1.0 0.8 1.8 16.5 473 4.61
4 7 / 0.85 2.55 1.0 1.0 0.8 1.8 17.5 494 4.61
6 7 / 1.04 3.12 1.0 1.0 1.25 1.8 19.0 667 3.08
10 7 / 1.35 4.05 1.0 1.0 1.25 1.8 21.0 837 1.83
16 7 / 1.70 5.10 1.0 1.0 1.25 1.8 23.0 1019 1.15
25 7 / 2.13 6.39 1.2 1.0 1.6 1.8 27.5 1507 0.727
35 7 / 2.52 7.56 1.2 1.0 1.6 1.8 30.0 1810 0.524
50 19 / 1.83 9.15 1.4 1.0 1.6 1.9 34.0 2318 0.387
70 19 / 2.17 10.85 1.4 1.0 2.0 2.0 38.0 3122 0.268
95 19 / 2.52 12.60 1.6 1.2 2.0 2.2 43.5 3987 0.193
120 37 / 2.03 14.21 1.6 1.2 2.0 2.3 47.0 4695 0.153
150 37 / 2.27 15.89 1.8 1.2 2.5 2.4 52.0 5994 0.124
185 37 / 2.52 17.64 2.0 1.4 2.5 2.6 57.0 7109 0.0991
240 61 / 2.26 20.34 2.2 1.4 2.5 2.8 63.5 8827 0.0754
300 61 / 2.52 22.68 2.4 1.6 2.5 2.9 70.0 10574 0.0601
(approx.)
mm mm mm kg/kmmmmmmm² No./mm mm
area (approx.) (approx.)
section of wire Conductor
Maximum
(approx.)
Insulation
Conductor
of of of
Thickness
of Inner
covering
Diameter Thickness
OverallNominal Nominal
Diameter Weightdiameter
Nominal
cable cable at 20°C
(approx.)
PVC/SWA/PVC (IEC 60502-1)
Thickness
Sheath
Conductor
Ω/km
Resistance
Nominal No./
of Galv.
Steel wire
Page - 36

Armoured Cables
Colour Ident. : Insulation - Red,Yellow, Blue
Sheath - Black
THREE CORES
1.5 1 / 1.38 1.38 0.8 1.0 0.8 1.8 14.5 371 12.1
1.5 7 / 0.52 1.56 0.8 1.0 0.8 1.8 15.0 385 12.1
2.5 1 / 1.78 1.78 0.8 1.0 0.8 1.8 15.5 429 7.41
2.5 7 / 0.67 2.01 0.8 1.0 0.8 1.8 16.0 446 7.41
4 1 / 2.26 2.26 1.0 1.0 0.8 1.8 18.0 637 4.61
4 7 / 0.85 2.55 1.0 1.0 1.25 1.8 18.5 660 4.61
6 7 / 1.04 3.12 1.0 1.0 1.25 1.8 20.0 768 3.08
10 7 / 1.35 4.05 1.0 1.0 1.25 1.8 22.0 973 1.83
16 7 / 1.70 5.10 1.0 1.0 1.25 1.8 24.0 1229 1.15
25 7 / 2.13 6.39 1.2 1.0 1.6 1.8 29.0 1819 0.727
35 7 / 2.52 7.56 1.2 1.0 1.6 1.8 31.5 2230 0.524
50 6.8 1.4 1.0 1.6 2.0 30.5 2558 0.387
70 8.2 1.4 1.2 2.0 2.1 34.5 3577 0.268
95 9.7 1.6 1.2 2.0 2.2 39.0 4653 0.193
120 10.9 1.6 1.2 2.0 2.3 42.0 5410 0.153
150 11.9 1.8 1.4 2.5 2.5 46.0 6830 0.124
185 13.6 2.0 1.4 2.5 2.7 51.0 8260 0.0991
240 15.8 2.2 1.6 2.5 2.9 57.0 10632 0.0754
300 17.5 2.4 1.6 2.5 3.1 62.0 12795 0.0601
Sector Shape
mm mm
(approx.)
mm² No./mm Ω/km
(approx.) (approx.)
mm mm kg/km
(approx.)
Maximum
Sheath cable
Thickness
Resistance
cable at 20°C
Conductor Nominal Nominal OverallNominal
mm mm
area (approx.)
Nominal No./ Diameter Thickness ConductorThickness Diameter
of ofof Galv. ofof Inner
diameter Weight
Conductor Insulation
Page - 37
covering Steel wiresection of wire
stranded

Armoured Cables
Colour Ident. : Insulation - Red,Yellow, Blue, Black
Sheath - Black
FOUR CORES
1.5 1 / 1.38 1.38 0.8 1.0 0.8 1.8 15.5 412 12.1
1.5 7 / 0.52 1.56 0.8 1.0 0.8 1.8 16.0 434 12.1
2.5 1 / 1.78 1.78 0.8 1.0 0.8 1.8 16.5 486 7.41
2.5 7 / 0.67 2.01 0.8 1.0 0.8 1.8 17.0 508 7.41
4 1 / 2.26 2.26 1.0 1.0 0.8 1.8 19.5 736 4.61
4 7 / 0.85 2.55 1.0 1.0 1.25 1.8 20.0 762 4.61
6 7 / 1.04 3.12 1.0 1.0 1.25 1.8 21.0 894 3.08
10 7 / 1.35 4.05 1.0 1.0 1.25 1.8 23.5 1142 1.83
16 7 / 1.70 5.10 1.0 1.0 1.6 1.8 27.0 1621 1.15
25 7 / 2.13 6.39 1.2 1.0 1.6 1.8 31.0 2183 0.727
35 7 / 2.52 7.56 1.2 1.0 1.6 1.9 34.0 2698 0.524
50 8.1 1.4 1.2 2.0 2.1 35.0 3467 0.387
70 9.7 1.4 1.2 2.0 2.2 38.5 4455 0.268
95 11.4 1.6 1.2 2.5 2.4 44.5 6222 0.193
120 12.9 1.6 1.4 2.5 2.5 48.5 7248 0.153
150 14.2 1.8 1.4 2.5 2.7 52.5 8663 0.124
185 16.0 2.0 1.6 2.5 2.9 58.0 10503 0.0991
240 18.2 2.2 1.6 2.5 3.1 63.5 13414 0.0754
300 20.6 2.4 1.6 2.5 3.3 70.0 16298 0.0601
Conductor Nominal MaximumNominal
Weight ConductorNominal No./ Diameter Thickness Thickness Diameter
of ResistanceCross- Diameter of of of Inner of Galv. of
at 20°Csection of wire Conductor Insulation covering Steel wire Sheath cable
stranded
mm² No./mm mm
cable
Ω/km
Sector Shape
mm mm
(approx.)
kg/kmmm
Page - 38
mm
of
mm
Thickness
Nominal
diameter
Overall

Armoured Cables
Sheath - Black
FIVE CORES
1.5 1 / 1.38 1.38 0.8 1.0 0.8 1.8 16.5 465 12.1
1.5 7 / 0.52 1.56 0.8 1.0 0.8 1.8 17.0 488 12.1
2.5 1 / 1.78 1.78 0.8 1.0 0.8 1.8 17.5 551 7.41
2.5 7 / 0.67 2.01 0.8 1.0 0.8 1.8 18.0 572 7.41
4 1 / 2.26 2.26 1.0 1.0 0.8 1.8 20.5 835 4.61
4 7 / 0.85 2.55 1.0 1.0 1.25 1.8 21.5 865 4.61
6 7 / 1.04 3.12 1.0 1.0 1.25 1.8 22.5 1021 3.08
10 7 / 1.35 4.05 1.0 1.0 1.6 1.8 26.5 1479 1.83
16 7 / 1.70 5.10 1.0 1.0 1.60 1.8 29.0 1893 1.15
25 7 / 2.13 6.39 1.2 1.0 1.6 1.9 33.5 2577 0.727
35 7 / 2.52 7.56 1.2 1.0 2.0 2.0 38.0 3468 0.524
50 19 / 1.83 9.15 1.4 1.2 2.0 2.2 44.0 4503 0.387
Ω/kmmm mm mm mm
(approx.)
mm² No./mm mm mm kg/km
of of of Resistance
section of wire Conductor Insulation covering Steel wire
Cross- Diameter of of of Inner of Galv.
Nominal No./ Diameter Thickness Thickness Diameter
Conductor Nominal Nominal Overall MaximumNominal
Page - 39

Armoured Cables
Constructions :Constructions :
up to request)
Galvanized Flat Steel Wire armour
Galvanized Steel Tape binding
600/1000 V PVC INSULATED, FLAT STEEL WIRE ARMOURED AND PVC SHEATHED CABLES
PVC/FSWA/PVC (acc. to IEC 60502-1)
Page - 40
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7

Armoured Cables
Armour : Galvanized Flat Steel Wire+Steel tape open helix
Sheath - Black
TWO CORES
1.5 1 / 1.38 1.38 0.8 1.0 0.8 0.3 1.8 14.0 406 12.1
1.5 7 / 0.52 1.56 0.8 1.0 0.8 0.3 1.8 14.5 417 12.1
2.5 1 / 1.78 1.78 0.8 1.0 0.8 0.3 1.8 15.0 442 7.41
2.5 7 / 0.67 2.01 0.8 1.0 0.8 0.3 1.8 15.5 480 7.41
4 1 / 2.26 2.26 1.0 1.0 0.8 0.3 1.8 17.0 569 4.61
4 7 / 0.85 2.55 1.0 1.0 0.8 0.3 1.8 17.5 584 4.61
6 7 / 1.04 3.12 1.0 1.0 0.8 0.3 1.8 18.5 674 3.08
10 7 / 1.35 4.05 1.0 1.0 0.8 0.3 1.8 20.5 826 1.83
16 7 / 1.70 5.10 1.0 1.0 0.8 0.3 1.8 22.5 1040 1.15
25 7 / 2.13 6.39 1.2 1.0 0.8 0.3 1.8 26.0 1365 0.727
35 7 / 2.52 7.56 1.2 1.0 0.8 0.3 1.8 28.0 1672 0.524
50 19 / 1.83 9.15 1.4 1.0 0.8 0.3 1.8 32.0 2134 0.387
70 19 / 2.17 10.85 1.4 1.0 0.8 0.3 1.9 35.5 2691 0.268
95 19 / 2.52 12.60 1.6 1.2 0.8 0.3 2.1 41.0 3484 0.193
120 37 / 2.03 14.21 1.6 1.2 0.8 0.3 2.2 44.5 4149 0.153
150 37 / 2.27 15.89 1.8 1.2 0.8 0.3 2.3 49.0 4995 0.124
185 37 / 2.52 17.64 2.0 1.4 0.8 0.3 2.4 53.5 5968 0.0991
240 61 / 2.26 20.34 2.2 1.4 0.8 0.3 2.6 60.0 7540 0.0754
300 61 / 2.52 22.68 2.4 1.6 0.8 0.3 2.8 66.5 9178 0.0601
Minimum
thickness
of Galv.
Steel tape
mm
of Inner
covering
(approx.)
thickness
of Galv.
Flat
Steel wire
mm mm mm kg/kmmmmm
of
mm² No./mm mm
Maximum
(approx.)
Insulation
Conductor
Cross- Diameter of of of of
Overall
Thickness Weightdiameter
(approx.)
Ω/km
Resistance
PVC/FSWA/PVC (IEC 60502-1)
Thickness
Sheath
Nominal
Page - 41

Armoured Cables
Sheath - Black
THREE CORES
1.5 1 / 1.38 1.38 0.8 1.0 0.8 0.3 1.8 14.5 437 12.1
1.5 7 / 0.52 1.56 0.8 1.0 0.8 0.3 1.8 15.0 447 12.1
2.5 1 / 1.78 1.78 0.8 1.0 0.8 0.3 1.8 15.5 509 7.41
2.5 7 / 0.67 2.01 0.8 1.0 0.8 0.3 1.8 16.0 524 7.41
4 1 / 2.26 2.26 1.0 1.0 0.8 0.3 1.8 17.5 631 4.61
4 7 / 0.85 2.55 1.0 1.0 0.8 0.3 1.8 18.0 649 4.61
6 7 / 1.04 3.12 1.0 1.0 0.8 0.3 1.8 19.0 760 3.08
10 7 / 1.35 4.05 1.0 1.0 0.8 0.3 1.8 21.5 982 1.83
16 7 / 1.70 5.10 1.0 1.0 0.8 0.3 1.8 23.5 1230 1.15
25 7 / 2.13 6.39 1.2 1.0 0.8 0.3 1.8 27.0 1685 0.727
35 7 / 2.52 7.56 1.2 1.0 0.8 0.3 1.8 30.0 2089 0.524
50 6.8 1.4 1.0 0.8 0.3 1.9 28.5 2385 0.387
70 8.2 1.4 1.2 0.8 0.3 2.0 32.0 3149 0.268
95 9.7 1.6 1.2 0.8 0.3 2.2 37.0 4184 0.193
120 10.9 1.6 1.2 0.8 0.3 2.3 39.5 4902 0.153
150 11.9 1.8 1.4 0.8 0.3 2.4 43.0 5887 0.124
185 13.6 2.0 1.4 0.8 0.3 2.6 47.5 7212 0.0991
240 15.8 2.2 1.6 0.8 0.3 2.8 54.0 9457 0.0754
300 17.5 2.4 1.6 0.8 0.3 2.9 58.5 11517 0.0601
Minimum
thickness
of Galv.
Ω/km
Sector Shape
mm mm mm
(approx.)
Sheath cablecovering Flat
(approx.) Steel wire Steel tape
cable at 20°C
Thickness thickness
of Inner
Maximum
Thickness diameter Weight ConductorNominal No./ Diameter Thickness
of ResistanceCross- Diameter of of of Galv.
of of
Nominal
Page - 42
stranded

Armoured Cables
Sheath - Black
FOUR CORES
1.5 1 / 1.38 1.38 0.8 1.0 0.8 0.3 1.8 15.5 497 12.1
1.5 7 / 0.52 1.56 0.8 1.0 0.8 0.3 1.8 16.0 510 12.1
2.5 1 / 1.78 1.78 0.8 1.0 0.8 0.3 1.8 16.5 560 7.41
2.5 7 / 0.67 2.01 0.8 1.0 0.8 0.3 1.8 17.0 602 7.41
4 1 / 2.26 2.26 1.0 1.0 0.8 0.3 1.8 18.5 731 4.61
4 7 / 0.85 2.55 1.0 1.0 0.8 0.3 1.8 19.5 754 4.61
6 7 / 1.04 3.12 1.0 1.0 0.8 0.3 1.8 20.5 890 3.08
10 7 / 1.35 4.05 1.0 1.0 0.8 0.3 1.8 23.0 1157 1.83
16 7 / 1.70 5.10 1.0 1.0 0.8 0.3 1.8 25.5 1498 1.15
25 7 / 2.13 6.39 1.2 1.0 0.8 0.3 1.8 29.5 2055 0.727
35 7 / 2.52 7.56 1.2 1.0 0.8 0.3 1.9 32.5 2567 0.524
50 8.1 1.4 1.2 0.8 0.3 2.0 32.5 3041 0.387
70 9.7 1.4 1.2 0.8 0.3 2.1 36.0 3991 0.268
95 11.4 1.6 1.2 0.8 0.3 2.3 41.5 5307 0.193
120 12.9 1.6 1.4 0.8 0.3 2.4 45.0 6286 0.153
150 14.2 1.8 1.4 0.8 0.3 2.6 49.0 7567 0.124
185 16.0 2.0 1.6 0.8 0.3 2.7 54.5 9306 0.0991
240 18.2 2.2 1.6 0.8 0.3 3.0 60.5 12117 0.0754
300 20.6 2.4 1.6 0.8 0.3 3.2 66.5 14861 0.0601
Conductor Nominal
Minimum
thickness
of Galv.
Steel tape
Nominal Overall Maximum
Thickness diameter Weight ConductorNominal No./ Diameter Thickness Thickness thickness
of ResistanceCross- Diameter of of of Inner of Galv.
mm mmmm² No./mm
of of
Sector Shape
mm mm
cable
(approx.)
cableFlat Sheath
mm
covering
mm Ω/kmkg/km
Nominal
mm
at 20°C
Page - 43
stranded
(approx.) Steel wire

Armoured Cables
Sheath - Black
FIVE CORES
1.5 1 / 1.38 1.38 0.8 1.0 0.8 0.3 1.8 16.5 538 12.1
1.5 7 / 0.52 1.56 0.8 1.0 0.8 0.3 1.8 17.0 580 12.1
2.5 1 / 1.78 1.78 0.8 1.0 0.8 0.3 1.8 17.5 635 7.41
2.5 7 / 0.67 2.01 0.8 1.0 0.8 0.3 1.8 18.0 654 7.41
4 1 / 2.26 2.26 1.0 1.0 0.8 0.3 1.8 20.0 832 4.61
4 7 / 0.85 2.55 1.0 1.0 0.8 0.3 1.8 21.0 860 4.61
6 7 / 1.04 3.12 1.0 1.0 0.8 0.3 1.8 22.0 1022 3.08
10 7 / 1.35 4.05 1.0 1.0 0.8 0.3 1.8 25.0 1338 1.83
16 7 / 1.70 5.10 1.0 1.0 0.8 0.3 1.8 27.5 1745 1.15
25 7 / 2.13 6.39 1.2 1.0 0.8 0.3 1.8 32.0 2413 0.727
35 7 / 2.52 7.56 1.2 1.0 0.8 0.3 1.9 35.5 3066 0.524
50 19 / 1.83 9.15 1.4 1.2 0.8 0.3 2.1 41.5 4013 0.387
thickness
of Galv.
Steel tape
mm kg/km Ω/km
(approx.) (approx.)
mm² No./mm mm mm mm mm mm mm
Flat Sheath cable cable at 20°C
area (approx.) (approx.) (approx.) Steel wire
of Galv. of of of Resistance
section of wire Conductor Insulation covering
Thickness diameterMinimum Weight Conductor
Cross- Diameter of of of Inner
Nominal No./ Diameter Thickness Thickness thickness
Conductor Nominal Nominal Overall MaximumNominal
Page - 44

600/1000 V PVC INSULATED, ALUMINIUM TAPE ARMOURED AND PVC SHEATHED CABLES
Constructions :
600/1000 V PVC INSULATED, STEEL TAPE ARMOURED AND PVC SHEATHED CABLES
Constructions :
up to request)
Page - 45
Armoured Cables
PVC/DATA/PVC (acc. to IEC 60502-1)
Double Aluminium Tape armour
PVC/DSTA/PVC (acc. to IEC 60502-1)
Double Galvanized Steel Tape armour
11
2
3
5
4
6
7
2
3
4
5
6
7
1
2
3
4
5
1
2
3
4
5

600/1000 V PVC INSULATED, ALUMINIUM TAPE ARMOURED AND PVC SHEATHED CABLES
PVC/DATA/PVC (IEC 60502-1)
Armour
Sheath - Black
SINGLE CORE
Nominal No./ Diameter Thickness Thickness Nominal Thickness diameter Weight Conductor
Cross- Diameter of of of Inner thickness of of of of Resistance
section of wire Conductor Insulation covering Sheath cable cable at 20°C
area (approx.) (approx.) (approx.) tape (approx.) (approx.)
50 19 / 1.83 9.15 1.4 1.0 0.5 1.8 19.5 817 0.39
70 19 / 2.17 10.85 1.4 1.0 0.5 1.8 21.0 1045 0.27
95 19 / 2.52 12.60 1.6 1.0 0.5 1.8 23.5 1344 0.19
120 37 / 2.03 14.21 1.6 1.0 0.5 1.8 25.0 1607 0.15
150 37 / 2.27 15.89 1.8 1.0 0.5 1.8 27.0 1949 0.12
185 37 / 2.52 17.64 2.0 1.0 0.5 1.8 29.5 2339 0.1
240 61 / 2.26 20.34 2.2 1.0 0.5 1.9 32.5 2987 0.08
300 61 / 2.52 22.68 2.4 1.0 0.5 1.9 35.0 3628 0.06
400 61 / 2.86 25.74 2.6 1.2 0.5 2.1 39.5 4638 0.0470
500 61 / 3.20 28.80 2.8 1.2 0.5 2.2 43.5 5694 0.04
Page - 46
Armoured Cables
Uo/U - 600/1000 V
: Double Aluminium tape
Colour Ident.
Aluminium
W/km

Armoured Cables
Armour : Double Galvanized Steel tape
Sheath - Black
TWO CORES
1 / 1.38 1.38 0.8 1.0 0.2 1.8 13.0 237 12.1
7 / 0.52 1.56 0.8 1.0 0.2 1.8 13.0 250 12.1
1 / 1.78 1.78 0.8 1.0 0.2 1.8 13.5 276 7.41
7 / 0.67 2.01 0.8 1.0 0.2 1.8 14.0 290 7.41
1 / 2.26 2.26 1.0 1.0 0.2 1.8 15.5 357 4.61
7 / 0.85 2.55 1.0 1.0 0.2 1.8 16.0 374 4.61
7 / 1.04 3.12 1.0 1.0 0.2 1.8 17.0 440 3.08
10 7 / 1.35 4.05 1.0 1.0 0.2 1.8 19.0 574 1.83
16 7 / 1.70 5.10 1.0 1.0 0.2 1.8 21.0 742 1.15
25 7 / 2.13 6.39 1.2 1.0 0.2 1.8 24.5 1026 0.727
35 7 / 2.52 7.56 1.2 1.0 0.2 1.8 27.0 1290 0.524
50 19 / 1.83 9.15 1.4 1.0 0.2 1.8 31.0 1712 0.387
70 19 / 2.17 10.85 1.4 1.0 0.2 1.9 34.0 2262 0.268
95 19 / 2.52 12.60 1.6 1.2 0.2 2.1 39.0 2896 0.193
120 37 / 2.03 14.21 1.6 1.2 0.5 2.2 43.5 3921 0.153
150 37 / 2.27 15.89 1.8 1.2 0.5 2.3 48.0 4722 0.124
185 37 / 2.52 17.64 2.0 1.4 0.5 2.4 52.5 5675 0.0991
240 61 / 2.26 20.34 2.2 1.4 0.5 2.6 58.5 7166 0.0754
300 61 / 2.52 22.68 2.4 1.6 0.5 2.8 64.5 8710 0.0601
1.5
2.5
4
1.5
2.5
4
6
Thickness
of Inner
covering
(approx.)
Thickness
of Galv.
Steel tape
of of of
Maximum
(approx.)
Weightdiameter
(approx.)
Conductor
Ω/km
Resistance
Overall
Insulation
PVC/DSTA/PVC (IEC 60502-1)
Thickness
Sheath
Nominal
Page - 47

Armoured Cables
Sheath - Black
THREE CORES
1 / 1.38 1.38 0.8 1.0 0.2 1.8 13.5 270 12.1
7 / 0.52 1.56 0.8 1.0 0.2 1.8 13.5 281 12.1
1 / 1.78 1.78 0.8 1.0 0.2 1.8 14.0 318 7.41
7 / 0.67 2.01 0.8 1.0 0.2 1.8 14.5 335 7.41
1 / 2.26 2.26 1.0 1.0 0.2 1.8 16.0 420 4.61
7 / 0.85 2.55 1.0 1.0 0.2 1.8 16.5 441 4.61
7 / 1.04 3.12 1.0 1.0 0.2 1.8 18.0 530 3.08
10 7 / 1.35 4.05 1.0 1.0 0.2 1.8 20.0 707 1.83
16 7 / 1.70 5.10 1.0 1.0 0.2 1.8 22.0 935 1.15
25 7 / 2.13 6.39 1.2 1.0 0.2 1.8 26.0 1328 0.727
35 7 / 2.52 7.56 1.2 1.0 0.2 1.8 28.5 1685 0.524
50 6.8 1.4 1.0 0.2 1.9 27.0 2002 0.387
70 8.2 1.4 1.2 0.2 2.0 30.5 2724 0.268
95 9.7 1.6 1.2 0.5 2.2 36.5 4062 0.193
120 10.9 1.6 1.2 0.5 2.3 39.5 4765 0.153
150 11.9 1.8 1.4 0.5 2.4 42.5 5745 0.124
185 13.6 2.0 1.4 0.5 2.6 47.5 7055 0.0991
240 15.8 2.2 1.6 0.5 2.8 53.5 9254 0.0754
300 17.5 2.4 1.6 0.5 2.9 58.0 11299 0.0601
1.5
2.5
mm² No./mm
Three-
Segmental
Stranded
1.5
2.5
4
6
4
Thickness Thickness
of Inner of Galv.
Ω/kmmm mm
(approx.)
mm mm kg/km
Sheath cablecovering Steel tape
mm mm
(approx.)(approx.)
cable at 20°C
Cross-
of Resistance
Diameter of of of of
Nominal
Page - 48

Armoured Cables
Sheath - Black
FOUR CORES
1 / 1.38 1.38 0.8 1.0 0.2 1.8 14.0 307 12.1
7 / 0.52 1.56 0.8 1.0 0.2 1.8 14.5 322 12.1
1 / 1.78 1.78 0.8 1.0 0.2 1.8 15.0 372 7.41
7 / 0.67 2.01 0.8 1.0 0.2 1.8 15.5 390 7.41
1 / 2.26 2.26 1.0 1.0 0.2 1.8 17.5 499 4.61
7 / 0.85 2.55 1.0 1.0 0.2 1.8 18.0 524 4.61
7 / 1.04 3.12 1.0 1.0 0.2 1.8 19.0 638 3.08
10 7 / 1.35 4.05 1.0 1.0 0.2 1.8 21.5 860 1.83
16 7 / 1.70 5.10 1.0 1.0 0.2 1.8 24.0 1158 1.15
25 7 / 2.13 6.39 1.2 1.0 0.2 1.8 28.0 1650 0.727
35 7 / 2.52 7.56 1.2 1.0 0.2 1.8 31.0 2120 0.524
50 8.1 1.4 1.2 0.2 2.0 31.0 2592 0.387
70 9.7 1.4 1.2 0.5 2.1 36.0 3862 0.268
95 11.4 1.6 1.2 0.5 2.3 41.0 5171 0.193
120 12.9 1.6 1.4 0.5 2.4 44.5 6122 0.153
150 14.2 1.8 1.4 0.5 2.6 49.0 7405 0.124
185 16.0 2.0 1.6 0.5 2.7 54.0 9113 0.0991
240 18.2 2.2 1.6 0.5 3.0 60.0 11899 0.0754
300 20.6 2.4 1.6 0.5 3.2 66.5 14624 0.0601
1.5
4
2.5
Segmental
Stranded
Four-
Conductor
Thickness
Cross-
section
Thickness
of Inner of Galv.
Nominal Overall Maximum
Nominal
Resistance
cable at 20°C
Diameter of of of
of wire Conductor Insulation covering
of of
Steel tape
(approx.) (approx.)
Sheath cable
(approx.) (approx.)
area (approx.)
Ω/kmmm mm
1.5
2.5
4
6
Nominal
Page - 49

Armoured Cables
Sheath - Black
FIVE CORES
1 / 1.38 1.38 0.8 1.0 0.2 1.8 15.0 350 12.1
7 / 0.52 1.56 0.8 1.0 0.2 1.8 15.5 368 12.1
1 / 1.78 1.78 0.8 1.0 0.2 1.8 16.0 424 7.41
7 / 0.67 2.01 0.8 1.0 0.2 1.8 16.5 446 7.41
1 / 2.26 2.26 1.0 1.0 0.2 1.8 18.5 578 4.61
7 / 0.85 2.55 1.0 1.0 0.2 1.8 19.5 609 4.61
7 / 1.04 3.12 1.0 1.0 0.2 1.8 20.5 748 3.08
10 7 / 1.35 4.05 1.0 1.0 0.2 1.8 23.5 1022 1.83
16 7 / 1.70 5.10 1.0 1.0 0.2 1.8 26.0 1386 1.15
25 7 / 2.13 6.39 1.2 1.0 0.2 1.8 30.5 1991 0.727
35 7 / 2.52 7.56 1.2 1.0 0.2 1.9 34.0 2577 0.524
50 19 / 1.83 9.15 1.4 1.2 0.2 2.1 40.0 3400 0.387
1.5
4
2.5
1.5
2.5
mm²
area
4
6
Nominal
Maximum
Thickness Thickness diameter WeightNo./ Diameter Thickness Thickness Conductor
Cross- Diameter of of of Inner of Galv. of of of Resistance
section of wire Conductor Insulation covering Steel tape Sheath cable cable
kg/km
at 20°C
(approx.) (approx.)(approx.) (approx.) (approx.)
mm mm
Nominal
Page - 50
Ω/kmmm mm mm mmNo./mm

Section 3 - XLPE Insulated Cables
Unarmoured Cables
Constructions :
Insulation (XLPE Compound)
up to request)
600/1000 V XLPE INSULATED AND PVC SHEATHED CABLES
XLPE/PVC (IEC 60502-1)
Page - 51
1
2
3
4
5
1
2
3
4
5
2

Unarmoured Cables
Insulation : XLPE Compound Operating Temperature
Colour Ident. : Insulation - Black
Sheath - Black
SINGLE CORE
1.5 1 / 1.38 1.38 0.7 1.4 6.0 49 12.1
1.5 7 / 0.52 1.56 0.7 1.4 6.5 51 12.1
2.5 1 / 1.78 1.78 0.7 1.4 6.5 62 7.41
2.5 7 / 0.67 2.01 0.7 1.4 7.0 64 7.41
4 1 / 2.26 2.26 0.7 1.4 7.0 80 4.61
4 7 / 0.85 2.55 0.7 1.4 7.5 83 4.61
6 7 / 1.04 3.12 0.7 1.4 8.0 106 3.08
10 7 / 1.35 4.05 0.7 1.4 9.0 152 1.83
16 4.7 0.7 1.4 9.5 206 1.15
25 5.9 0.9 1.4 11.0 302 0.727
35 7.1 0.9 1.4 12.0 399 0.524
50 8.1 1.0 1.4 13.5 518 0.387
70 9.7 1.1 1.4 15.0 721 0.268
95 11.6 1.1 1.5 17.5 979 0.193
120 12.9 1.2 1.5 19.0 1212 0.153
150 14.3 1.4 1.6 21.0 1502 0.124
185 16.0 1.6 1.6 23.0 1854 0.0991
240 18.3 1.7 1.7 26.0 2406 0.0754
300 20.7 1.8 1.8 28.5 2996 0.0601
400 23.4 2.0 1.9 32.0 3799 0.0470
500 26.5 2.2 2.0 35.5 4842 0.0366
630 30.3 2.4 2.2 40.0 6233 0.0283
800 34.3 2.6 2.3 45.0 7933 0.0221
1000 127 / 3.2 41.6 2.8 2.4 53.0 10109 0.0176
Page - 52
area (approx.)
kg/km Ω/kmmm
Compact
Resistance
(approx.) (approx.)
mm² No./mm mm
Insulation
of
Nominal No./ Diameter Thickness diameter
Sheath cable
Maximum
Weight Conductor
of of
round
stranded
cable at 20°C
(approx.)
mmmm
Thickness

: Insulation - Red,Black
Sheath - Black
TWO CORES
1.5 1 / 1.38 1.38 0.7 1.8 10.0 110 12.1
1.5 7 / 0.52 1.56 0.7 1.8 10.5 120 12.1
2.5 1 / 1.78 1.78 0.7 1.8 10.5 140 7.41
2.5 7 / 0.67 2.01 0.7 1.8 11.0 145 7.41
4 1 / 2.26 2.26 0.7 1.8 11.5 180 4.61
4 7 / 0.85 2.55 0.7 1.8 12.5 190 4.61
6 7 / 1.04 3.12 0.7 1.8 13.5 240 3.08
10 7 / 1.35 4.05 0.7 1.8 15.5 345 1.83
16 4.7 0.7 1.8 16.5 460 1.15
25 5.9 0.9 1.8 19.5 675 0.73
35 Compact 7.1 0.9 1.8 22.0 890 0.52
50 round 8.1 1.0 1.8 24.5 1150 0.39
70 stranded 9.7 1.1 1.8 28.0 1595 0.27
95 11.6 1.1 2.0 32.5 2170 0.19
120 12.9 1.2 2.1 35.5 2695 0.15
150 14.3 1.4 2.2 39.5 3330 0.12
185 16.0 1.6 2.3 44.0 4135 0.1
240 18.3 1.7 2.5 49.5 5360 0.08
300 20.7 1.8 2.7 55.0 6680 0.06
400 23.4 2.0 2.9 61.5 8465 0.0470
Page - 53
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

: Insulation - Red,Yellow, Blue
Sheath - Black
THREE CORES
1.5 1 / 1.38 1.38 0.7 1.8 10.5 135 12.1
1.5 7 / 0.52 1.56 0.7 1.8 11.0 140 12.1
2.5 1 / 1.78 1.78 0.7 1.8 11.0 170 7.41
2.5 7 / 0.67 2.01 0.7 1.8 11.5 180 7.41
4 1 / 2.26 2.26 0.7 1.8 12.5 225 4.61
4 7 / 0.85 2.55 0.7 1.8 13.0 240 4.61
6 7 / 1.04 3.12 0.7 1.8 14.0 310 3.08
10 7 / 1.35 4.05 0.7 1.8 16.0 450 1.83
16 4.7 0.7 1.8 17.5 620 1.15
25 5.9 0.9 1.8 21.0 920 0.727
35 Compact 7.1 0.9 1.8 23.5 1220 0.524
50 round 8.1 1.0 1.8 26.0 1595 0.387
70 stranded 9.7 1.1 1.9 30.0 2240 0.268
95 11.6 1.1 2.0 34.5 3040 0.193
120 12.9 1.2 2.1 38.0 3790 0.153
150 14.3 1.4 2.3 42.0 4705 0.124
185 16.0 1.6 2.4 47.5 5845 0.0991
240 18.3 1.7 2.6 53.0 7595 0.0754
300 20.7 1.8 2.8 59.0 9470 0.0601
400 23.4 2.0 3.1 66.5 12055 0.0470
Page - 54
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

: Insulation - Red,Yellow, Blue, Black
Sheath - Black
FOUR CORES
1.5 1 / 1.38 1.38 0.7 1.8 11.0 160 12.1
1.5 7 / 0.52 1.56 0.7 1.8 11.5 165 12.1
2.5 1 / 1.78 1.78 0.7 1.8 12.0 210 7.41
2.5 7 / 0.67 2.01 0.7 1.8 12.5 220 7.41
4 1 / 2.26 2.26 0.7 1.8 13.5 280 4.61
4 7 / 0.85 2.55 0.7 1.8 14.0 290 4.61
6 7 / 1.04 3.12 0.7 1.8 15.0 385 3.08
10 7 / 1.35 4.05 0.7 1.8 17.5 570 1.83
16 4.7 0.7 1.8 19.0 790 1.15
25 5.9 0.9 1.8 23.0 1180 0.727
35 Compact 7.1 0.9 1.8 26.0 1575 0.524
50 round 8.1 1.0 1.9 29.0 2075 0.387
70 stranded 9.7 1.1 2.0 33.5 2925 0.268
95 11.6 1.1 2.1 38.5 3980 0.193
120 12.9 1.2 2.3 42.5 4980 0.153
150 14.3 1.4 2.4 47.0 6160 0.124
185 16.0 1.6 2.6 53.0 7680 0.0991
240 18.3 1.7 2.8 59.0 9975 0.0754
300 20.7 1.8 3.0 66.0 12440 0.0601
Page - 55
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

Sheath - Black
FIVE CORES
1.5 1 / 1.38 1.38 0.7 1.8 12.0 185 12.1
1.5 7 / 0.52 1.56 0.7 1.8 12.5 195 12.1
2.5 1 / 1.78 1.78 0.7 1.8 13.0 245 7.41
2.5 7 / 0.67 2.01 0.7 1.8 13.5 255 7.41
4 1 / 2.26 2.26 0.7 1.8 14.5 335 4.61
4 7 / 0.85 2.55 0.7 1.8 15.0 350 4.61
6 7 / 1.04 3.12 0.7 1.8 16.5 465 3.08
10 7 / 1.35 4.05 0.7 1.8 19.5 690 1.83
16 Compact 4.7 0.7 1.8 21.0 965 1.15
25 round 5.9 0.9 1.8 25.0 1450 0.727
35 stranded 7.1 0.9 1.8 28.5 1940 0.524
50 8.1 1.0 2.0 32.0 2575 0.387
Page - 56
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

Sheath - Black
6 1.5 1 / 1.38 1.38 0.7 1.8 13.0 210 12.1
7 1.5 1 / 1.38 1.38 0.7 1.8 13.0 225 12.1
8 1.5 1 / 1.38 1.38 0.7 1.8 14.0 250 12.1
9 1.5 1 / 1.38 1.38 0.7 1.8 14.5 280 12.1
10 1.5 1 / 1.38 1.38 0.7 1.8 16.0 310 12.1
12 1.5 1 / 1.38 1.38 0.7 1.8 16.5 350 12.1
14 1.5 1 / 1.38 1.38 0.7 1.8 17.0 395 12.1
15 1.5 1 / 1.38 1.38 0.7 1.8 17.5 415 12.1
16 1.5 1 / 1.38 1.38 0.7 1.8 18.0 440 12.1
18 1.5 1 / 1.38 1.38 0.7 1.8 19.0 480 12.1
19 1.5 1 / 1.38 1.38 0.7 1.8 19.0 495 12.1
20 1.5 1 / 1.38 1.38 0.7 1.8 19.5 520 12.1
24 1.5 1 / 1.38 1.38 0.7 1.8 22.0 620 12.1
30 1.5 1 / 1.38 1.38 0.7 1.8 23.0 740 12.1
32 1.5 1 / 1.38 1.38 0.7 1.8 23.5 780 12.1
37 1.5 1 / 1.38 1.38 0.7 1.8 25.0 880 12.1
40 1.5 1 / 1.38 1.38 0.7 1.8 26.0 945 12.1
50 1.5 1 / 1.38 1.38 0.7 1.9 28.5 1150 12.1
52 1.5 1 / 1.38 1.38 0.7 1.9 29.5 1210 12.1
60 1.5 1 / 1.38 1.38 0.7 1.9 31.0 1375 12.1
61 1.5 1 / 1.38 1.38 0.7 1.9 31.0 1390 12.1
Page - 57
Unarmoured Cables
(to IEC 60228 clas 1) Uo/U - 600/1000 V
Colour Ident.
W/km

Sheath - Black
6 1.5 7 / 0.52 1.56 0.7 1.8 13.5 220 12.1
7 1.5 7 / 0.52 1.56 0.7 1.8 13.5 235 12.1
8 1.5 7 / 0.52 1.56 0.7 1.8 14.5 265 12.1
9 1.5 7 / 0.52 1.56 0.7 1.8 15.5 295 12.1
10 1.5 7 / 0.52 1.56 0.7 1.8 16.5 325 12.1
12 1.5 7 / 0.52 1.56 0.7 1.8 17.0 365 12.1
14 1.5 7 / 0.52 1.56 0.7 1.8 18.0 415 12.1
15 1.5 7 / 0.52 1.56 0.7 1.8 18.5 435 12.1
16 1.5 7 / 0.52 1.56 0.7 1.8 19.0 460 12.1
18 1.5 7 / 0.52 1.56 0.7 1.8 20.0 505 12.1
19 1.5 7 / 0.52 1.56 0.7 1.8 20.0 520 12.1
20 1.5 7 / 0.52 1.56 0.7 1.8 20.5 545 12.1
24 1.5 7 / 0.52 1.56 0.7 1.8 23.0 650 12.1
30 1.5 7 / 0.52 1.56 0.7 1.8 24.5 775 12.1
32 1.5 7 / 0.52 1.56 0.7 1.8 25.0 815 12.1
37 1.5 7 / 0.52 1.56 0.7 1.8 26.5 920 12.1
40 1.5 7 / 0.52 1.56 0.7 1.8 27.5 990 12.1
50 1.5 7 / 0.52 1.56 0.7 1.9 30.0 1205 12.1
52 1.5 7 / 0.52 1.56 0.7 1.9 31.0 1265 12.1
60 1.5 7 / 0.52 1.56 0.7 1.9 33.0 1435 12.1
61 1.5 7 / 0.52 1.56 0.7 1.9 33.0 1455 12.1
Page - 58
Unarmoured Cables
(to IEC 60228 clas 2) Uo/U - 600/1000 V
Colour Ident.
W/km

Sheath - Black
6 2.5 1 / 1.78 1.78 0.7 1.8 14.0 280 7.41
7 2.5 1 / 1.78 1.78 0.7 1.8 14.0 300 7.41
8 2.5 1 / 1.78 1.78 0.7 1.8 15.0 340 7.41
9 2.5 1 / 1.78 1.78 0.7 1.8 16.0 385 7.41
10 2.5 1 / 1.78 1.78 0.7 1.8 17.5 425 7.41
12 2.5 1 / 1.78 1.78 0.7 1.8 18.0 485 7.41
14 2.5 1 / 1.78 1.78 0.7 1.8 19.0 550 7.41
15 2.5 1 / 1.78 1.78 0.7 1.8 19.5 580 7.41
16 2.5 1 / 1.78 1.78 0.7 1.8 20.0 615 7.41
18 2.5 1 / 1.78 1.78 0.7 1.8 21.0 675 7.41
19 2.5 1 / 1.78 1.78 0.7 1.8 21.0 700 7.41
20 2.5 1 / 1.78 1.78 0.7 1.8 21.5 735 7.41
24 2.5 1 / 1.78 1.78 0.7 1.8 24.5 875 7.41
30 2.5 1 / 1.78 1.78 0.7 1.8 25.5 1055 7.41
32 2.5 1 / 1.78 1.78 0.7 1.8 26.0 1120 7.41
37 2.5 1 / 1.78 1.78 0.7 1.8 27.5 1265 7.41
40 2.5 1 / 1.78 1.78 0.7 1.9 29.0 1375 7.41
50 2.5 1 / 1.78 1.78 0.7 2.0 32.0 1685 7.41
52 2.5 1 / 1.78 1.78 0.7 2.0 33.0 1765 7.41
60 2.5 1 / 1.78 1.78 0.7 2.0 35.0 2010 7.41
61 2.5 1 / 1.78 1.78 0.7 2.0 35.0 2040 7.41
Page - 59
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

Sheath - Black
6 2.5 7 / 0.67 2.01 0.7 1.8 14.5 290 7.41
7 2.5 7 / 0.67 2.01 0.7 1.8 14.5 315 7.41
8 2.5 7 / 0.67 2.01 0.7 1.8 16.0 355 7.41
9 2.5 7 / 0.67 2.01 0.7 1.8 17.0 400 7.41
10 2.5 7 / 0.67 2.01 0.7 1.8 18.5 440 7.41
12 2.5 7 / 0.67 2.01 0.7 1.8 19.0 505 7.41
14 2.5 7 / 0.67 2.01 0.7 1.8 20.0 570 7.41
15 2.5 7 / 0.67 2.01 0.7 1.8 20.5 605 7.41
16 2.5 7 / 0.67 2.01 0.7 1.8 21.0 640 7.41
18 2.5 7 / 0.67 2.01 0.7 1.8 22.0 705 7.41
19 2.5 7 / 0.67 2.01 0.7 1.8 22.0 725 7.41
20 2.5 7 / 0.67 2.01 0.7 1.8 22.5 765 7.41
24 2.5 7 / 0.67 2.01 0.7 1.8 25.5 915 7.41
30 2.5 7 / 0.67 2.01 0.7 1.8 27.0 1100 7.41
32 2.5 7 / 0.67 2.01 0.7 1.8 27.5 1165 7.41
37 2.5 7 / 0.67 2.01 0.7 1.8 29.0 1315 7.41
40 2.5 7 / 0.67 2.01 0.7 1.9 30.5 1430 7.41
50 2.5 7 / 0.67 2.01 0.7 2.0 33.5 1755 7.41
52 2.5 7 / 0.67 2.01 0.7 2.0 34.5 1840 7.41
60 2.5 7 / 0.67 2.01 0.7 2.0 36.5 2095 7.41
61 2.5 7 / 0.67 2.01 0.7 2.0 36.5 2120 7.41
Page - 60
Unarmoured Cables
Uo/U - 600/1000 V
Colour Ident.
W/km

Unarmoured Cables
Constructions :
up to request)
Copper Tape screen
600/1000 V XLPE INSULATED, METALLIC SCREENED AND PVC SHEATHED CABLES
XLPE/PVC-S (IEC 60502-1)
Page - 61
1
2
3
6
7
4
1
2
3
4
5
6
7
5
* Copper wire screen.

Unarmoured Cables
Sheath - Black
TWO CORES
1.5 1 / 1.38 1.38 0.7 0.1 1.8 10.0 125 12.1
1.5 7 / 0.52 1.56 0.7 0.1 1.8 10.5 131 12.1
2.5 1 / 1.78 1.78 0.7 0.1 1.8 11.0 155 7.41
2.5 7 / 0.67 2.01 0.7 0.1 1.8 11.5 162 7.41
4 1 / 2.26 2.26 0.7 0.1 1.8 12.0 200 4.61
4 7 / 0.85 2.55 0.7 0.1 1.8 12.5 209 4.61
6 1 / 2.77 2.77 0.7 0.1 1.8 13.0 250 3.08
6 7 / 1.04 3.12 0.7 0.1 1.8 13.5 261 3.08
10 7 / 1.35 4.05 0.7 0.1 1.8 15.5 369 1.83
16 4.7 0.7 0.1 1.8 16.5 489 1.15
25 5.9 0.9 0.1 1.8 20.0 712 0.727
35 7.1 0.9 0.1 1.8 22.5 934 0.524
50 8.1 1.0 0.1 1.8 24.5 1196 0.387
70 9.7 1.1 0.1 1.9 28.5 1648 0.268
95 11.6 1.1 0.1 2.0 32.5 2226 0.193
120 12.9 1.2 0.1 2.1 35.5 2753 0.153
150 14.3 1.4 0.1 2.2 39.5 3394 0.124
185 16.0 1.6 0.1 2.3 44.0 4205 0.0991
240 18.3 1.7 0.1 2.5 49.5 5425 0.0754
300 20.7 1.8 0.1 2.7 55.0 6752 0.0601
400 23.4 2.0 0.1 2.9 61.5 8543 0.0470
round
mm
cable
kg/km
Page - 62
mm mm
Sheath
mm
Insulation
(approx.)
Copper tape
Resistance
(approx.)
at 20°Ccable
of
stranded
Ω/km
Conductorsection area of wire
(approx.) (approx.)
mm² No./mm
Compact
Diameter
Nominal
Thickness
Overall
diameter
Conductor Maximum
Conductor
Nominal
No./
Diameter
Thickness
Nominal
Thickness
of ofof
mm
Nominal Weight
ofofCross-
(approx.)

Unarmoured Cables
Sheath - Black
THREE CORES
1.5 1 / 1.38 1.38 0.7 0.1 1.8 10.5 149 12.1
1.5 7 / 0.52 1.56 0.7 0.1 1.8 11.0 155 12.1
2.5 1 / 1.78 1.78 0.7 0.1 1.8 11.5 186 7.41
2.5 7 / 0.67 2.01 0.7 0.1 1.8 12.0 195 7.41
4 1 / 2.26 2.26 0.7 0.1 1.8 12.5 246 4.61
4 7 / 0.85 2.55 0.7 0.1 1.8 13.0 257 4.61
6 1 / 2.77 2.77 0.7 0.1 1.8 13.5 318 3.08
6 7 / 1.04 3.12 0.7 0.1 1.8 14.0 330 3.08
10 7 / 1.35 4.05 0.7 0.1 1.8 16.5 478 1.83
16 4.7 0.7 0.1 1.8 17.5 650 1.15
25 5.9 0.9 0.1 1.8 21.0 959 0.727
35 7.1 0.9 0.1 1.8 23.5 1273 0.524
50 8.1 1.0 0.1 1.8 26.5 1642 0.387
70 9.7 1.1 0.1 1.9 30.0 2282 0.268
95 11.6 1.1 0.1 2.0 34.5 3106 0.193
120 12.9 1.2 0.1 2.2 38.0 3868 0.153
150 14.3 1.4 0.1 2.3 42.0 4775 0.124
185 16.0 1.6 0.1 2.4 47.0 5907 0.0991
240 18.3 1.7 0.1 2.6 53.0 7673 0.0754
300 20.7 1.8 0.1 2.8 59.0 9561 0.0601
400 23.4 2.0 0.1 3.1 66.0 12110 0.0470
Compact
(approx.)
mm
round
No./mm
stranded
(approx.) (approx.)
Thickness
of
Copper tape
(approx.)
cable
of
at 20°Csection area of wire Conductor Insulation Sheath cable
Cross- Diameter of of of Resistance
Nominal MaximumConductor Nominal
Nominal Overall
mm²
(approx.)
Thickness diameterNo./ Diameter ThicknessNominal
mm Ω/kmkg/kmmm mm
Weight Conductor
of
mm
Page - 63

Unarmoured Cables
Sheath - Black
FOUR CORES
1.5 1 / 1.38 1.38 0.7 0.1 1.8 11.5 173 12.1
1.5 7 / 0.52 1.56 0.7 0.1 1.8 12.0 182 12.1
2.5 1 / 1.78 1.78 0.7 0.1 1.8 12.5 228 7.41
2.5 7 / 0.67 2.01 0.7 0.1 1.8 13.0 237 7.41
4 1 / 2.26 2.26 0.7 0.1 1.8 13.5 300 4.61
4 7 / 0.85 2.55 0.7 0.1 1.8 14.0 318 4.61
6 1 / 2.77 2.77 0.7 0.1 1.8 14.5 394 3.08
6 7 / 1.04 3.12 0.7 0.1 1.8 15.5 409 3.08
10 7 / 1.35 4.05 0.7 0.1 1.8 18.0 598 1.83
16 4.7 0.7 0.1 1.8 19.5 823 1.15
25 5.9 0.9 0.1 1.8 23.0 1227 0.727
35 7.1 0.9 0.1 1.8 26.0 1632 0.524
50 8.1 1.0 0.1 1.9 29.0 2120 0.387
70 9.7 1.1 0.1 2.0 33.5 2976 0.268
95 11.6 1.1 0.1 2.2 38.5 4073 0.193
120 12.9 1.2 0.1 2.3 42.5 5052 0.153
150 14.3 1.4 0.1 2.5 47.0 6243 0.124
185 16.0 1.6 0.1 2.6 52.5 7751 0.0991
240 18.3 1.7 0.1 2.8 59.0 10066 0.0754
300 20.7 1.8 0.1 3.0 65.5 12547 0.0601
400 23.4 2.0 0.1 3.3 73.5 15898 0.0470
Compact
round
stranded
(approx.)
Thickness
(approx.) (approx.) (approx.)
of
Copper tape
diameterThickness Weight
cable
kg/km Ω/kmmmmm² No./mm mm mm mmmm
Thickness
Resistance
at 20°Csection area of wire Conductor Insulation Sheath cable
Diameter of of of of of
Page - 64
No./ DiameterNominal
(approx.)
Overall MaximumNominal
Conductor
Cross-

Unarmoured Cables
Sheath - Black
FIVE CORES
1.5 1 / 1.38 1.38 0.7 0.1 1.8 12.0 204 12.1
1.5 7 / 0.52 1.56 0.7 0.1 1.8 12.5 214 12.1
2.5 1 / 1.78 1.78 0.7 0.1 1.8 13.5 265 7.41
2.5 7 / 0.67 2.01 0.7 0.1 1.8 14.0 276 7.41
4 1 / 2.26 2.26 0.7 0.1 1.8 14.5 360 4.61
4 7 / 0.85 2.55 0.7 0.1 1.8 15.5 376 4.61
6 1 / 2.77 2.77 0.7 0.1 1.8 16.0 471 3.08
6 7 / 1.04 3.12 0.7 0.1 1.8 17.0 488 3.08
10 7 / 1.35 4.05 0.7 0.1 1.8 19.5 720 1.83
16 4.7 0.7 0.1 1.8 21.0 1005 1.15
25 5.9 0.9 0.1 1.8 25.5 1491 0.727
35 7.1 0.9 0.1 1.9 28.5 2005 0.524
50 8.1 1.0 0.1 2.0 32.0 2620 0.387
(approx.)
round
No./
(approx.)
Nominal
Compact
Copper tape
mm
Cross- Diameter of
Nominal
stranded
Conductor
mm² No./mm mm
cable at 20°C
of Resistance
Weight
of
Thickness
Overall Maximum
Conductor
Sheath cable
Thickness diameter
(approx.)
mm mm kg/km Ω/kmmm
section area of wire Conductor Insulation
(approx.)
of
Diameter Thickness
Nominal Nominal
of of
Page - 65
(approx.)

600/1000 V XLPE INSULATED, ALUMINIUM WIRE ARMOURED AND PVC SHEATHED CABLES
Constructions :
600/1000 V XLPE INSULATED, STEEL WIRE ARMOURED AND PVC SHEATHED CABLES
Constructions :
up to request)
Page - 66
Armoured Cables
XLPE/AWA/PVC (acc. to IEC 60502-1)
Round Aluminium Wire armour
XLPE/SWA/PVC (acc. to IEC 60502-1)
Galvanized Round Steel Wire armour
1
2
3
4
5
6
7
1
2
3
4
5
1
2
3
4
6
1
2
3
5
4
6
7
8
8
6
5

600/1000 V XLPE INSULATED, ALUMINIUM WIRE ARMOURED AND PVC SHEATHED CABLES
XLPE/AWA/PVC (IEC 60502-1)
Armour
Sheath - Black
SINGLE CORE
Nominal No./ Diameter Thickness Thickness Nominal Thickness diameter Weight Conductor
Cross- Diameter of of of Inner diameter of of of of Resistance
area (approx.) (approx.) (approx.) wire (approx.) (approx.)
16 4.7 0.7 1.0 0.8 1.8 13.5 325 1.15
25 5.9 0.9 1.0 0.8 1.8 15.5 435 0.73
35 7.1 0.9 1.0 0.8 1.8 16.5 545 0.52
50 8.1 1.0 1.0 1.25 1.8 18.5 715 0.39
70 9.7 1.1 1.0 1.25 1.8 20.0 940 0.27
95 11.6 1.1 1.0 1.25 1.8 22.0 1215 0.19
120 12.9 1.2 1.0 1.6 1.8 24.5 1565 0.15
150 Compact 14.3 1.4 1.0 1.6 1.8 26.5 1865 0.12
185 round 16.0 1.6 1.0 1.6 1.8 28.5 2270 0.1
240 stranded 18.3 1.7 1.0 1.6 1.9 31.0 2860 0.08
300 20.7 1.8 1.0 1.6 1.9 34.0 3490 0.06
400 23.4 2.0 1.2 2.0 2.1 38.5 4385 0.0470
500 26.5 2.2 1.2 2.0 2.2 42.0 5485 0.04
630 30.3 2.4 1.2 2.0 2.3 46.5 6930 0.03
800 34.3 2.6 1.4 2.5 2.5 52.5 8915 0.02
1000 Round stranded 41.6 2.8 1.4 2.5 2.5 60.5 11315 0.02
Page - 67
Armoured Cables
Uo/U - 600/1000 V
: Aluminium Wire
Colour Ident.
Aluminium
W/km

Armoured Cables
(to IEC 60228 class 2) Uo/U - 600/1000 V
Sheath - Black
TWO CORES
1.5 1 / 1.38 1.38 0.7 1.0 0.8 1.8 13.5 314 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.8 1.8 14.0 325 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.8 1.8 14.5 355 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.8 1.8 15.0 372 7.41
4 1 / 2.26 2.26 0.7 1.0 0.8 1.8 15.5 422 4.61
4 7 / 0.85 2.55 0.7 1.0 0.8 1.8 16.0 437 4.61
6 1 / 2.77 2.77 0.7 1.0 0.8 1.8 16.5 485 3.08
6 7 / 1.04 3.12 0.7 1.0 0.8 1.8 17.0 511 3.08
10 7 / 1.35 4.05 0.7 1.0 1.25 1.8 20.0 757 1.83
16 4.7 0.7 1.0 1.25 1.8 21.0 907 1.15
25 5.9 0.9 1.0 1.6 1.8 25.0 1342 0.727
35 7.1 0.9 1.0 1.6 1.8 27.5 1630 0.524
50 8.1 1.0 1.0 1.6 1.8 30.0 1965 0.387
70 9.7 1.1 1.0 1.6 2.0 34.0 2549 0.268
95 11.6 1.1 1.2 2.0 2.1 39.0 3517 0.193
120 12.9 1.2 1.2 2.0 2.2 42.0 4159 0.153
150 14.3 1.4 1.2 2.0 2.3 46.0 4966 0.124
185 16.0 1.6 1.4 2.5 2.5 52.0 6435 0.0991
240 18.3 1.7 1.4 2.5 2.7 57.5 7894 0.0754
300 20.7 1.8 1.6 2.5 2.8 63.0 9543 0.0601
of Inner
covering
(approx.)
Nominal
diameter
of
Steel wire
Compact
round
stranded
mm mm mm kg/kmmmmm
of
mm² No./mm mm
Maximum
(approx.)
Insulation
Conductor
Cross- Diameter of of of of
Overall
Thickness Weightdiameter
(approx.)
Ω/km
Resistance
XLPE/SWA/PVC (IEC 60502-1)
Thickness
Sheath
Page - 68

Armoured Cables
(to IEC 60228 class 2) Uo/U - 600/1000 V
Sheath - Black
THREE CORES
1.5 1 / 1.38 1.38 0.7 1.0 0.8 1.8 14.0 343 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.8 1.8 14.5 360 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.8 1.8 15.0 398 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.8 1.8 15.5 417 7.41
4 1 / 2.26 2.26 0.7 1.0 0.8 1.8 16.0 474 4.61
4 7 / 0.85 2.55 0.7 1.0 0.8 1.8 17.0 502 4.61
6 1 / 2.77 2.77 0.7 1.0 0.8 1.8 17.0 570 3.08
6 7 / 1.04 3.12 0.7 1.0 0.8 1.8 18.0 591 3.08
10 7 / 1.35 4.05 0.7 1.0 1.25 1.8 20.5 887 1.83
16 4.7 0.7 1.0 1.25 1.8 22.0 1087 1.15
25 5.9 0.9 1.0 1.6 1.8 26.5 1622 0.727
35 7.1 0.9 1.0 1.6 1.8 29.0 2015 0.524
50 8.1 1.0 1.0 1.6 1.9 31.5 2461 0.387
70 9.7 1.1 1.2 2.0 2.0 37.0 3522 0.268
95 11.6 1.1 1.2 2.0 2.2 41.5 4491 0.193
120 12.9 1.2 1.2 2.0 2.3 45.0 5381 0.153
150 14.3 1.4 1.4 2.5 2.5 50.0 6919 0.124
185 16.0 1.6 1.4 2.5 2.6 55.0 8285 0.0991
240 18.3 1.7 1.6 2.5 2.8 61.5 10398 0.0754
300 20.7 1.8 1.6 2.5 3.0 67.5 12550 0.0601
Ω/km
Compact
round
stranded
mm mm
(approx.)
Sheath cablecovering of
cable at 20°C
Thickness diameter Weight ConductorNominal No./ Diameter Thickness Thickness Nominal
of ResistanceCross- Diameter of of of Inner diameter
of of
Page - 69

Armoured Cables
(to IEC 60228 class 2) Uo/U - 600/1000 V
Sheath - Black
FOUR CORES
1.5 1 / 1.38 1.38 0.7 1.0 0.8 1.8 15.0 384 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.8 1.8 15.5 398 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.8 1.8 16.0 455 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.8 1.8 16.5 471 7.41
4 1 / 2.26 2.26 0.7 1.0 0.8 1.8 17.0 550 4.61
4 7 / 0.85 2.55 0.7 1.0 0.8 1.8 18.0 575 4.61
6 7 / 2.77 2.77 0.7 1.0 1.25 1.8 19.0 755 3.08
6 7 / 1.04 3.12 0.7 1.0 1.25 1.8 19.5 792 3.08
10 7 / 1.35 4.05 0.7 1.0 1.25 1.8 22.0 1039 1.83
16 4.7 0.7 1.0 1.25 1.8 23.5 1292 1.15
25 5.9 0.9 1.0 1.6 1.8 28.5 1955 0.727
35 7.1 0.9 1.0 1.6 1.9 31.5 2440 0.524
50 8.1 1.0 1.0 1.6 2.0 34.5 3039 0.387
70 9.7 1.1 1.2 2.0 2.2 40.5 4345 0.268
95 11.6 1.1 1.2 2.0 2.3 45.0 5577 0.193
120 12.9 1.2 1.4 2.5 2.5 50.0 7191 0.153
150 14.3 1.4 1.4 2.5 2.6 55.0 8600 0.124
185 16.0 1.6 1.4 2.5 2.8 60.5 10388 0.0991
240 18.3 1.7 1.6 2.5 3.0 67.5 13059 0.0754
300 20.7 1.8 1.6 2.5 3.2 74.0 15807 0.0601
Thickness diameter Weight ConductorNominal No./ Diameter Thickness Thickness Nominal
of of of ResistanceCross- Diameter of of of Inner diameter
section of wire Conductor Insulation covering of Sheath cable
cable at 20°C
mm kg/km
round
stranded
mm mm
(approx.)
mm² No./mm mm mm mm
Page - 70
Ω/km
Compact

Armoured Cables
(to IEC 60228 class 2) Uo/U - 600/1000 V
Sheath - Black
FIVE CORES
1.5 1 / 1.38 1.38 0.7 1.0 0.8 1.8 16.0 427 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.8 1.8 16.5 447 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.8 1.8 17.0 510 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.8 1.8 17.5 531 7.41
4 1 / 2.26 2.26 0.7 1.0 1.25 1.8 19.0 727 4.61
4 7 / 0.85 2.55 0.7 1.0 1.25 1.8 19.5 763 4.61
6 1 / 2.77 2.77 0.7 1.0 1.25 1.8 20.5 905 3.08
6 7 / 1.04 3.12 0.7 1.0 1.25 1.8 21.0 908 3.08
10 7 / 1.35 4.05 0.7 1.0 1.25 1.8 24.0 1203 1.83
16 4.7 0.7 1.0 1.6 1.8 26.5 1666 1.15
25 5.9 0.9 1.0 1.6 1.8 30.5 2290 0.727
35 7.1 0.9 1.0 1.6 1.9 34.0 2878 0.524
50 8.1 1.0 1.2 2.0 2.1 39.0 3920 0.387
Ω/km
stranded
mm mm mm mm
Compact
(approx.)
mm² No./mm mm mm
round
kg/km
area (approx.) (approx.) (approx.) Steel wire (approx.)
of of of Resistance
section of wire Conductor Insulation covering of
Cross- Diameter of of of Inner diameter
Nominal No./ Diameter Thickness Thickness Nominal
Page - 71

Armoured Cables
up to request)
Galvanized Flat Steel Wire armour
Galvanized Steel Tape binding
Page - 72
600/1000 V XLPE INSULATED, FLAT STEEL WIRE ARMOURED AND PVC SHEATHED CABLES
XLPE/FSWA/PVC (acc. to IEC 60502-1)
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8

Armoured Cables
Sheath - Black
TWO CORES
1.5 1 / 1.38 1.38 0.7 1.0 0.8 0.3 1.8 14.0 365 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.8 0.3 1.8 14.0 398 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.8 0.3 1.8 14.5 426 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.8 0.3 1.8 15.0 434 7.41
4 1 / 2.26 2.26 0.7 1.0 0.8 0.3 1.8 15.5 502 4.61
4 7 / 0.85 2.55 0.7 1.0 0.8 0.3 1.8 16.0 514 4.61
6 1 / 2.77 2.77 0.7 1.0 0.8 0.3 1.8 16.5 575 3.08
6 7 / 1.04 3.12 0.7 1.0 0.8 0.3 1.8 17.0 598 3.08
10 7 / 1.35 4.05 0.7 1.0 0.8 0.3 1.8 19.0 744 1.83
16 4.7 0.7 1.0 0.8 0.3 1.8 20.5 896 1.15
25 5.9 0.9 1.0 0.8 0.3 1.8 23.5 1187 0.727
35 7.1 0.9 1.0 0.8 0.3 1.8 26.0 1472 0.524
50 8.1 1.0 1.0 0.8 0.3 1.8 28.5 1804 0.387
70 9.7 1.1 1.0 0.8 0.3 1.9 32.0 2328 0.268
95 11.6 1.1 1.2 0.8 0.3 2.0 36.5 3031 0.193
120 12.9 1.2 1.2 0.8 0.3 2.1 39.5 3635 0.153
150 14.3 1.4 1.2 0.8 0.3 2.2 43.5 4381 0.124
185 16.0 1.6 1.4 0.8 0.3 2.4 48.5 5342 0.0991
240 18.3 1.7 1.4 0.8 0.3 2.6 54.0 6724 0.0754
300 20.7 1.8 1.6 0.8 0.3 2.7 60.0 8222 0.0601
400 23.4 2.0 1.6 0.8 0.3 3.0 66.5 10210 0.0470
Page - 73
Compact
round
stranded
Minimum
thickness
of Galv.
Steel tape
mm
Steel wire
Thickness
of Inner
covering
(approx.)
ofCross- Diameter of
Overall Maximum
(approx.)
Conductor
at 20°C
(approx.)
of of
Ω/km
Resistance
Weightdiameter
cable cable
Nominal
Nominal No./ Thickness
Sheath
Thickness
Insulation
of
thickness
of Galv.
Flat
Diameter
Nominal
XLPE/FSWA/PVC (IEC 60502-1)
Conductor Nominal

Armoured Cables
Sheath - Black
THREE CORES
1.5 1 / 1.38 1.38 0.7 1.0 0.8 0.3 1.8 14.5 418 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.8 0.3 1.8 14.5 426 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.8 0.3 1.8 15.0 460 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.8 0.3 1.8 15.5 497 7.41
4 1 / 2.26 2.26 0.7 1.0 0.8 0.3 1.8 16.0 551 4.61
4 7 / 0.85 2.55 0.7 1.0 0.8 0.3 1.8 17.0 593 4.61
6 1 / 2.77 2.77 0.7 1.0 0.8 0.3 1.8 17.5 665 3.08
6 7 / 1.04 3.12 0.7 1.0 0.8 0.3 1.8 18.0 671 3.08
10 7 / 1.35 4.05 0.7 1.0 0.8 0.3 1.8 20.0 884 1.83
16 4.7 0.7 1.0 0.8 0.3 1.8 21.5 1087 1.15
25 5.9 0.9 1.0 0.8 0.3 1.8 25.0 1466 0.727
35 7.1 0.9 1.0 0.8 0.3 1.8 27.5 1841 0.524
50 8.1 1.0 1.0 0.8 0.3 1.8 30.0 2285 0.387
70 9.7 1.1 1.2 0.8 0.3 2.0 34.5 3070 0.268
95 11.6 1.1 1.2 0.8 0.3 2.1 39.0 3989 0.193
120 12.9 1.2 1.2 0.8 0.3 2.2 42.0 4816 0.153
150 14.3 1.4 1.4 0.8 0.3 2.3 46.5 5871 0.124
185 16.0 1.6 1.4 0.8 0.3 2.4 52.0 7162 0.0991
240 18.3 1.7 1.6 0.8 0.3 2.7 58.0 9123 0.0754
300 20.7 1.8 1.6 0.8 0.3 2.8 64.0 11130 0.0601
Page - 74
Compact
Ω/kmmm
(approx.)
mm²
Minimum
thickness
of Galv.
round
stranded
mm mmNo./mm mm mm kg/km
area (approx.) (approx.) (approx.)(approx.) Steel wire Steel tape
Sheath cablecovering Flat
mm mm
cable at 20°C
Thickness thickness
of Inner
Maximum
of of Resistanceof Galv.
diameter Weight Conductor
of
Thickness
Nominal

Armoured Cables
Sheath - Black
FOUR CORES
1.5 1 / 1.38 1.38 0.7 1.0 0.8 0.3 1.8 15.0 446 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.8 0.3 1.8 15.5 483 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.8 0.3 1.8 16.0 532 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.8 0.3 1.8 16.5 544 7.41
4 1 / 2.26 2.26 0.7 1.0 0.8 0.3 1.8 17.0 637 4.61
4 7 / 0.85 2.55 0.7 1.0 0.8 0.3 1.8 18.0 659 4.61
6 1 / 2.77 2.77 0.7 1.0 0.8 0.3 1.8 18.5 645 3.08
6 7 / 1.04 3.12 0.7 1.0 0.8 0.3 1.8 19.0 783 3.08
10 7 / 1.35 4.05 0.7 1.0 0.8 0.3 1.8 21.5 1039 1.83
16 4.7 0.7 1.0 0.8 0.3 1.8 23.0 1295 1.15
25 5.9 0.9 1.0 0.8 0.3 1.8 27.0 1795 0.727
35 7.1 0.9 1.0 0.8 0.3 1.8 30.0 2263 0.524
50 8.1 1.0 1.0 0.8 0.3 1.9 32.5 2830 0.387
70 9.7 1.1 1.2 0.8 0.3 2.1 38.0 3838 0.268
95 11.6 1.1 1.2 0.8 0.3 2.2 42.5 5013 0.193
120 12.9 1.2 1.4 0.8 0.3 2.3 47.0 6144 0.153
150 14.3 1.4 1.4 0.8 0.3 2.5 51.5 7450 0.124
185 16.0 1.6 1.4 0.8 0.3 2.7 57.5 9123 0.0991
240 18.3 1.7 1.6 0.8 0.3 2.9 64.0 11666 0.0754
300 20.7 1.8 1.6 0.8 0.3 3.1 70.5 14268 0.0601
Page - 75
Minimum
thickness
of Galv.
Steel tape
Maximum
Nominal
Conductor Nominal
Thickness thickness
Nominal Overall
Weight Conductor
No./ Diameter Thickness Thickness
of wire Conductor Insulation covering
of Inner of Galv.
mm² No./mm
cable
mm
section
stranded
mm mmmm mm
Compact
Nominal
mm
at 20°CFlat Sheath cable
of of of
diameter
mm Ω/kmkg/km
Resistance
round

Armoured Cables
Inner covering : XLPE Compound
Sheath - Black
FIVE CORES
1.5 1 / 1.38 1.38 0.7 1.0 0.8 0.3 1.8 16.0 508 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.8 0.3 1.8 16.5 520 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.8 0.3 1.8 17.0 601 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.8 0.3 1.8 17.5 615 7.41
4 1 / 2.26 2.26 0.7 1.0 0.8 0.3 1.8 18.5 730 4.61
4 7 / 0.85 2.55 0.7 1.0 0.8 0.3 1.8 19.0 750 4.61
6 1 / 2.77 2.77 0.7 1.0 0.8 0.3 1.8 20.0 875 3.08
6 7 / 1.04 3.12 0.7 1.0 0.8 0.3 1.8 20.5 897 3.08
10 7 / 1.35 4.05 0.7 1.0 0.8 0.3 1.8 23.0 1196 1.83
16 4.7 0.7 1.0 0.8 0.3 1.8 25.0 1512 1.15
25 5.9 0.9 1.0 0.8 0.3 1.8 29.0 2100 0.727
35 7.1 0.9 1.0 0.8 0.3 1.9 32.5 2700 0.524
50 8.1 1.0 1.2 0.8 0.3 2.0 36.0 3432 0.387
Page - 76
round
stranded
Compact
NominalConductor Nominal Nominal Overall Maximum
Steel tape
mm
thickness
kg/km Ω/km
(approx.)
of Galv.
mm² No./mm mm mm mm mm mm mm
area (approx.) (approx.) (approx.) Steel wire (approx.)
of of of Resistance
section of wire Conductor Insulation covering Flat
Thickness thickness Weight Conductor
Cross- Diameter of of of Inner of Galv.
Thickness diameterMinimumNominal No./ Diameter Thickness

600/1000 V XLPE INSULATED, ALUMINIUM TAPE ARMOURED AND PVC SHEATHED CABLES
Constructions :
600/1000 V XLPE INSULATED, STEEL TAPE ARMOURED AND PVC SHEATHED CABLES
Constructions :
up to request)
Page - 77
Armoured Cables
XLPE/DATA/PVC (acc. to IEC 60502-1)
Double Aluminium Tape armour
XLPE/DSTA/PVC (acc. to IEC 60502-1)
Double Galvanized Steel Tape armour
11
2
3
5
4
6
7
2
3
4
5
6
7
1
2
3
4
5
1
2
3
4
5

600/1000 V XLPE INSULATED, ALUMINIUM TAPE ARMOURED AND PVC SHEATHED CABLES
XLPE/DATA/PVC (IEC 60502-1)
Armour
Sheath - Black
SINGLE CORE
Conductor Nominal Nominal Nominal Overall Maximum
Nominal No./ Diameter Thickness Thickness Thickness Thickness diameter Weight Conductor
Cross- Diameter of of of Inner of of of of Resistance
area (approx.) (approx.) (approx.) tape (approx.) (approx.)
16 4.7 0.7 1.0 0.5 1.8 13.5 335 1.15
25 5.9 0.9 1.0 0.5 1.8 15.0 455 0.73
35 7.1 0.9 1.0 0.5 1.8 16.5 570 0.52
50 Compact 8.1 1.0 1.0 0.5 1.8 17.5 705 0.39
70 round 9.7 1.1 1.0 0.5 1.8 19.5 930 0.27
95 stranded 11.6 1.1 1.0 0.5 1.8 21.5 1210 0.19
120 12.9 1.2 1.0 0.5 1.8 23.0 1470 0.15
150 14.3 1.4 1.0 0.5 1.8 24.5 1760 0.12
185 16.0 1.6 1.0 0.5 1.8 27.0 2155 0.1
240 18.3 1.7 1.0 0.5 1.8 29.5 2735 0.08
300 20.7 1.8 1.0 0.5 1.9 32.0 3365 0.06
400 23.4 2.0 1.2 0.5 2.0 35.5 4240 0.0470
500 26.5 2.2 1.2 0.5 2.1 39.5 5350 0.04
630 30.3 2.4 1.2 0.5 2.3 44.0 6670 0.03
Page - 78
Armoured Cables
Uo/U - 600/1000 V
: Double Aluminium tape
Colour Ident.
Aluminium
W/km

Armoured Cables
(to IEC 60228 class 2) Uo/U - 600/1000 V
Sheath - Black
TWO CORES
1.5 1 / 1.38 1.38 0.7 1.0 0.2 1.8 12.5 220 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.2 1.8 13.0 230 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.2 1.8 13.0 258 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.2 1.8 13.5 268 7.41
4 1 / 2.26 2.26 0.7 1.0 0.2 1.8 14.0 312 4.61
4 7 / 0.85 2.55 0.7 1.0 0.2 1.8 15.0 326 4.61
6 1 / 2.77 2.77 0.7 1.0 0.2 1.8 15.0 372 3.08
6 7 / 1.04 3.12 0.7 1.0 0.2 1.8 16.0 387 3.08
10 7 / 1.35 4.05 0.7 1.0 0.2 1.8 18.0 514 1.83
16 4.7 0.7 1.0 0.2 1.8 19.0 643 1.15
25 5.9 0.9 1.0 0.2 1.8 23.0 893 0.727
35 7.1 0.9 1.0 0.2 1.8 24.5 1134 0.524
50 8.1 1.0 1.0 0.2 1.8 27.0 1422 0.387
70 9.7 1.1 1.0 0.2 1.9 30.5 1905 0.268
95 11.6 1.1 1.2 0.2 2.0 35.0 2544 0.193
120 12.9 1.2 1.2 0.5 2.1 39.5 3505 0.153
150 14.3 1.4 1.4 0.5 2.3 43.5 4245 0.124
185 15.9 1.6 1.4 0.5 2.4 48.5 5180 0.0991
240 18.3 1.7 1.6 0.5 2.6 54.0 6530 0.0754
300 20.7 1.8 1.6 0.5 2.7 59.5 8004 0.0601
XLPE/DSTA/PVC (IEC 60502-1)
Thickness
Sheath
Weightdiameter
(approx.)
Ω/km
Resistance
Overall Maximum
(approx.)
Insulation
Conductor
Cross- Diameter of of of of of
mm² No./mm mm
mm mm mm kg/kmmmmm
Compact
round
stranded
Nominal
thickness
of
Steel tape
Thickness
of Inner
covering
(approx.)
Page - 79

Armoured Cables
(to IEC 60228 class 2) Uo/U - 600/1000 V
Sheath - Black
THREE CORES
1.5 1 / 1.58 1.58 0.7 1.0 0.2 1.8 13.0 249 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.2 1.8 13.5 259 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.2 1.8 13.5 294 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.2 1.8 14.0 307 7.41
4 1 / 2.26 2.26 0.7 1.0 0.2 1.8 15.0 263 4.61
4 7 / 0.85 2.55 0.7 1.0 0.2 1.8 15.5 381 4.61
6 1 / 2.77 2.77 0.7 1.0 0.2 1.8 16.0 445 3.08
6 7 / 1.04 3.12 0.7 1.0 0.2 1.8 16.5 463 3.08
10 7 / 1.35 4.05 0.7 1.0 0.2 1.8 18.5 630 1.83
16 4.7 0.7 1.0 0.2 1.8 20.0 812 1.15
25 5.9 0.9 1.0 0.2 1.8 23.5 1150 0.727
35 7.1 0.9 1.0 0.2 1.8 26.0 1481 0.524
50 8.1 1.0 1.0 0.2 1.8 28.5 1882 0.387
70 9.7 1.1 1.2 0.2 1.9 33.0 2588 0.268
95 11.6 1.1 1.2 0.2 2.1 37.5 3456 0.193
120 12.9 1.2 1.2 0.5 2.2 42.0 4669 0.153
150 14.3 1.4 1.4 0.5 2.4 46.5 5708 0.124
185 15.9 1.6 1.4 0.5 2.5 51.5 6965 0.0991
240 18.3 1.7 1.6 0.5 2.7 58.0 8905 0.0754
300 20.7 1.8 1.6 0.5 2.9 64.0 10919 0.0601
Weight Conductor
Nominal No./ Diameter Thickness Thickness diameter
Maximum
cable at 20°C
(approx.) (approx.)
Sheath cablecovering of
(approx.) Steel tape (approx.)
area (approx.)
Ω/km
Compact
round
stranded
mm mm
of Inner thickness
Page - 80
Thickness Nominal

Armoured Cables
(to IEC 60228 class 2) Uo/U - 600/1000 V
Sheath - Black
FOUR CORES
1.5 1 / 1.38 1.38 0.7 1.0 0.2 1.8 13.5 280 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.2 1.8 14.0 293 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.2 1.8 14.5 343 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.2 1.8 15.0 357 7.41
4 1 / 2.26 2.26 0.7 1.0 0.2 1.8 16.0 426 4.61
4 7 / 0.85 2.55 0.7 1.0 0.2 1.8 16.5 446 4.61
6 1 / 2.77 2.77 0.7 1.0 0.2 1.8 17.0 531 3.08
6 7 / 1.04 3.12 0.7 1.0 0.2 1.8 17.5 552 3.08
10 7 / 1.35 4.05 0.7 1.0 0.2 1.8 20.0 764 1.83
16 4.7 0.7 1.0 0.2 1.8 21.5 999 1.15
25 5.9 0.9 1.0 0.2 1.8 25.5 1434 0.727
35 7.1 0.9 1.0 0.2 1.8 28.5 1859 0.524
50 8.1 1.0 1.0 0.2 1.9 31.5 2383 0.387
70 9.7 1.1 1.2 0.2 2.0 36.0 3311 0.268
95 11.6 1.1 1.2 0.5 2.2 42.5 4872 0.193
120 12.9 1.2 1.4 0.5 2.4 46.5 5983 0.153
150 14.3 1.4 1.4 0.5 2.5 51.0 7274 0.124
185 15.9 1.6 1.4 0.5 2.7 57.0 8922 0.0991
240 18.3 1.7 1.6 0.5 2.9 64.0 11427 0.0754
300 20.7 1.8 1.6 0.5 3.1 70.5 14015 0.0601
Ω/km
Compact
round
stranded
mm mm
(approx.)
Sheath cable
(approx.) Steel tape
cable at 20°Csection of wire Conductor Insulation covering of
Weight Conductor
Nominal No./ Diameter Thickness Thickness diameter
Page - 81
Thickness Nominal
of Inner thickness

Armoured Cables
(to IEC 60228 class 2) Uo/U - 600/1000 V
Sheath - Black
FIVE CORES
1.5 1 / 1.38 1.38 0.7 1.0 0.2 1.8 14.5 319 12.1
1.5 7 / 0.52 1.56 0.7 1.0 0.2 1.8 15.0 333 12.1
2.5 1 / 1.78 1.78 0.7 1.0 0.2 1.8 15.5 390 7.41
2.5 7 / 0.67 2.01 0.7 1.0 0.2 1.8 16.0 405 7.41
4 1 / 2.26 2.26 0.7 1.0 0.2 1.8 17.0 496 4.61
4 7 / 0.85 2.55 0.7 1.0 0.2 1.8 17.5 520 4.61
6 1 / 2.77 2.77 0.7 1.0 0.2 1.8 18.5 620 3.08
6 7 / 1.04 3.12 0.7 1.0 0.2 1.8 19.0 645 3.08
10 7 / 1.35 4.05 0.7 1.0 0.2 1.8 22.0 900 1.83
16 4.7 0.7 1.0 0.2 1.8 23.5 1196 1.15
25 5.9 0.9 1.0 0.2 1.8 27.5 1720 0.727
35 7.1 0.9 1.0 0.2 1.9 31.0 2252 0.524
50 8.1 1.0 1.2 0.2 2.0 35.0 2946 0.387
stranded
kg/km Ω/km
round
mm mm
(approx.)
mm mm
Compact
mm² No./mm mm mm
area (approx.) (approx.) (approx.) Steel tape (approx.)
of of of Resistance
section of wire Conductor Insulation covering of
Cross- Diameter of of of Inner thickness
Nominal No./ Diameter Thickness Thickness Nominal
Page - 82

CURRENT CARRYING CAPACITY FOR SINGLE CORE XLPE INSULATED CABLE
Current Carrying Capacity DC Alternating Minimum Conductor
Conductor In Air ( 30°C ) Conductor Current Insulation Short
Nominal Flat Trefoil Trefoil Resistance resistance Nominal Resistance circuit
Area at 20°C at 90°C / Trefoil Flat Trefoil Flat Capacitance at 20°C current /
50 Hz
core to core core to core 1 sec
mm² A A A Ω / km Ω / km Ω / km Ω / km M Ω. km
1.5 re/rm 22 21 22 12.1 15.4 0.1459 0.1603 0.4646 0.5108 0.0520 3000 0.215
2.5 re/rm 30 29 29 7.41 9.45 0.1339 0.1484 0.4264 0.4726 0.0571 2500 0.358
4 re/rm 42 40 37 4.61 5.88 0.1244 0.1391 0.3962 0.4424 0.0621 2000 0.572
6 re/rm 55 53 46 3.08 3.93 0.1160 0.1305 0.3693 0.4155 0.0665 2000 0.858
10 re/rm 77 74 61 1.83 2.34 0.1072 0.1217 0.3416 0.3878 0.0721 1500 1.430
16 cm 105 101 79 1.15 1.47 0.1028 0.1172 0.3264 0.3726 0.0751 1500 2.288
25 cm 141 135 101 0.73 0.93 0.0984 0.1130 0.3124 0.3586 0.0752 1500 3.575
35 cm 176 169 122 0.52 0.67 0.0932 0.1077 0.2967 0.3429 0.0789 1000 5.005
50 cm 216 207 144 0.39 0.49 0.0911 0.1056 0.2890 0.3353 0.0796 1000 7.150
70 cm 279 268 178 0.27 0.34 0.0875 0.1023 0.2778 0.3240 0.0815 900 10.01
95 cm 342 328 211 0.19 0.25 0.0845 0.0991 0.2674 0.3136 0.0848 800 13.59
120 cm 400 383 240 0.15 0.2 0.0827 0.0974 0.2629 0.3091 0.0853 800 17.16
150 cm 464 444 271 0.12 0.16 0.0829 0.0975 0.2626 0.3088 0.0846 800 21.45
185 cm 533 510 304 0.1 0.127 0.0830 0.0976 0.2612 0.3074 0.0833 900 26.46
240 cm 634 607 351 0.08 0.1 0.0814 0.0960 0.2565 0.3028 0.0848 800 34.32
300 cm 736 703 396 0.06 0.08 0.0799 0.0944 0.2526 0.2988 0.0860 800 42.90
400 cm 868 823 464 0.0470 0.06 0.0728 0.0874 0.2500 0.2962 0.0865 700 57.20
500 cm 998 946 525 0.04 0.05 0.0777 0.0923 0.2471 0.2933 0.0871 700 71.50
630 cm 1151 1088 596 0.03 0.04 0.0770 0.0916 0.2447 0.2909 0.0880 700 90.09
800 cm 1328 1252 679 0.02 0.0310 0.0763 0.0908 0.2425 0.2887 0.0883 700 114.40
1000 rm 1511 1420 767 0.02 0.03 0.0743 0.0889 0.2363 0.2825 0.0902 600 143.00
Note : re : Round solid conductor IEC 60228 class 1 Underground : Thermal resistivity of soil
rm : Circular stranded conductor IEC 60228 class 2 Depth of laying : 80 cm capacity for : in cable ducting, in cables conduit, cables direct in the -
cm : Circular stranded compacted conductor IEC 60228 class 2 Base temperature : 20°C ground with / without added protection against mechanical damage
Reactance2)
(50 Hz) Inductance2)
(50 Hz)
In Ground 1)
mH / km mH / km μF / km kA
: 2.5 K.m / W Note : 1)
Reference methode of installation to be used to obtain current carrying
2)
The Inductance calculated for non armour cable.
Section4-GeneralInformation
Page-83

DC Alternating Minimum Conductor
Conductor Current Insulation Short
Resistance resistance Nominal Resistance circuit
2 3 / 4 * 2 3 / 4 * at 20°C at 90°C / 2 / 3 4 2 / 3 4 Capacitance at 20°C current /
Nominal
Area
CURRENT CARRYING CAPACITY FOR MULTICORE XLPE INSULATED CABLE
Current Carrying Capacity
Reactance (50 Hz) Inductance (50 Hz)
Conductor In Air ( 30°C ) Underground, Direct burial
Page-84
Core Core Core Core 50 Hz Core Core Core Core core to core core to core 1 sec
A A A A Ω / km Ω / km Ω / km Ω / km mH / km mH / km µF / km M Ω. km kA
1.5 re/rm 26 23 26 22 12.1 15.4 0.0999 0.1125 0.3181 0.2498 0.0520 3000 0.215
2.5 re/rm 36 32 34 29 7.41 9.45 0.0961 0.1086 0.3057 0.2325 0.0571 2500 0.358
4 re/rm 49 42 44 37 4.61 5.88 0.0899 0.1025 0.2860 0.2128 0.0621 2000 0.572
6 re/rm 63 54 56 46 3.08 3.93 0.0853 0.0980 0.2714 0.1982 0.0665 2000 0.858
10 re/rm 86 75 73 61 1.83 2.34 0.0802 0.0930 0.2552 0.1819 0.0721 1500 1.430
16 cm 115 100 95 79 1.15 1.47 0.0781 0.0910 0.2485 0.1752 0.0751 1500 2.288
25 cm 149 127 121 101 0.727 0.927 0.0779 0.0908 0.2480 0.1748 0.0752 1500 3.575
35 cm 185 158 146 122 0.524 0.669 0.0753 0.0883 0.2397 0.1664 0.0789 1000 5.005
50 cm 225 192 173 144 0.387 0.494 0.0748 0.0877 0.2379 0.1646 0.0796 1000 7.150
70 cm 289 246 213 178 0.268 0.343 0.0734 0.0864 0.2335 0.1602 0.0815 900 10.01
95 cm 352 298 252 211 0.193 0.247 0.0711 0.0842 0.2262 0.1530 0.0848 800 13.59
mm²
120 cm 410 346 287 240 0.153 0.197 0.0708 0.0839 0.2254 0.1521 0.0853 800 17.16
150 cm 473 399 324 271 0.124 0.160 0.0712 0.0843 0.2267 0.1534 0.0846 800 21.45
185 cm 542 456 363 304 0.0991 0.128 0.0720 0.0851 0.2292 0.1559 0.0833 900 26.46
240 cm 641 538 419 351 0.0754 0.0984 0.0711 0.0842 0.2264 0.1531 0.0848 800 34.32
300 cm 741 621 474 396 0.0601 0.0799 0.0704 0.0835 0.2240 0.1507 0.0860 800 42.90
400 cm 892 745 555 464 0.0470 0.0633 0.0701 0.0832 0.2231 0.1498 0.0865 700 57.20
Note : re : Round solid conductor IEC 60228 class 1 Thermal resistivity of soil : 2.5 K.m / W 4* : 3 Phasa + Netral / Ground
rm : Circular stranded conductor IEC 60228 class 2 Depth of laying : 80 cm
cm : Circular stranded compacted conductor IEC 60228 class 2 Base temperature : 20°C
Underground :
Section4
Page

CURRENT CARRYING CAPACITY FOR SINGLE CORE PVC INSULATED CABLE
Current Carrying Capacity DC Alternating Minimum Conductor
Conductor In Air ( 30°C ) Conductor Current Insulation Short
Nominal Flat Trefoil Trefoil Resistance resistance Nominal Resistance circuit
Area at 20°C at 70°C / Trefoil Flat Trefoil Flat Capacitance at 20°C current /
50 Hz
mm² A A A Ω / km Ω / km Ω / km Ω / km M Ω. km kA
1.5 re/rm 18 17.5 18.5 12.1 14.5 0.1476 0.1735 0.4697 0.5159 0.1391 50 0.174
2.5 re/rm 25 24 24 7.41 8.87 0.1359 0.1621 0.4327 0.4789 0.1531 50 0.290
4 re/rm 34 33 31 4.61 5.52 0.1291 0.1555 0.4110 0.4572 0.1553 50 0.464
6 re/rm 45 43 39 3.08 3.69 0.1209 0.1475 0.3848 0.4310 0.1671 50 0.696
10 re/rm 63 60 52 1.83 2.19 0.1112 0.1381 0.3538 0.4000 0.1827 50 1.160
16 rm 85 82 67 1.15 1.38 0.1034 0.1307 0.3292 0.3754 0.1966 40 1.856
25 rm 114 110 86 0.73 0.870 0.0988 0.1263 0.3145 0.3607 0.2001 40 2.900
35 rm 143 137 103 0.52 0.627 0.0941 0.1218 0.2995 0.3457 0.2100 40 4.060
50 rm 174 167 122 0.39 0.463 0.0909 0.1188 0.2895 0.3357 0.2127 30 5.800
70 rm 225 216 151 0.27 0.321 0.0869 0.1150 0.2767 0.3229 0.2223 30 8.120
95 rm 275 264 179 0.19 0.232 0.0864 0.1145 0.2749 0.3212 0.2205 30 11.02
120 rm 321 308 203 0.15 0.184 0.0838 0.1121 0.2669 0.3131 0.2270 30 13.92
150 rm 372 356 230 0.12 0.150 0.0833 0.1116 0.2651 0.3113 0.2274 20 17.40
185 rm 427 409 258 0.1 0.120 0.0828 0.1111 0.2634 0.3096 0.2279 20 21.46
240 rm 507 485 297 0.08 0.09 0.0814 0.1098 0.2592 0.3054 0.2308 20 27.84
300 rm 587 561 336 0.06 0.07 0.0807 0.1091 0.2567 0.3029 0.2323 20 34.80
400 rm 689 656 394 0.0470 0.06 0.0799 0.1084 0.2543 0.3005 0.2387 20 46.40
500 rm 789 749 445 0.04 0.05 0.0790 0.1075 0.2513 0.2975 0.2355 20 58.00
630 rm 905 855 506 0.03 0.04 0.0773 0.1059 0.2459 0.2921 0.2416 20 73.08
800 rm 1037 971 577 0.02 0.0334 0.0756 0.1044 0.2406 0.2868 0.2476 20 92.80
1000 rm 1167 1079 652 0.02 0.0290 0.0750 0.1038 0.2386 0.2848 0.2500 20 116.00
Note : re : Round solid conductor IEC 60228 class 1 Underground : Thermal resistivity of soil
rm : Circular stranded conductor IEC 60228 class 2 Depth of laying : 80 cm capacity for : in cable ducting, in cables conduit, cables direct in the -
Base temperature : 20°C ground with / without added protection against mechanical damage
Reactance2)
(50 Hz) Inductance 2)
(50 Hz)
In Ground 1)
mH / km mH / km μF / km
: 2.5 K.m / W Note : 1)
Reference methode of installation to be used to obtain current carrying
2)
The Inductance calculated for non armour cable.
Page-85

DC Alternating Minimum Conductor
Conductor Current Insulation Short
Resistance resistance Nominal Resistance circuit
2 3 / 4 * 2 3 / 4 * at 20°C at 70°C / 2 / 3 4 2 / 3 4 Capacitance at 20°C current /
Reactance (50 Hz) Inductance (50 Hz)
In Air ( 30°C ) Underground, Direct burial
CURRENT CARRYING CAPACITY FOR MULTICORE PVC INSULATED CABLE
Current Carrying Capacity
Nominal
Area
Conductor
Page-86
Core Core Core Core 50 Hz Core Core Core Core core to core core to core 1 sec
A A A A Ω / km Ω / km Ω / km Ω / km mH / km mH / km µF / km M Ω. km kA
1.5 re/rm 22 18.5 22 18 12.1 14.5 0.1075 0.1199 0.3421 0.2688 0.1391 50 0.174
2.5 re/rm 30 25 29 24 7.41 8.87 0.0994 0.1120 0.3165 0.2433 0.1531 50 0.290
4 re/rm 40 34 38 31 4.61 5.52 0.0983 0.1109 0.3130 0.2398 0.1553 50 0.464
6 re/rm 51 43 47 39 3.08 3.69 0.0928 0.1054 0.2954 0.2221 0.1671 50 0.696
10 re/rm 70 60 63 52 1.83 2.19 0.0865 0.0993 0.2754 0.2021 0.1827 50 1.160
16 rm 94 80 81 67 1.15 1.38 0.0818 0.0946 0.2604 0.1871 0.1966 40 1.856
25 rm 119 101 104 86 0.727 0.870 0.0807 0.0936 0.2569 0.1836 0.2001 40 2.900
35 rm 148 126 125 103 0.524 0.627 0.0778 0.0907 0.2478 0.1745 0.2100 40 4.060
50 rm/sm 180 153 148 122 0.387 0.464 0.0822 0.0950 0.2617 0.1884 0.2127 30 5.800
70 rm/sm 232 196 183 151 0.268 0.321 0.0789 0.0917 0.2510 0.1777 0.2223 30 8.120
95 rm/sm 282 238 216 179 0.193 0.232 0.0791 0.0920 0.2518 0.1785 0.2205 30 11.020
120 rm/sm 328 276 246 203 0.153 0.184 0.0772 0.0901 0.2457 0.1724 0.2270 30 13.920
mm²
120 rm/sm 328 276 246 203 0.153 0.184 0.0772 0.0901 0.2457 0.1724 0.2270 30 13.920
150 rm/sm 379 319 278 230 0.124 0.150 0.0775 0.0904 0.2466 0.1733 0.2274 20 17.400
185 rm/sm 434 364 312 258 0.0991 0.120 0.0769 0.0898 0.2447 0.1714 0.2279 20 21.460
240 rm/sm 514 430 361 297 0.0754 0.0926 0.0759 0.0889 0.2417 0.1684 0.2308 20 27.840
300 rm/sm 593 497 408 336 0.0601 0.0749 0.0756 0.0886 0.2407 0.1674 0.2323 20 34.80
Note : re : Round solid conductor IEC 60228 class 1 Thermal resistivity of soil : 2.5 K.m / W 4* : 3 Phasa + Netral / Ground
rm : Circular stranded conductor IEC 60228 class 2 Depth of laying : 80 cm
sm : Sector shape stranded conductor IEC 60228 class 2 Base temperature : 20°C
Underground :

Rating factor relating to open air temperature
Air temperature°C 10 15 20 25 30 35 40 45 50 55 60 65 70 80
PVC Insulation 1.22 1.17 1.12 1.06 1.00 0.94 0.87 0.79 0.71 0.61 0.50 - - -
XLPE Insulation 1.15 1.12 1.08 1.04 1.00 0.96 0.91 0.87 0.82 0.76 0.71 0.65 0.58 0.41
Rating factor relating to Ground temperature
Ground temp °C 10 15 20 25 30 35 40 45 50 55 60 65 70 80
PVC Insulation 1.10 1.05 1.00 0.95 0.89 0.84 0.77 0.71 0.63 0.55 0.45 - - -
XLPE Insulation 1.07 1.04 1.00 0.96 0.93 0.89 0.85 0.80 0.76 0.71 0.65 0.60 0.53 0.38
1 1.5 2 2.5 3
Rating factors 1.18 1.1 1.05 1.00 0.96
Number of core
Rating factor based on 3 core cable for size 1.5 ~ 10 mm²
Under ground In Air
5 0.70 0.75
7 0.60 0.65
10 0.50 0.55
14 0.45 0.50
19 0.40 0.45
24 0.35 0.40
40 0.30 0.35
61 0.25 0.30
Correction factor of Curent carrying capacity
Rating factor relating to themal ground resistivity
Thermal Resistivity of soil K.m / W
Page-87

Section 4 - General Information
to be applied to reference ratings for multi-core cables in free air
Method of installation
Number Number of cables
of trays 1 2 3 4 6 9
1 1.00 0.88 0.82 0.79 0.76 0.73
2 1.00 0.87 0.80 0.77 0.73 0.68
3 1.00 0.86 0.79 0.76 0.71 0.66
Perforated trays
(note 2)
1 1.00 1.00 0.98 0.95 0.91 -
2 1.00 0.99 0.96 0.92 0.87 -
3 1.00 0.98 0.95 0.91 0.85 -
1 1.00 0.88 0.82 0.78 0.73 0.72
2 1.00 0.88 0.81 0.76 0.71 0.70
Vertical
Perforated
trays
(note 3)
1 1.00 0.91 0.89 0.88 0.87 -
2 1.00 0.91 0.88 0.87 0.85 -
1 1.00 0.87 0.82 0.80 0.79 0.78
2 1.00 0.86 0.80 0.78 0.76 0.73
Ladder 3 1.00 0.85 0.79 0.76 0.73 0.70
supports,
cleats, etc.
(note 2) 1 1.00 1.00 1.00 1.00 1.00 -
2 1.00 0.99 0.98 0.97 0.96 -
3 1.00 0.98 0.97 0.96 0.93 -
Factors apply to single layer groups of cables as shown above and do not apply when cables are installed in more than one layer touching each other.
Values for such installations may be significantly lower and shall be determined by an appropriate method.
NOTE 1
NOTE 2 Values are given for vertical a spacing between trays of 300 mm and at least 20 mm between trays and wall. For closer spacing the factors
should be reduced.
NOTE 3 Values are given for horizontal spacing between trays of 225 mm with trays mounted back to back. For closer spacing the factors should be
reduced.
Page - 88
Reduction factors for group of more than one multi-core cable (note 1)
Values given are averages for the cable types and range of conductor sizes considered. The spread of values is generally less than ± 5 %.
Touching
Spaced
20 mm
20 mm
Touching
Spaced
Touching
Spaced
20 mm
20 mm
225 mm
225 mm
D
D
D

to be applied to reference rating for one circuit of single-core cables in free air
Method of installation
Number of Use as a multiplier to
trays 1 2 3 rating for
Perforated 1 0.98 0.91 0.87 Three cables in
trays 2 0.96 0.87 0.81 horizontal
(Note 3) 3 0.95 0.85 0.78 formation
Vertically
Perforated 1 0.96 0.86 - Three cables
trays
(note 4) 2 0.95 0.84 - formation
Ladder 1 1.00 0.97 0.96 Three cables in
supports,cleats etc. 2 0.98 0.93 0.89 horizontal
(Note 3) 3 0.97 0.90 0.86 formation
Perforated 1 1.00 0.98 0.96
trays 2 0.97 0.93 0.89
(Note 3) 3 0.96 0.92 0.86
Vertical 1 1.00 0.91 0.89 Three cables in
perforated trays trefoil
(Note 4) 2 1.00 0.90 0.86 formation
Ladder 1 1.00 1.00 1.00
supports,cleats etc. 2 0.97 0.95 0.93
(Note 3) 3 0.96 0.94 0.90
NOTE 1
NOTE 2 For circuits having more than one cable in parallel per phase, each three phase set of conductors should be considered as a circuit for the
purpose of this table
NOTE 3
NOTE 4 Values are given for horizontal spacings between trays of 225 mm with trays mounted back to back and at least 20 mm between the tray
and any wall. For closer spacing the factors should be reduced.
Page - 89
Reduction factors for groups of more than one circuit of single-core cables (Note 1)
in vertcal
Value given are averages for the cable types and range of conductor sizes considered. The spread of values is generally less than ± 5 %.
Values are given for vertical spacings between trays of 300 mm.For closer spacing the factors should be reduced.
Touching
20 mm
Spaced
Touching
20 mm
20 mm
2 D
225 mm
2 D
20 mm
2 D
Touching
225 mm
D
D
D

PERMISSIBLE PULLING TENSION
Pulling equipment Permissible pulling tension (kg)
PULLING EYE 7 x (Number of core) x (Cross section area of conductor)
CABLE NET About 500 kg, but the maximum tension shall not be more than one of
conductor (same calculation as using PULLING EYE)
Pulling equipment Permissible pulling tension (kg)
PULLING EYE 4 x (Number of core) x (Cross section area of conductor)
CABLE NET About 500 kg, but the maximum tension shall not be more than one of
conductor (same calculation as using PULLING EYE)
Note) Cable net shall be covered more than 500 mm in length
MINIMUM BENDING RADIUS D : Diameter of cable
Type of cable
Minimum bending radius
Single core cable
Multi Core Cable
Round / Compacted Conductor Sector conductor
Medium Voltage Cable 10D 12D 8D
Reference data on other types of POWER cables
Type of cable
Single core cable
Multi core cableRound/Compacted
Sector conductor
conductor
10D 12D 8D
8D 12D 6D
Triplex type cable ( CVT etc ) - - 8D
Wire armored cable ( XLPE/SWA/PVC etc) 10D 12D 10D
Tape armored cable (XLPE/DSTA/PVC etc) 10D 12D 10D
Flat tape armored (XLPE/FSWA/PVC etc) 10D 12D 10D
Reference data on other types of INSTRUMENT cables
Type of cable
Multi core cable
Non shield cable ( XLPE/PVC etc ) 6D
6D AL mylar tape
PERMISSIBLE SIDE WALL PRESSURE
Side wall pressure (T1) can be calculated with below formula.
T1 = Pulling tension (T) / Bending radius (r)
CALCULATION OF CABLE PULLING TENSION DURING INSTALLATION
The cable pulling tension (T2) during installation can be calculated with below formula.
1) Horizontal straight part : W : Weight of cable (kg/m)
2) Horizontal curve part : L : Length of cable with straight part (m)
: Angle of curve part (rad)
: Friction factor Friction factor T2 : Pulling tension (kg)
on pulley 0.2 T3 : Pulling tension before curve part (kg)
underground 0.2 - 0.3 T4 : Pulling tension after curve part (kg)
in pipe 0.5 - 0.7
Page - 90
Reference data on Aluminium conductor
Sheild cable ( XLPE/PVC-S etc )
Non Sheild cable ( XLPE/PVC etc )
Note) Sheild tape shall be
Sheild cable (XLPE/PVC-S etc)
300kg/m is suggested as permissible side wall pressure to the cable during installation.
θ
µ
T kg
r
LWT **2
eTT *43

Fire Performance Tests
Flame Propagation Tests
IEC 60332-1
Part 1 - Test on a single vertical insulated wire or cable
This is a relatively simple method for providing adequate indication of the flame-retardant characteristics of a single cable.
A 600 mm long cable sample is verticatlly suspended, placed in the middle of a three-sided metal screen.
This is subjected to the regulated flame of one (up to a cable diameter of 50 mm) or two (above 50 mm diameter) gas burners at an
angle of 45° to the cable. The flame is applied for a continuous time calculated according to an increasing with the cable weight
(from around 1-minute for a small control cable to about 7 minutes for a 4 core 300 mm² power cable). The test is passed if the cable
has self-extinguished and the charred or flame affected portion of the cable has not reached the top of the sample.
IEC 60332-3
Part 3 - Test on bunched wire or cables
This test was developed to obtain a method to determine the flame propagation characteristics of bunched cables.
It can not be assumed that because a single vertical cable complies with the requirements of IEC 60332 part 1 it will also behave in
a similar manner when bunched with others cables.
The propagation of a flame along a bunch of cables depends on a number of features, such as :
The volume of combustible material exposed to the fire
The geometrical configuration of the cables
The temperature at which it is possible to ignite any gases emitted from the cables
The quantity of combustible gas released from the cables
The volume of air passing through the cable installation
The test consists of a vertical chamber, 1 x 2 x 4 m. Openings air inlet and outlet are provided in the base and the top of the test
chamber for a controlled air flow rate during the test. The cable samples to be tested are 3.5 m long and fixed to a steel ladder mounted
150 mm from the rear wall vertically with the test chamber. The number of lengths of cables in the test depends on the test categoty
based on the volume of combustible material.
Test Category Volume of combustible material Time of flame application
A 7 litres / m 40 Minutes
B 3.5 litres / m 40 Minutes
C 1.5 litres / m 20 Minutes
A ribbon gas burner of a set size and heat flow rate, operating at 800°C is mounted horizontally in front of the cable samples at a set
distance and height. The test is passed if the charred or affected portion of the samples have not reached a height exceeding 2.5 m
above the bottom edge of the burner.
IEC 60331 - 21 (1999)
Fire resisting characteristics of electric cables Circuit Integrity Test
This test determines the circuit integrity of a cable during and after a prolonged fire :
A horizontally suspended sample 1200 mm long is placed 75 mm above a 610 mm long ribbon type gas burner, the flame temperature
of which is regulated to 750°C. The conductors of the sample are connected to an AC voltage source, at the operating voltage, via fuses.
The flame and test voltage shall be applied continuously for a period of 90 min. 12 hours after the flame has been extinguished the cable
is energised again.
The test is passed if no failure of any of the fuses occurs.
Page - 91
1

Page - 92
NOTES

ABB (www.abb.com) is a leader in power and automation technologies that
enable utility and industry customers to improve their performance while lowering
environmental impact. The ABB Group of companies operates in around 100 countries
and employs about 109.000 people.
Making you more competitive
ABB has been manufacturing high quality electric motors and generators for more
than 100 years. Motors for hazardous areas represent one of its special areas of
focus. Working together with major companies in the oil and gas, petrochemical and
chemical industries, ABB has developed a comprehensive range of products that
offer safety, reliability and energy efﬁciency.
The regulatory situation where customers operate, is complex and constantly
changing, with the latest developments including the newest European and
US standards. ABB not only ensures the relevant regulations but in many
cases surpass them.

General information 4
Low voltage Technical speciﬁcation 13
Low voltage
Flameproof motors Ex d - Ex de 35
Low voltage
Increased safety motors Ex e 65
Low voltage Process performance
Non-sparking motors Ex nA 97
Low voltage General purpose
Non-sparking motors Ex nA 119
Low voltage Dust ignition proof
motors DIP/Ex tD 143
High voltage Non-sparking Ex nA and
Dust ignition proof motors DIP/Ex tD 199
Contents Page
1
2
3
4
5
6
7
8
Motors for Hazardous Areas
Low voltage, sizes 71 to 450, from 0.25 to 1000 kW
High voltage, sizes 315 to 710, from 110 to 4500 kW
ABB reserves the right to change the design,
technical speciﬁcation and dimensions
without prior notice.
ABB / Cat. BU/Ex-motors EN 01-2008 3
1
2
3
4
5
6
7
8

4 ABB / Cat. BU/Ex-motors EN 01-2008
1
M000167
ATEX Directives and
International Standards
ATEX Directives 94/9/EC (“95”) and 1999/92/EC (“137”)
ATEX Directives harmonize the safety rules in respect
with the free trading principles of the European Com-
munity.
The responsibilities are split in two areas between the
manufacturers and the end users. The manufacturers
have to comply with the ‘Essential Health and Safety
Requirements’ of the Products Directive 94/9/EC, or
ATEX 95; and the end users must proceed to make an
Explosion Protection Document based on risks assess-
ment of their ‘work places’ and ‘work equipment’ to fulfil
the ‘minimum requirements’ listed in the Worker Protec-
tion Directive 1999/92/EC or ATEX 137.
Motors comply fully with the ATEX product directive
94/9/EC.
According to the requlations, low voltage motors for
hazardous areas are exempted from the Low Voltage
Directive, the EMC directive as well as the Machinery
Directive.
IEC and the corresponding EN Standards are at the
moment in a new process of renewal or revision. In
general old and new standard or revision are both in
parallel valid for about 3 years. This affects mostly the
marking of the motor, occasionally also new technical
requirements are introduced.
IECEx Scheme
The IECEx Scheme is an International Certification
Scheme covering both apparatus and services for explo-
sive atmospheres, as the internationally accepted means
of demonstrating claimed compliance with IEC standards.
It comprises the following two international programs:
- IECEx Certified Equipment Program, covering Ex
products
- IECEx Certified Service Facilities Program covering
Ex Repair and Overhaul Workshops
It is a voluntary scheme which provide confidence that
products and services covered by an IECEx certificate
meet the specified requirements related to the hazard-
ous area concerned (included Zone 2 / 22) as the inter-
nationally accepted means of demonstrating claimed
compliance with an IEC Standard.
The management of this Scheme include Certification
Bodies of 26 countries around the world (experts,
manufacturers, end users, regulators).
For more information please visit www.iecex.com.
ABB is relying on the IECEx Scheme and a large range
of Ex motors are tested and certified according to this.
ABB refers to recently updated standards
In the implementation of ATEX 95 and ATEX 137 direc-
tives ABB refers to the IEC and EN standards which
have been recently updated. Otherwise ABB refers to
IEC standards.
Main standards for implementation
Worker Protection Directive 1999/92/EC (ATEX 137)
IEC/EN
60079-10
Classification of hazardous areas (gas areas)
IEC/EN
61241-10
Classification of areas where combustible dusts are
or may be present
IEC/EN
60079-14
Installation rules of gas equipment
IEC/EN
61241-14
Selection and Installation of Ex tD (DIP) equipment.
IEC/EN
60079-17
Electrical installations Inspection and maintenance
IEC/EN
60079-19
Equipment Repair and overhaul
Main standards complying
with the “EHSR’s” of Products Directive 94/9/EC (ATEX 95)
EN 60079-0 General requirements for gas
EN 61241-0 General requirements for dust
EN 60079-1 Flame proof enclosure ‘d’
EN 60079-2 Pressurized enclosure ‘p’
EN 60079-7 Equipment protection by increased safety ‘e’
EN 60079-15 Construction test and marking of type of protection ’n’
EN 61241-1 Protection by enclosure ‘tD’
High efficiency
A Europe-wide agreement defines the efficiency levels
for low voltage motors. Efficiency classification does not
apply for hazardous area motors, how ever, high effi-
ciency is important also for motors in hazardous areas.
These efficiency levels apply to 2- and 4-pole, three
phase squirrel cage induction motors rated for 400 V,
50 Hz with S1 duty class with the output 1.1 to 90 kW.
See web site published by the European Commission
for more information on efficiency classes;
http://energyefficiency.jrc.cec.eu.int/.
In addition to the above, all ABB’s motor production
units are certified to ISO 9001 and ISO 14000.
Motor ranges fulfilling EFF1 efficiency level, although classi-
fication does not apply
Flameproof from IEC size 160 and above
Increased safety Not applicable
Non-sparking Aluminum M3AA 112 and above
Cast iron from IEC sizes 160 and above
Dust ignition proof Aluminum M3AA 112 and above
Cast iron from IEC sizes 160 and above

1
Note: In certain countries Ex d and Ex e motors are also used in Zone 2.
Hazardous areas
Hazardous areas worldwide are classified by zone,
according to the risk posed by explosive gas or dust in
the atmosphere.
Zone 2 / 22
Abnormal condition
Presence of explosive atmosphere
only by accident, but not during
normal duty (d 10 h per year)
Zone 1 / 21
Occasionally
Incidental presence of explosive
atmosphere during normal duty
(10 - 1000 h per year)
Zone 0 / 20
Continously
Permanent presence of
explosive atmosphere
(! 1000 h per year)
CE... II 2 G Ex d/Ex de
CE... II 2 G Ex e
CE... II 2 G Ex p
CE... II 2 D Ex tD A21
CE... II 3 G Ex nA
CE... II 3 D Ex tD A22
Explosive
atmosphere
Permanent
presence
Incidental
presence
(normal operation
conditions)
Accidental
presence
(abnormal operation
conditions)
Gas ('G')
Dust ('D' / 'DIP' / 'Ex tD')
Zone 0 Zone 1 Zone 2
Classification of hazardous locations according to CENELEC and IEC
The definition of areas according to the
presence of atmosphere are set up in
the following standards:
IEC/EN 60079-10 Gas
EN 61241-1 Dust
Categories or classification
The ATEX Directive has introduced the concept of "Cat-
egories" which is a way of expressing the capability of
equipment respecting the EHSR versus the Zone where
the equipment is installed.
Category 1 according to Annex 1 of ATEX 95 used
in Zone 0 or Zone 20
in Zone 1 or 21
in Zone 2 or 22
To ensure equipment can be safety used in potentially
explosive atmospheres, the hazardous areas where
the equipment is installed must be known. Tempera-
ture class of equipment must be compared with the
spontaneous ignition temperature of the gas mixtures
concerned and its gas group must be known in specific
cases (e.g. flame proof protection).
Marking temperatures, gas groups and hazardous areas
M000168
M000169
M000176
Combinations for G and D are possbile

1
Temperature classes
Temperature
class
Ignition temperature
for the gas/vapour
°C
Max. permitted temperature
equipment °C
T1 > 450 450
T2 > 300 < 450 300
T3 > 200 < 300 200
T4 > 135 < 200 135
T5 > 100 < 135 100
T6 > 85 < 100 85
Grouping of electrical apparatus
Group I Apparatus for coal mines susceptible to firedamp
Group II Apparatus for explosive atmospheres other than
mines; surface industries
IIA, IIB, IIC Group II is subdivided for Ex d and Ex i -equip-
ment according to the severity of the environment.
IIC is the highest rating; a motor from one of the
higher categories can also be used in a lower
category environment
Marking of equipment
Classification
Category
equipment
Inflammable
substances
Level of protec-
tion
Fault protection Comparison with present
practice and IEC
Equipment
group I
(mines)
M1 Methane, dust Very high level 2 types of protection or 2 indepen-
dent faults
Group I
M2 Methane, dust High level 1 type of protection
Normal operation
Group I
Equipment
group II
(surface)
1 Gas, vapours,
mist, dust
Very high level 2 types of protection or 2 indepen-
dent faults
Group II
Zone 0 (gas) / Zone 20 (dust)
2 Gas, vapours,
mist, dust
High level 1 type of protection
Habitual frequent malfunction
Group II
3 Gas, vapours,
mist, dust
Normal Required level of protection Group II
Protection type marking:
EEx according to the EN standards series 50000
Ex according to the EN standards series 60079 and 61241
CE marking
Identification
of the notified body
responsible for the
approval. 0081 is the
identification number
of LCIE
The European Commission
mark for Ex products
Motor grouping: II for surface
industry (I for mines)
Equipment category: 2 allowed for
Zone 1 or Zone 21 (1 for Zone 0 or 20,
3 for Zone 2 or 22)
Atmosphere surrounding the motor: G for
explosive gas (D for dust)
II 2 G0081
CE Conformity marking Complementary marking for Ex:
Protection type Ex d = flameproof
Motor grouping II = for surface industry
Temperature class T4 = max. permitted 135°C
Ex d IIB T4
Complementary marking for Ex tD:
Ex tD A21 T125°C IP65
Protecion
by enclosure
Installation in zone 21
Temperature class
IP protection

1
EN 61241-0: General requirements
EN 61241-1: Protection by enclosures tD
EN 50281-1-1: Dust ignition protection
II 3 D
Ex tDA21/IP 6X
Category: 2D Category: 3D
IP 65 – T125°C
Ex tD A21 T125°C
IP 55 - T125°C
Ex tD A22 T125°C
… II 2 D
EN 61241-14/EN 50281-1-2:
Selection and installation for DIP/Ex tD
Environment
Product
Ex tDA22/IP 5X
IP 65 - T125°C
Ex tD A22 T125°C
Zone 22
Non-conductive dust
Zone 22
Conductive dust
Zone 21
All kinds of dust
EN 60079-0/EN 50014 : General rules
EN 60079-1/EN 50018
Flameproof enclosure
«d»
EN 60079-7EN 50019
Increased safety «e»
EN 60079-15/EN 50021
Non-sparking «n»
Category 2G Category 2G Category 3G
Ex e II T3 Ex nA II T3
… II 2 G… II 2 G II 3 G
Ex d II B T4
Environment
Product
EN 60079-14 Selection and installation
Selection of products for hazardous areas
EN Standard for Group II: Gas environments
EN Standard for Group II: Dust environments
M000170M000171

1
General about hazardous areas
The hazard may be due to an explosive atmosphere
composed of a mixture of gas, vapors or dusts with
air. This chapter only deals with safety in explosive gas
atmospheres for which European Standards exist.
ABB has a full range of flameproof motors certified
according to IECEx.
Flameproof enclosure Ex d and Ex de
Preamble
In hazardous areas, it is the utmost importance to
ensure the safe use of electrical apparatus. To this
end, many countries have regulations concerning both
the design and use of such apparatus. These regula-
tions are becoming increasingly harmonized within the
framework of IEC recommendations and European
Standards.
The motor enclosure shall be designed in such a way
that no internal explosion can be transmitted to the
explosive atmosphere surrounding the motor. The en-
closure must withstand, without damage, any pressure
levels caused by an internal explosion. The shape,
length and gap of part assembly joints, at shaft opening,
cable entries, etc., shall be designed to allow for throt-
tling and cooling of hot gases escaping outside. The
standards emphasize the impact of an explosive atmos-
phere (for instance, explosion pressure) over construc-
tional requirements of such apparatus.
Work on assembly devices of enclosure component
parts is only permitted using prescribed tools. Cable
entries must meet the requirements of this type of pro-
tection.
The temperature of the motor's external enclosure
should not exceed the self-ignition temperature of the ex-
plosive atmosphere of the installation area during normal
operation. For this reason, rated output depends on this
rated maximum temperature for the considered area.
No motor device outside the flameproof enclosure (e.g.,
ventilation) shall be a potential source of sparks, arcs or
dangerous overheating.
Variants combining two types of protection usually com-
bine ”d” and ”e” protection. The most commonly used
and recognized by the CENELEC European Standards
is the Ex de variant. The motor is designed with an
Ex d flameproof enclosure, while the terminal box
features an Ex e increased safety protection. Such
design combines the superior safety degree of the ”d”
type of protection with the less stringent electrical con-
nection requirements of increased safety motors.
Motors featuring dual protection are seldom encoun-
tered - such as an increased safety motor with a flame-
proof enclosure designated Ex e / Ex d in European
Standards.
Alleinschutz – thermistors as sole protection (optional)
The flameproof motors from ABB, frame sizes 80 to
400, have been certified for thermistors as sole
protection against overload. This construction,
"Alleinschutz", is available as an option, see variant
codes.
"Alleinschutz“ is a term that defines the certification
of flameproof motor and protection device together.
The certificate confirms that thermistors and relays will
switch off the motor in case of overheating before the
temperature of the motor's external enclosure exceeds
the temperature marking stamped on the rating plate.
Each motor ordered with thermistors as sole protection
will be tested, with locked rotor, up to the point where
the thermistors trigger the relay to turn off the motor. At
the triggering temperature, the motor has to be within
the certified temperature class.
The relay is included in the certificate, which means that
only approved relays can be used for "Alleinschutz“.
Please note that sizes 315 to 400 require special tech-
nical solutions, consult ABB.

1
Increased safety design, Ex e
as measured by the change of resistance method, and
the maximum temperature rise permitted by the wind-
ing insulation class.
Temperature rise limits during short circuit under
accidental stalling conditions
Should the machine stall while in operation, a short-
circuit current nearly equal to the starting current will
develop, and stator and rotor winding temperatures will
rise rapidly (see figure 1).
To prevent this temperature value from exceeding the
temperature level below protection devices must trip
within a specified time (tE
). This tripping time depends
on the short-circuit current level or the short-circuit cur-
rent to rated current ratio (IA
/IN
). Figures 2 and 3 show,
for commonly used protection devices, the limiting ratio
between short-circuit current inrush IA
/IN
and rotor stall-
ing time tE
, according to the EN and VIK.
This type of protection is inappropriate for commutator
machines or brake-motors which, by principle, are ca-
pable of producing arcs, sparks or hot spots.
The design of this motor type prevents the occurrence
of sparks, arcs or hot spots in service (including start-
ing and locked rotor situation), that could reach the
self-ignition temperature of the surrounding, potentially
explosive atmosphere, in all inner and outer parts of the
machine.
This is ensured by applying constructional or dimen-
sional provisions that mainly concern:
– specified minimum values for creepage distances
and clearances
– use of tracking-proof isolating materials
– suppression of sharp angles where static electrical
loads could build-up
– ensuring electrical and mechanical assemblies are
tightly secured
– minimum backlash values between stationary and
rotating parts (e.g., air gap, ventilation, etc.)
– temperature-rise limits, taking into account locked
rotor, normal operation, accidental mechanical
stalling of machine under the most adverse thermal
conditions, i.e. when thermal equilibrium of machine
is reached while in service.
Temperature rise limits are to be considered for two
operating aspects; one for normal operating conditions
and the other under accidental stalling conditions.
Figure 1.
O = temperature 0°C
A = Max. ambient temperature, reference 40°C
B = Temperature at rated load and at worst voltage conditions
C = Max temperature as permitted by the insul. class
D = Max limit temperature as set by the nature of the
potentially explosive atmosphere
E = Temperature-rise curve of motor at rated output and at worst
voltage conditions
F = Temp. rise curve under stalled rotor conditions
tE
= stalled rotor time
Temperature rise limits under normal operating
conditions
The expected electrical lifespan of a motor depends on
its temperature rise for a given insulation class, and on
the motor winding temperature, in operation, which is
not homogeneous with hot spots appearing.
For these reasons, a safety margin of 10 K is allowed
for between windings temperature rise at rated output,
Figure 3. Min. value of time tE
as a function of IA
/IN
acc. to VIK.
M000172
M000174
Figure 2. Min. value of time tE
as a function of IA
/IN
acc. to EN 50019.
M000173
Minimum 5 s
IA
/IN
tE
s
Minimum 7 s

1
Non-sparking design, Ex nA
This type of protection is allowed to be used in the
hazardous area corresponding to zone 2.
This design is also known as 'Non-sparking' type as the
motor must be designed in such a way that no sparks
can occur in normal operation, used within the
ratings specified by the manufacturer, which excludes
thermal requirements due to starting or accidental
stalling.
Dual certification
Ex nA motors in cast iron frame can also be used for
Dust/Ex tD -applications. Following combinations are
possible:
– DIP T125°C/Ex tD A22, IP55 for zone 22
ABB provides non-sparking motors certified according
to ATEX 95 and IEC.
These features are possible due to the IP protection.
The gases penetrate this protection, and thus the inside
surface temperature class is T3 (200°C). The ingress of
dust, however, is prevented and the dust determines the
outside surface temperature class: T 125°C.

1
Dust ignition protection / Protection by enclosures
“tD” in hazardous areas
Combustible dusts is hazardous as it can form poten-
tially explosive atmospheres when dispersed in the air.
Furthermore, layers of combustible dust may ignite and
act as ignition source for an explosive atmosphere.
Hazardous areas with dust can be found in a variety of
industries such as agriculture, chemicals, plastics, stock
holding.
Selection and installation of electrical equipment
To ensure equipment can be safely used in hazardous
areas with dust, the following procedure should be
considered before selecting a product:
1. Type of dust:
– Will a cloud of dust be present around the product or
– will a layer of dust build up on the product and if so,
what will be the maximum thickness of the layer
between two cleaning/maintenance periods?
2. Characteristics of the dust:
– Is the dust electrically conductive or non-conductive?
3. Ignition temperature of the dust:
– TCl
: Ignition temperature of dust in a "cloud" or
– T5mm
: Ignition temperature of a 5 mm dust layer
This protection prevents any explosion transmission of
dust because:
– The ingress of dust into the motor is prevented by the
IP protection, being either IP55, called dust
protected, or IP 65, called dust tight.
– The maximum surface temperature outside the motor
must not exceed the temperature class for which the
motor is certiﬁed.
– No sparks must occur outside the motor enclosure.
Selection and installation of product: EN 50281-1-2/EN 61241-14
Equipment category Category 1
(zone 20)
Category 2
(zone 21)
Category 3
(zone 22)
Minimum protection
for equipment
Not applicable
for electric motors
Ex tD/IP 6X Ex tD A22/IP 5X for non-conductive dust
Ex tD A22/IP 6X for conductive dust
Marking temperature
Type of dust Ignition temperature Maximum surface
temperature of motor
Marking temperature of equipment
T°C
Cloud TCI
2/3 x TCI
T°C d 2/3 x TCI
Layer up to 5 mm T5mm
T5mm
– 75 K T°C d (T5mm
– 75 K) or
T°C d (2/3 x TCI
)
Which ever value is the smallest value
Substances
Products AIT for a cloud (°C) AIT for a layer (°C)
PVC 450 330
Sulfur 240 250
Charcoal 520 230
Barley/Corn/Maize 380 280
Sugar 310 420
Wheat 350 270
Source BIA-report 13/97/HVBG AIT = auto ignition temperature

1
Testing and certificates
Motors for hazardous areas have to be officially ap-
proved by a recognized test organization, authorized to
issue test certificates, to ensure compliance with stand-
ards for this type of equipment.
Motors are defined and classified according to the cat-
egories and protection type which are defined in the
corresponding standards.
Depending on the nature of the atmosphere, it is the
responsibility of the user to determine which group and
which maximum surface temperature should be speci-
fied for the motor installation.
The motors are rated and certified for ambient tempera-
ture between –20°C and +40°C according to standards.
For ambient temperatures below –20°C and above
+40°C certificates are available for most of the motors.
Risk assessment and gas tests
ABB’s motors conform to the stringent standards set by
CENELEC (European Committee for Electrotechnical
Standardization), and are approved by testing laborato-
ries (ExNB: Notified Body). The EU member countries
have a common set of standards for motors for hazard-
ous environments.
Motors can be certified by any of the Notified Bodies
“ExNB” of EU member countries. These motors are
therefore acceptable in all EU countries and many other
countries.
Global certificates available are: IEC, IECEx Scheme,
ATEX, CSA and CSA / US certificates. Typical national
certificates available are e.g. GOST-R for Russia,
GOST-K for Kazakhstan, Inmetro for Brazil, CQST for
China and KOSHA for Korea. Local certifications are
mainly obtained based on IEC or ATEX.
Non-sparking (Ex nA) and increased safety (Ex e)
motors have to meet tough requirements with regard
to sparking. The latest IEC and EN standards specify
criteria for risk assessment and gas environment tests
for rotor and stator designs to show that the motors are
spark-free in all operational conditions.
By testing and securing certification for its motors, ABB
is helping to streamline the risk assessment process for
its customers. Due to these tough tests to be fulfilled, it
re-inforce the insulation system and increase the time
life of products.
The alternative to testing and certification involves, in
the majority of cases, equipping the motor with provi-
sion for pre-start ventilation. This means investing in a
higher capacity air compressor, piping, and a ventila-
tion control unit. It also requires an additional operation
– ventilation – every time the motor is started.
Benefits of the ABB approach therefore include reduced
initial capital expenditure, lower operating costs, and
faster starting. Reliability is improved as no additional
components are required. Most importantly, ABB’s certi-
fied motors offer proven safety, as testing represents the
only way to verify that equipment is really safe.
ABB’s approach to meet the new requirements
Following a program of gas environment tests in which
all rotor and stator tests were passed, ABB has secured
certification for its M3GM motors, frame size up to
450 mm.
ABB Low voltage motors has secured certification for its
cast iron hazardous area motors with aluminum die cast
rotor.

2
M000007M000008M000009M000010M000011M000012
Mechanical and electrical design
Mounting arrangements
CodeI/CodeII Product code pos. 12
Foot-mounted motor. IM B3 IM V5 IM V6 IM B6 IM B7 IM B8 A = foot-mounted,
IM 1001 IM 1011 IM 1031 IM 1051 IM 1061 IM 1071 term.box top
R = foot-mounted,
term.box RHS
L = foot-mounted,
term.box LHS
Flange-mounted motor, IM B5 IM V1 IM V3 *) *) *) B = flange mounted,
large flange IM 3001 IM 3011 IM 3031 IM 3051 IM 3061 IM 3071 large flange
Flange-mounted motor, IM B14 IM V18 IM V19 *) *) *) C = flange mounted,
small flange IM 3601 IM 3611 IM 3631 IM 3651 IM 3661 IM 3671 small flange
Foot- and flange-mounted IM B35 IM V15 IM V36 *) *) *) H = foot/flange-mounted,
motor with feet, IM 2001 IM 2011 IM 2031 IM 2051 IM 2061 IM 2071 term.box top
large flange S = foot/flange-mounted,
term.box RHS
T = foot/flange-mounted,
term.box LHS
Foot- and flange-mounted IM B34 IM V17
motor with feet, IM 2101 IM 2111 IM 2131 IM 2151 IM 2161 IM 2171 J = foot/flange-mounted,
small flange small flange
Foot-mounted motor,
shaft with free extensions IM 1002 IM 1012 IM 1032 IM 1052 IM 1062 IM 1072
*) Not stated in IEC 60034-7.
Low voltage general technical specification
Note: In case of motors mounted with the shaft upwards and water or liquid are expected to go down along the
shaft, the user must take into account to mount some means capable to preventing it.

2
M000178
Protection against corrosion
Drain holes
Non-sparking, increased safety and dust ignition proof
motors are fitted with drain holes and plugs according to
the table below.
The color is blue, Munsel color code: 8B, 4.5/3.25
(NCS4822-B05G the closest shade in other standards).
Specific details of paint types are available on request.
Special attention has been paid to the finish of ABB's
motors. All parts are treated by the method most ap-
propriate to each material, giving reliable anti-corrosion
protection under severe environmental conditions.
Open
Flameproof motors are not as standard fitted with drain
holes, but can be on request, see variant codes.
The table values for output, speed, efficiency, power
factor, starting torque and starting current apply at the
rated voltage and frequency. These values will be
affected if the supply voltage or frequency deviate from
the rated values.
The motors can operate continuously at the rated
output, with a long-term voltage deviation of 5 % from
the specified value or range of values, and at the rated
frequency without exceeding the temperature class
stamped on the rating plate. The temperature rise of the
winding may increase by 10 K, but without exceeding
the insulation temperature class stamped on the rating
plate. Voltage deviations of up to 10 % are permissible
for short periods only.
Type of protection Frame material Frame size Drain holes
Non-sparking, increased safety Aluminum 90-280 closed
Cast iron 71-132 optional
160-450 open
Flameproof Cast iron 80-400 not included
160-400 optional
Dust ignition proof, 2D and 3D, sizes 71-80 Aluminum 71-80 open
Dust ignition proof, 2D, 3D sizes 90-100 Aluminum 90-280 not included
Dust ignition proof, 3D, IP 55 Aluminum 112-280 closed
Dust ignition proof, category 2D, IP 65 Cast iron 80-400 not included
Dust ignition proof, category 3D, IP 65 Cast iron 80-132 optional
160-400 closed
Voltage and frequency
Closed
Open

2
Bearings
ABB policy is to have reliability as a vital issue in bear-
ing design as well as in bearing lubrication systems.
That is why we, as standard, follow the L1 -principle
(meaning that 99 per cent of the bearings achieve or
exceed the calculated grease lifetime). The lubrication
intervals can also be calculated according to L10 -prin-
ciple which means that 90 per cent of the motors are
sure to make the interval time. L10 -values, which are
normally doubled compare to L1 -values, are available
from ABB at request.
Lubrication
Lubricate the motor when operational. If a grease outlet
plug is fitted, temporarily remove when lubricating, or
permanently with auto lubrication. If the motor is fitted
with a lubrication plate, use values given, or use the
values given in the table beside. These values are ac-
cording to L1 -principle, which is the ABB standard for
all motors.
The effectiveness of the motor lubrication should be
checked by measuring the surface temperature of
bearing endshields during normal operating condi-
tions. If the measured temperature is +80°C or above,
Motors fitted with grease nipples
Cast iron motors from frame size 160 and aluminum
motors from frame size 200, except M2AA 200, and
above (DIP motors with aluminum frame excluded), are
as standard fitted with regreasable bearings.
Lubricate the motor when operating.
For motors with lubrication systems we recommend not
to exceed lubrication interval of two years in any case.
Motors with permanently greased bearings
Cast iron motors up to frame size 132 and aluminum
motors up to frame size 180 and M2AA 200 are nor-
mally fitted with permanently greased bearings of type
Z or 2Z. The exception is 2D DIP motors with aluminum
frame sizes 90-280, which are fitted with 2RS bearings
because higher protection is required.
Guidelines for bearing life time acc. to L1 principle:
Aluminum motors
• 2 and 2/4 pole motors, 10 000 - 20 000 duty hours 1)
• 4 to 8 pole motors, 20 000 - 40 000 duty hours 1)
Cast iron motors
• 2 and 2/4 pole motors, 20 000 duty hours 1)
• 4 to 8 pole motors, 40 000 duty hours 1)
1)
depending on application and load conditions.
the relubrication intervals must be shortened; i.e. the
relubrication interval should be halved for every 15K
increase in bearing temperature. If this is not possible
ABB recommends the use of lubricants suitable for
high operating temperature conditions. These lubricants
allow a normal relubrication interval and 15K increase
in bearing temperature conditions.
Formula to change the L1 values roughly to L10 values:
L10 = 2.7 x L1
Lubrication intervals acc. to L1 principle
Ball bearings: lubrication intervals in duty hours Roller bearings: lubrication intervals in duty hour
Frame
size
Amount of
grease g
3600
r/min
3000
r/min
1800
r/min
1500
r/min
1000
r/min
500-750
r/min
Frame
size
Amount of
grease g
3600
r/min
3000
r/min
1800
r/min
1500
r/min
1000
r/min
500-750
r/min
112 10 10000 13000 18000 21000 25000 28000 160 25 3500 4500 7000 8500 10500 12000
132 15 9000 11000 17000 19000 23000 26500 180 30 3000 4000 7000 8000 10000 11500
160 25 7000 9500 14000 17000 21000 24000 200 40 2000 3000 5500 6500 8500 10500
180 30 6000 8000 13500 16000 20000 23000 225 50 1500 2500 5000 6000 8000 10000
200 40 4000 6000 11000 13000 17000 21000 250 60 1300 2200 4500 5700 7500 9000
225 50 3000 5000 10000 12500 16500 20000 280 35 1000 1800 – – – –
250 60 2500 4000 9000 11500 15000 18000 280 70 1000 2000 4000 5300 7000 8500
280 35 2000 3500 – – – – 315 35 1000 1800 – – – –
280 70 – – 8000 10500 14000 17000 315 90 – – 3000 4300 6000 8000
315 35 2000 3500 – – – – 355 35 600 1000 – – – –
315 90 – – 6500 8500 12500 16000 355 120 – – 2000 3000 5000 6500
355 35 1200 2000 – – – – 400 40 500 800 – – – –
355 120 – – 4200 6000 10000 13000 400 130 – – 1400 2300 4200 6000
400 40 1000 1600 – – – – 450 40 500 800 – – – –
400 130 – – 2800 4000 8400 12000 450 140 – – 1200 2000 4000 4400
450 40 1000 1600 – – – –
450 140 – – 2400 4000 8000 8800

2
Standard bearing types
The motors are normally ﬁtted with single-row deep
groove ball bearings as listed in the table below. For special bearings, please see the variant codes.
Motor
size
Poles Increased safety motors Non-sparking motors Dust ignition protection
Category 2 D Category 3 D
Bearing Bearing Bearing Bearing Bearing Bearing Bearing Bearing
D-end N-end D-end N-end D-end N-end D-end N-end
Aluminum motors
71 – – – – 6203-2Z/C3 6202-2Z/C3 6203-2Z/C3 6202-2Z/C3
80 – – – – 6204-2Z/C3 6203-2Z/C3 6204-2Z/C3 6203-2Z/C3
90 2-8 6205-2Z/C3 6204-2Z/C3 6205-2Z/C3 6204-2Z/C3 6205-2RS/C3 6204-2RS/C3 6205-2RS/C3 6204-2RS/C3
100 2-8 6306-2Z/C3 6205-2Z/C3 6306-2Z/C3 6205-2Z/C3 6306-2RS/C3 6205-2RS/C3 6306-2RS/C3 6205-2RS/C3
112 2-8 6206-2Z/C3 6205-2Z/C3 6206-2Z/C31)
6205-2Z/C31)
6206-2RS/C3 6205-2RS/C3 6206-2Z/C31)
6205-2Z/C31)
6206-2Z/C32)
6206-2Z/C32)
6206-2Z/C32)
6206-2Z/C32)
132 2-8 6208-2Z/C3 6206-2Z/C3 6208-2Z/C31)
6206-2Z/C31)
6208-2RS/C3 6206-2RS/C3 6208-2Z/C31)
6206-2Z/C31)
6208-2Z/C32)
6208-2Z/C32)
6208-2Z/C32)
6208-2Z/C32)
160 2-8 6309-2Z/C3 6209-2Z/C3 6309-2Z/C3 6209-2Z/C3 6309-2RS/C3 6209-2RS/C3 6309-2Z/C3 6209-2Z/C3
180 2-8 6310-2Z/C3 6209-2Z/C3 6310-2Z/C3 6209-2Z/C3 6310-2RS/C3 6209-2RS/C3 6310-2Z/C3 6209-2Z/C3
200 2-8 6312-2Z/C3 6210-2Z/C3 6312/C3 6210/C3 6312-2RS/C3 6210-2RS/C3 6312/C3 6210/C3
6312-2Z/C33)
6209-2Z/C33)
6312-2Z/C33)
6209-2Z/C33)
225 2-8 6313-2Z/C3 6212-2Z/C3 6313/C3 6212/C3 6313-2RS/C3 6212-2RS/C3 6313/C3 6212/C3
6313/C33)
6210/C33)
6313/C33)
6210/C33)
250 2-8 6315-2ZC3 6213-2Z/C3 6315/C3 6213/C3 6315-2RS/C3 6213-2RS/C3 6315/C3 6213/C3
6315/C33)
6212/C33)
6315/C33)
6212/C33)
280 2 6315-2Z/C3 6213-2Z/C3 6315/C3 6213/C3 6315-2RS/C3 6213-2RS/C3 6315/C3 6213/C3
4-8 6316-2Z/C3 6213-2Z/C3 6316/C3 6213/C3 6316-2RS/C3 6213-2RS/C3 6316/C3 6213/C3
Motor
size
Poles Flameproof motors Increased safety motors Process performance
Non-sparking motors
General purpose
Non-sparking motors
Dust ignition protection
Bearing Bearing Bearing Bearing Bearing Bearing Bearing Bearing Bearing Bearing
D-end N-end D-end N-end D-end N-end D-end N-end D-end N-end
Cast iron motors
71 2-8 6202 WC3 6202 WC3
80 2-8 6205-2Z/C3 6204-2Z/C3 6205-2Z/C3 6204-2Z/C3 6205-2Z/C3 6204-2Z/C3 6204 DDUC3 6204 DDUC3 6205-2Z/C3 6204-2Z/C3
160 2 6309M/C3 6309M/C3 6309/C3 6309/C3 6309/C3 6309/C3 6309/C3 6209/C3 6309M/C3 6309M/C3
4-8 6309/C3 6309/C3 6309/C3 6309/C3 6309/C3 6309/C3 6309/C3 6209/C3 6309/C3 6309/C3
180 2 6310M/C3 6309M/C3 6310/C3 6309/C3 6310/C3 6309/C3 6310/C3 6210/C3 6310M/C3 6309M/C3
4-8 6310/C3 6309/C3 6310/C3 6309/C3 6310/C3 6309/C3 6310/C3 6210/C3 6310/C3 6309/C3
200 2 6312M/C3 6310M/C3 6312/C3 6310/C3 6312/C3 6310/C3 6312/C3 6212/C3 6312M/C3 6310M/C3
4-8 6312/C3 6310/C3 6312/C3 6310/C3 6312/C3 6310/C3 6312/C3 6212/C3 6312/C3 6310/C3
225 2 6313M/C3 6312M/C3 6313/C3 6312/C3 6313/C3 6312/C3 6313/C3 6213/C3 6313M/C3 6312M/C3
4-8 6313/C3 6312/C3 6313/C3 6312/C3 6313/C3 6312/C3 6313/C3 6213/C3 6313/C3 6312/C3
250 2 6315M/C3 6313M/C3 6315/C3 6313/C3 6315/C3 6313/C3 6314/C3 6214/C3 6315M/C3 6313M/C3
4-8 6315/C3 6313/C3 6315/C3 6313/C3 6315/C3 6313/C3 6314/C3 6214/C3 6315/C3 6313/C3
280 2 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3
4-8 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3
315 2 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3 6316/C3
4-8 6319/C3 6316/C3 6319/C3 6316/C3 6319/C3 6316/C3 6319/C3 6316/C3
355 2 6316M/C3 6316M/C3 6316M/C3 6316M/C3 6316M/C3 6316M/C3 6316M/C3 6316M/C3
4-8 6322/C3 6316/C3 6322/C3 6316/C3 6322/C3 6316/C3 6322/C3 6316/C3
400 2 6317M/C3 6317M/C3 6317M/C3 6317M/C3 6317M/C3 6317M/C3 6317M/C3 6317M/C3
4-8 6324/C3 6319/C3 6324/C3 6319/C3 6324/C3 6319/C3 6324/C3 6319/C3
450 2 6317M/C3 6317M/C3
4-8 6326M/C3 6322/C3
1)
Dust ignition proof motors sizes 71-132: Same bearing sizes as by General purpose Non-sparking motors
1)
M2AA 112: M 2, M 4. M2AA 132: SA 2, SB 2, S 4, M 4. M3AA 112: M 6, M 8. M3AA 132: SA 2, S 4, S 6, M2 6, MB 6, S 8, M 8
2)
remaining versions
3)
M2AA

2
Axially-locked bearings
The table shows which motors are axially locked in the
bearing seat, by an inner bearing cover.
Transport locking
Motors with roller bearings or an angular contact ball
bearing are fitted with a transport lock before despatch
to prevent damage to the bearings during transport.
When the transport lock is fitted, the motor is provided
with a warning sign.
Locking may also be fitted in other cases where the
transport handling could be damaging.
The following tables give the permissible radial and
axial forces in Newton, assuming only radial or axial
force is applied. Permissible loads of simultaneous
radial and axial forces will be supplied on request.
The bearing life, L10, is calculated according to ISO
281:1990/Amd 2:2000 standard theory, which also
takes the purity of the grease into consideration. An
adequate lubrication is a necessary prerequisite for the
table below.
The values are based on normal conditions at 50 Hz.
At 60 Hz the values must be reduced by 10 %. For two-
speed motors, the values must be based on the higher
speed.
Motors are foot-mounted IM B3 version with force di-
rected sideways. In some cases the strength of the
shaft affects the permissible forces.
If flameproof motors Ex d or Ex de sizes 160 and above
are subject to high radial forces (e.g. belt drive) they
should be fitted with roller bearings. Permissible radial
forces for IIB and IIC are available from ABB on request.
Please note that motors type Ex d or Ex de IIB and
IIC in size 250 and above with roller bearings may
require detailed information about power transmis-
sion; please consult ABB.
Permissible loadings on the shaft end
See also variant code 042.
Aluminum motors
Motor size Foot-mounted Flange-mounted motors
motors Large flange Small flange
71-80 On request at D-end On request at D-end
90-100 D-end 1)
D-end 1)
D-end 1)
112-132 D-end 1)
D-end D-end
160-250 D-end D-end
1)
A spring washer at the N-end locatess the rotor at the D-end.
DIP motors locked at D-end.
Cast iron motors
Motor size Foot-mounted Flange-mounted
motors motors
Non-sparking and Increased safety motors:
80-450 D-end D-end
Flameproof motors:
80-400 D-end D-end
If the radial force is applied between points X0
and Xmax
,
the permissible force FR
can be calculated from the
following formula:
FR
= FX0
- (FX0
- FXmax
)
E = length of shaft extension in basic version
X
E
M000145

2
Aluminum motors, sizes 71 to 180
Permissible radial forces
Motor
size
No. of
poles
Length
of shaft
extention
E (mm)
Ball bearings Roller bearings
Basic design with deep groove ball
bearings
Alternative design with 63-series
bearings
Alternative design with roller
bearings
25,000 hours 40,000 hours 25,000 hours 40,000 hours 25,000 hours 40,000 hours
FX0
(N) FXmax
(N) FX0
(N) FXmax
(N) FX0
(N) FXmax
(N) FX0
(N) FXmax
(N) FX0
(N) FXmax
(N) FX0
(N) FXmax
(N)
71 2-8 30 680 570 680 570
80 2-8 40 930 750 930 750
90 2-8 50 1010 810 1010 810
100 2-8 60 2280 1800 2280 1800
112 M 2 60 1800 1420 1620 1280 2160 1700 2160 1700
4 60 1790 1410 1590 1250 2160 1700 2160 1700
6 60 1910 1510 1700 1340 2160 1700 2160 1700
8 60 1940 1530 1720 1360 2160 1700 2160 1700
112 MB 2 60 1820 1470 1640 1330 2100 1700 2100 1700
4 60 1770 1430 1560 1260 2100 1700 2100 1700
6 60 1880 1520 1650 1340 2100 1700 2100 1700
8 60 1930 1560 1690 1370 1700 2100 1700 2100
132 SA 2 80 3020 2360 2740 2140 4070 3180 3670 2870
132 SB 2 80 3020 2360 2730 2130 4060 3170 3670 2870
132 SC 2 80 3030 2430 2750 2200 3990 3200 3690 2960
132 S 4 80 3120 2440 2790 2180 4090 3200 3830 2990
132 M 4 80 3080 2410 2750 2150 4100 3200 3780 2950
132 MB 4 80 3050 2440 2710 2170 3990 3200 3740 3000
132 S 6 80 3280 2560 2910 2270 4100 3200 3990 3120
132 MA 6 80 3240 2530 2880 2250 4100 3200 3970 3100
132 MB 6 80 3200 2500 2840 2220 4100 3200 3930 3070
132 MC 6 80 3010 2510 2660 2220 3840 3200 3700 3090
132 S 8 80 3370 2630 2980 2330 4100 3200 4100 3200
132 M 8 80 3310 2590 2940 2300 4100 3200 4060 3170
132 MB 8 80 3280 2630 2910 2330 3990 3200 3990 3200
160 MA 2 110 4470 3500 4470 3500 4470 3500 4470 3500
8 110 4470 3500 4470 3500 4470 3500 4470 3500
160 M 2 110 4470 3500 4470 3500 4470 3500 4470 3500
4 110 4470 3500 4470 3500 4470 3500 4470 3500
6 110 4470 3500 4470 3500 4470 3500 4470 3500
8 110 4470 3500 4470 3500 4470 3500 4470 3500
160 L 8 110 4470 3500 4470 3500 4470 3500 4470 3500
4 110 4470 3500 4470 3500 4470 3500 4470 3500
6 110 4470 3500 4470 3500 4470 3500 4470 3500
8 110 4380 3500 4380 3500 4380 3500 4380 3500
160 LB 2 110 4470 3500 4470 3500 4470 3500 4470 3500
4 110 4470 3500 4470 3500 4470 3500 4470 3500
6 110 4380 3500 4380 3500 4380 3500 4380 3500
8 110 4380 3500 4380 3500 4380 3500 4380 3500
180 M 2 110 6900 5550 6360 5110 7338 5900 7340 590
4 110 7100 5710 6470 5200 7338 5900 7340 5900

2
Motor
size
No. of
poles
Length of
shaft
extent
extention
Basic design with deep groove ball
bearings
Alternative design with roller
bearings
25,000 hours 40,000 hours 25,000 hours 40,000 hours
FX0
(N) FXmax
(N) FX0
(N) FXmax
(N) FX0
(N) FXmax
(N) FX0
(N) FXmax
(N)
180 L 4 110 7050 5670 6410 5150 7340 5900 7340 5900
6 110 7340 5900 6840 5500 7340 5900 7340 5900
8 110 7340 5900 6930 5570 7340 5900 7340 5900
180 LB 2 110 6900 5550 6360 5110 7340 5900 7340 5900
4 110 6990 5670 6350 5150 7280 5900 7280 5900
6 110 7280 5900 6780 5500 7280 5900 7280 5900
8 110 7280 5900 6870 5570 7280 5900 7280 5900
M2AA 200 2 110 7000 5800 6300 5200 9100 7500 8100 6700
4 110 6700 5500 5900 4900 9500 7800 8600 7100
M3AA 200 MLA 2 110 4940 4070 4370 3600 9460 7790 9460 7790
4 110 5360 4410 4690 3860 9460 7790 9460 7790
6 110 5590 4600 4850 3990 9460 7790 9460 7790
8 110 5680 4680 4910 4040 9460 7790 9460 7790
M3AA 200 MLB 2 110 4930 4060 4360 3590 9460 7790 9460 7790
4 110 5290 4360 4630 3810 9460 7790 9460 7790
6 110 5510 4540 4780 3940 9460 7790 9460 7790
8 110 5670 4670 4890 4030 9460 7790 9460 7790
M3AA 200 MLC 2 110 4920 4050 4360 3590 9460 7790 9460 7790
6 110 5380 4430 4640 3820 9460 7790 9460 7790
225 SMA 4 110 5830 4930 5100 4320 9810 8300 9810 8300
8 140 6400 5420 5550 4700 9810 8300 9810 8300
225 SMB 2 140 5400 4530 4780 4010 10600 8900 10600 8900
4 140 5750 4870 5030 4260 9810 8300 9810 8300
6 140 6000 5080 5200 4400 9810 8300 9810 8300
8 140 6320 5350 5470 4630 9810 8300 9810 8300
225 SMC 2 110 5370 4510 4750 3990 10600 8900 10600 8900
4 140 5720 4840 5000 4230 9810 8300 9810 8300
6 140 5930 5020 5130 4340 9810 8300 9810 8300
8 140 6180 5230 5320 4500 9810 8300 9810 8300
250 SMA 2 140 6970 5620 6180 4980 11290 9100 11290 9100
4 140 7693 6200 6750 5440 14330 11550 14330 11550
6 140 7678 6430 6940 5590 14330 11550 14330 11550
8 140 8250 6650 7150 5760 14330 11500 14330 11550
250 SMB 2 140 6960 5610 6150 4960 11290 9100 11290 9100
4 140 7620 6140 6680 5380 14330 11550 14330 11550
6 140 7940 6400 6900 5560 14330 11550 14330 11550
8 140 8180 6590 7070 5700 14330 11550 14330 11550
280 SMA 2 140 6650 5400 5850 4750 15260 12400 13790 11200
4 140 7750 6300 6890 5600 18460 15000 16560 13450
6 140 8810 7100 7760 6250 21090 17000 18860 15200
8 140 9000 7250 7880 6350 21840 17600 19360 15600
280 SMB 2 140 6460 5250 5720 4650 15260 12400 13790 11200
4 140 7510 6100 6590 5350 17850 14500 16060 13050
Aluminum motors, sizes 180 to 280

2
Non-sparking, Increased safety, dust ignition proof Flameproof
Motor
size
Poles Length of
shaft extention
E (mm)
Ball bearings
20,000 hours
FX0
(N) FXmax
(N)
71 2 30 415 335
4 30 415 335
6 30 415 340
80 2 40 670 545
4 40 890 725
6 40 970 830
90 S 2 50 795 625
4 50 995 780
6 50 1135 880
90 L 2 50 780 635
4 50 985 790
6 50 1120 905
100 2 60 1090 875
4 60 1360 1095
6 60 1560 1250
112 2 60 1410 1120
4 60 1735 1400
6 60 2000 1620
132 S 2 80 1700 1330
4 80 2130 1660
6 80 2495 1935
132 M 2 80 1675 1345
4 80 2130 1675
6 80 2450 1960
Motor
size
Poles Length of
shaft extention
E (mm)
Ball bearings
20,000 hours
FX0
(N) FXmax
(N)
80 2 40 650 520
4 40 830 680
6 40 900 730
8 40 900 730
90 2 50 720 575
4 50 910 780
6 50 1025 820
8 50 1025 820
100, 112 2 60 1090 860
4 60 1280 1025
6 60 1460 1155
6 60 1460 1155
132 2 80 1700 1380
4 80 2020 1610
6 80 2270 1805
8 80 2270 1805
Cast iron motors, sizes 71 to 132

2
Cast iron motors, sizes 160 to 450
Increased safety, non-sparking and dust ignition proof motors
Motor
size
Poles Length of
shaft
extension
E(mm)
20,000 hours 40,000 hours 20,000 hours 40,000 hours
FX0
(N) FXmax
(N) FX0
(N) FXmax
(N) FX0(N) FXmax
(N) FX0
(N) FXmax
(N)
160 2 110 3100 2100 2450 2000 7750 2100 6300 2100
4 110 3900 2100 3100 2100 8800 2100 7750 2100
6 110 4500 2100 3550 2100 8800 2100 8750 2100
8 110 4950 2100 3900 2100 8800 2100 8750 2100
180 2 110 3550 2900 2800 2300 8350 3050 6800 3050
4 110 4500 3050 3550 2900 9900 3050 8350 3050
6 110 5150 3050 4100 3050 9900 3050 9450 3050
8 110 5650 3050 4500 3050 9900 3050 9900 3050
200 ML_ 2 110 4800 3950 3800 3150 11700 4550 9500 4550
4 110 6050 4550 4800 3950 14400 4550 11700 4550
6 110 6950 4550 5500 4550 16250 4550 13200 4550
8 110 7650 4550 6050 4550 17700 4550 14400 4550
225 SM_ 2 110 5450 4500 4350 3550 14300 4550 11650 4550
4 140 6900 4650 5450 4400 17650 4650 14300 4550
6 140 7900 4650 6250 4650 19900 4650 16200 4650
8 140 8700 4650 6900 4650 21700 4650 17650 4650
250 SM_ 2 140 6750 4100 5350 4100 18950 4100 15400 4100
4 140 8550 5800 6750 5450 23350 5800 18950 5800
6 140 9800 5800 7750 5800 26400 5800 21400 5800
8 140 10750 5800 8550 5800 28750 5800 23350 5800
280 SM_ 2 140 7300 6000 5800 4900 20400 6000 16500 6000
4 140 9200 7800 7300 6200 25100 9200 20300 9200
6 140 10600 8900 8400 7000 28300 9200 23000 9200
8 140 11700 9200 9200 7800 30900 9200 25100 9200
315 SM_ 2 140 7300 6000 5800 4950 20300 6000 16500 6000
4 170 11400 9400 9000 7450 32500 9600 26600 9600
6 170 13000 9600 10300 8500 37000 9600 30000 9600
8 170 14400 9600 11400 9400 40300 9600 32700 9600
315 ML_ 2 140 7400 6400 5850 5050 20600 5850 16700 5850
4 170 11500 9700 9100 7650 32700 13600 26500 13600
6 170 13200 11100 10400 8800 36900 13600 29900 13600
8 170 14500 12200 11500 9700 40200 13600 32600 13600
315 LK_ 2 140 7400 6550 5800 5150 20800 5550 16800 5550
4 170 11500 10000 9100 7850 33100 13350 26800 13350
6 170 13200 11400 10450 9050 37300 13350 30300 13350
8 170 14600 12600 11550 10000 40800 13350 33100 13350
355 SM_ 2 140 7350 6450 5750 5050 20600 7200 16700 7200
4 210 15200 12600 12000 9950 45500 14000 36900 14000
6 210 17500 14000 13800 11400 51400 14000 41700 14000
8 210 19300 14000 15250 12600 56000 14000 45500 14000
355 ML_ 2 140 7350 6550 5750 5100 20800 6750 16800 6750
4 210 15300 12900 12000 10100 45900 13600 37200 13600
6 210 17600 13600 13900 11600 51500 13600 42100 13600
8 210 19400 13600 15300 12900 56000 13600 45900 13600
355 LK_ 2 140 7350 6650 5650 5150 21000 6750 17000 6750
4 210 15200 13000 11850 10200 46000 13000 37300 13000
6 210 17500 13000 13700 11900 52000 13000 42000 13000
8 210 19400 13000 15200 13000 56500 13000 46000 13000
400 LK_ 2 170 7650 6850 4400 3900 23900 9050 19350 9050
4 210 15600 11500 12150 10550 52500 11500 43300 11500
6 210 17800 11500 13850 11500 60000 11500 48800 11500
8 210 19700 11500 15350 11500 65700 11500 53200 11500
400 L_ 2 170 7650 6850 4400 3900 23900 9050 19350 9050
4 210 15600 13550 12150 10550 52500 16000 43300 16000
6 210 17800 15450 13850 12000 60000 16000 48800 16000
8 210 19700 16000 15350 13350 65700 16000 53200 16000
450 L_ 2 170 7400 6700 3500 3300 24000 7500 19000 7500
4 210 17000 15200 13000 11600 62000 25000 50000 25000
6 210 1900 17000 14000 13000 70000 24000 56000 24000
8 210 21300 19000 16500 14600 76000 23000 62000 23000

2
Flameproof motors Ex d, Ex de IIB - sizes 280-355
Motors
size
Poles Length of shaft
extention
E (mm)
20,000 hours 20,000 hours
FX0
(N) FXmax
(N) FX0
(N) FXmax
(N)
280 SM_ 2 140 7300 6000 20400 6000
4 140 9200 7800 25100 9200
6 140 10600 8900 28300 9200
6 140 11700 9200 30900 9200
315 SM_ 2 140 7300 6000 20300 6000
4 170 11400 9400 32500 9600
6 170 13000 9600 37000 9600
8 170 14400 9600 40000 9600
315 ML_ 2 140 7400 5850 20600 5850
4 170 11500 9700 32700 13500
6 170 13200 11100 36900 13500
8 170 14500 12200 40200 13500
355 SM_ 2 170 6000 5300 Not available
4-8 170 13100 10900 Not available
355 ML_ 2 170 5800 5200 Not available
4-8 170 12900 10900 Not available
355 LK_ 2 170 5500 5000 Not available
4-8 170 12500 10800 Not available
Values for sizes 400 available on request.
Cast iron motors
Flameproof motors Ex d, Ex de IIB/IIC, motor sizes 160 - 250
Flameproof motors Ex d, Ex de IIC - sizes 280-315
Only allowed for direct coupling applications.
Motor
size
Poles Length of shaft
extension
Ball bearings IIB 2)
20,000 hours
Ball bearings IIB/IIC
20,000 hours
Roller bearings IIB 2)
20,000 hours
Roller bearings IIB/IIC
20,000 hours
E (mm) FX0
(N) FXmax
(N) FX0
(N) FXmax
(N) FX0
(N) FXmax
(N) FX0
(N) FXmax
(N)
160 2 110 3020 1900 3020 1900 7600 2900 6700 1600
4 110 3780 1900 3780 1900 7600 2900 6700 1600
6 110 4360 1900 4360 1900 7600 2900 6700 1600
8 110 4810 1900 4810 1900 7600 2900 6700 1600
180 2 110 3420 2780 3420 2780 8200 4000 7500 2400
4 110 4260 2800 4260 2800 9000 4000 7500 2400
6 110 4910 2800 4910 2800 9000 4000 7500 2400
8 110 5440 2800 5440 2800 9000 4000 7500 2400
200 ML_ 2 110 4580 3780 4580 3780 1) 1)
11460 4200
4 110 5770 4750 5770 4750 1) 1)
14100 4200
6 110 6590 5000 6590 5000 1) 1)
15000 4200
8 110 7000 5000 7000 5000 1) 1)
15000 4200
225 SM_ 2 110 5170 3700 5170 3700 14000 7000 9300 3000
4 140 6520 2800 6520 2800 17300 7200 9300 2200
6 140 7000 2800 7000 2800 17300 7200 9300 2200
8 140 7000 2800 7000 2800 17300 7200 9300 2200
250 SM_ 2 140 6400 5170 3200 2900 18200 6700 1) 1)
4 140 8070 6510 3000 2800 21000 9200 1) 1)
6 140 9170 7400 3000 2800 21000 9200 1) 1)
8 140 10160 8200 3000 2800 21000 9200 1) 1)
1)
On request
2)
IIB on request, requires special construction

2
Permissible axial forces
The following tables give the permissible axial forces
in Newton, assuming zero radial force. The values are
based on normal conditions at 50 Hz with standard
bearings and calculated bearing lives of 20,000 and
40,000 hours.
At 60 Hz the values are to be reduced by 10%.
For two-speed motors, the values are to be based on
the higher speed. The permissible loads of simultane-
ous radial and axial forces will be supplied on request.
Given axial forces FAD
, assumes D-bearing locked by
means of locking ring. Without locking ring the FAD
forces should be reduced to 70% of list value.
Motor
size
2-pole 4-pole 6-pole 8-pole 2-pole 4-pole 6-pole 8-pole
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
N N N N N N N N N N N N N N N N
71 985 485 1070 570 1135 635 1130 630 900 400 970 470 1020 520 1015 515
80 1305 705 1420 820 1505 905 1540 940 1185 585 1285 685 1350 750 1375 775
90 1360 930 1490 1070 1590 1165 1635 1210 1225 800 1335 915 1415 990 1450 1025
100 2805 1945 3075 2215 3260 2400 3355 2495 2540 1680 2760 1900 2910 2050 2985 2125
112 M 1500 1500 1600 1600 1730 1730 1750 1750 1320 1320 1390 1390 1500 1500 1510 1510
112 MB 1530 1530 1600 1600 1720 1720 1760 1760 1340 1340 1390 1390 1490 1490 1520 1520
132 SA 2570 2570 - - - - - - 2260 2260 - - - - - -
132 SB 2570 2570 - - - - - - 2260 2260 - - - - - -
132 SC 2520 2520 - - - - - - 2210 2210 - - - - - -
132 S - - 2770 2770 2950 2950 3040 3040 - - 2440 2440 2580 2580 2650 2650
132 M - - 2750 2750 - - 3020 3020 - - 2420 2420 - - 2630 2630
132 MA - - - - 2940 2940 - - - - - - 2570 2570 - -
132 MB - - 2680 2680 2910 2910 2940 2940 - - 2340 2340 2550 2550 2560 2560
132 MC - - - - 2830 2830 - - - - - - 2460 2460 - -
160 MA 4730 4730 - - - - 5240 5240 4220 4220 - - - - 4640 4640
160 M 4730 4730 5230 5230 5220 5220 5220 5220 4220 4220 4640 4640 4630 4630 4630 4630
160 L 5240 5240 5220 5220 5050 5050 4720 4720 4650 4650 4630 4630 4470 4470 4740 4740
160 LB 5240 5240 5050 5050 4720 4720 4720 4720 4650 4650 4470 4470 4740 4740 4740 4740
180 M 4660 4660 4950 4950 - - - - 4250 4250 4500 4500 - - - -
180 LB 4660 4660 4870 4870 5200 5200 5370 5370 4250 4250 4390 4390 4710 4710 4850 4850
200 MLA 3050 3050 3850 3850 4400 4400 4850 4850 2430 2430 3050 3050 3500 3500 3850 3850
200 MLB 3050 3050 3850 3850 4400 4400 4850 4850 2430 2430 3050 3050 3500 3500 3850 3850
200 MLC 3050 3050 - - 4400 4400 - - 2430 2430 - - 3500 3500 - -
225 SMA - - 4340 4340 - - 5460 5460 - - 3440 3440 - - 4340 4340
225 SMB 3440 3440 4340 4340 4960 4960 5460 5460 2730 2730 3440 3440 3940 3940 4340 4340
250 SMA 4180 4180 5260 5260 6020 6020 6630 6630 3320 3320 4180 4180 4780 4780 5260 5260
250 SMB 4180 4180 5260 5260 6020 6020 6630 6630 3320 3320 4180 4180 4780 4780 5260 5260
280 SMA 5000 5000 6200 6200 7100 7100 7350 7350 4500 4500 5400 5400 6250 6250 6500 6500
280 SMB 5000 5000 6200 6100 - - - - 4400 4400 5300 5300 - - - -
FAD
FAZ
Aluminum motors,
motor sizes 71 - 280
Mounting arrangement IM B3
M000022

2
FAZ
FAD
Motor 20,000 hours 40,000 hours
size 2-pole 4-pole 6-pole 8-pole 2-pole 4-pole 6-pole 8-pole
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
71 998 470 1085 555 1150 620 1145 615 910 385 985 455 1035 505 1030 500
80 1320 685 1445 790 1530 880 1565 915 1200 565 1310 655 1375 725 1400 750
90 1390 900 1525 1035 1625 1130 1670 1180 1255 770 1370 880 1450 955 1485 990
100 2855 1890 3135 2155 3320 2340 3420 2425 2590 1625 2820 1840 2970 1990 3050 2060
112 M 1560 1430 1680 1510 1810 1640 1840 1660 1380 1250 1470 1300 1580 1410 1600 1420
112 MB 1610 1440 1700 1490 1820 1610 1860 1650 1420 1250 1490 1260 1590 1380 1620 1410
132 SA 2660 2480 - - - - - - 2350 2170 - - - - - -
132 SB 2670 2470 - - - - - - 2360 2160 - - - - - -
132 SC 2660 2370 - - - - - - 2350 2060 - - - - - -
132 S - - 2900 2630 3090 2810 3200 2870 - - 2570 2300 2720 2440 2810 2480
132 M - - 2910 2590 - - 3210 2820 - - 2580 2260 - - 2820 2430
132 MA - - - - 3100 2770 - - - - - - 2730 2400 - -
132 MB - - 2890 2470 3100 2710 3150 2720 - - 2550 2130 2740 2350 2770 2340
132 MC - - - - 3040 2610 - - - - - - 2670 2240 - -
160 MA 4940 4520 - - - - 5520 4960 4430 4010 - - - - 4920 4360
160 M 4960 4500 5500 4960 5540 4900 5540 4900 4450 3990 4910 4370 4950 4310 4950 4310
160 L 5520 4960 5560 4880 5420 4680 5170 4280 4930 4370 4970 4290 4840 4100 5190 4300
160 LB 5540 4940 5420 4680 5170 4280 5170 4280 4950 4350 4840 4100 5190 4300 5190 4300
180 M 4990 4330 5400 4500 - - - - 4580 3920 4950 4050 - - - -
180 L - - 5390 4350 5770 4630 5930 4810 - - 4910 3870 5280 4140 5410 4290
180 LB 5040 4280 5470 4270 5810 4590 5980 4760 4630 3870 4990 3790 5320 4100 5460 4240
200 MLA 3600 2500 4580 3120 5280 3530 5720 3980 2970 1870 3780 2320 4370 2620 4720 2980
200 MLB 3600 2500 4580 3120 5280 3530 5720 3980 2970 1870 3780 2320 4370 2620 4720 2980
200 MLC 3600 2500 - - 5280 3530 - - 2970 1870 - - 4370 2620 - -
225 SMA - - 5230 3440 - - 6530 4400 - - 4330 2550 - - 5400 3270
225 SMB 4140 2740 5230 3440 6030 3900 6530 4400 3430 2030 4330 2550 5010 2870 5400 3270
225 SMC 4140 2740 5230 3440 6030 3900 6530 4400 3430 2030 4330 2550 5010 2870 5400 3270
250 SMA 5020 3330 6380 4150 7440 4610 8050 5210 4160 2470 5290 3060 6200 3360 6680 3840
250 SMB 5020 3330 6380 4150 7440 4610 8050 5210 4160 2470 5290 3060 6200 3360 6680 3840
280 SMA 5950 4050 7380 5010 8540 5660 8810 5890 5450 3550 6580 4210 7690 4810 7960 5040
280 SMB 5950 4050 7380 5010 - - - - 5450 3550 6580 4210 - - - -
Aluminum motors,
motor sizes 71 - 280
M000023

2
FAZ
FAD
FAD
FAZ
Cast iron motors, motor sizes 71 - 450
Motor
size
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
71 270 270 350 350 440 440 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
80 820 460 1010 650 1180 820 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
90 900 380 1110 590 1260 740 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
100 1330 440 1620 730 1820 940 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
112 1330 440 1610 720 1820 930 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
132 S_ 1880 850 2330 1290 2650 1610 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
160 2820 1910 3560 2650 4150 3240 4630 3720 2220 1310 2780 1870 3230 2320 3590 2680
180 3190 2280 4080 3170 4720 3810 5260 4350 2500 1590 3160 2250 3640 2740 4060 3150
200 4230 2960 5380 4120 6270 5000 6960 5700 3320 2060 4184 2920 4850 3590 5380 4120
225 4740 3270 6070 4600 7020 5550 7830 6360 3720 2250 4720 3250 5430 3970 6050 4590
250 6470 3370 8100 5000 9250 6150 10220 7130 5220 2130 6440 3340 7300 4210 8040 4950
280 SM_ 4200 6250 6000 8000 5250 11250 8300 10300 2900 4900 4250 6250 5150 7150 5950 7950
315 SM_ 4180 6200 7400 9400 8900 10900 10000 12000 2850 4850 5250 7250 6350 8350 7200 9000
315 ML_ 4050 6050 7250 9250 8650 10650 9500 11900 2750 4750 5100 7100 6100 8100 6900 8800
315 LK_ 4000 5950 7100 9150 8500 10500 9750 11750 2650 4650 5000 7000 5950 7950 6900 8900
355 SM_ 3050 6850 8600 12400 10550 14350 12200 16000 1750 5550 5900 9700 7300 11100 8550 12350
355 ML_ 2900 6700 8350 12150 10100 13900 12000 15800 1600 5400 5650 9450 6900 10700 7300 11000
355 LK_ 2850 6650 8200 12000 9900 13700 11450 15250 1550 5350 5450 9250 6700 10500 7800 11600
400 LK_ 2150 7150 7100 13100 8850 14850 10450 16450 1)
5800 4300 10300 5500 11500 6750 12750
400 L_ 2150 7150 7100 13100 8850 14850 10450 16450 1)
5800 4300 10300 5500 11500 6750 12750
450 L_ 1800 6800 7600 13500 9000 15000 10800 16800 1)
5500 4500 10500 5600 11500 7000 12900
Mounting arrangement IM V1
Motor
size
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
FAD
FAZ
71 290 260 380 330 460 420 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
80 850 440 1060 650 1220 800 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
90 940 350 1150 550 1320 690 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
100 1400 390 1710 650 1940 860 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
112 1410 380 1730 640 1950 850 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
132 S_ 2010 730 2520 1150 2890 1440 1) 1) 1) 1) 1) 1) 1) 1) 1) 1)
160 3070 1660 4060 2320 4530 2890 4950 3350 2470 1060 3280 1530 3600 1970 3910 2310
180 3580 1980 4650 2680 5430 3340 5970 3890 2880 1280 3730 1760 4360 2260 4760 2680
200 4790 2480 6240 3550 7070 4300 7850 5020 3870 1560 5030 2340 5650 2890 6260 3430
225 5540 2670 7000 3860 8130 4700 8860 5480 4510 1650 5640 2500 6540 3100 7080 3700
250 7390 2640 9200 4080 10670 5000 11660 5970 6135 1380 7530 2410 8710 3040 9470 3780
280 SM_ 5550 5150 7600 6550 9150 7500 10200 9000 4200 3800 5800 4750 7000 5350 7850 6700
315 SM_ 5950 4600 9750 7500 11600 8300 13350 9900 4600 3300 7550 5300 9050 5750 10450 7000
315 ML_ 6650 4300 10500 7050 12900 7800 13400 8300 5300 2900 8300 4900 10350 5250 11600 5400
315 LK_ 7100 3350 11100 5850 13700 6100 14900 8300 5750 2450 8900 3700 11100 3550 12100 5450
355 SM_ 6350 4250 13250 8600 15650 9580 17350 12500 4950 2900 10450 5850 12350 6270 13600 8900
355 ML_ 7100 3700 14600 7950 18050 8600 21100 11650 5750 2350 11850 5150 14700 5300 17000 7600
355 LK_ 7500 3150 15650 6600 19100 7050 21200 8700 6150 1800 12850 3800 15800 3750 17500 5000
400 LK_ 8650 2150 16050 6400 18450 6750 20100 8350 7220 1)
13150 3400 15100 3400 16450 4700
400 L_ 8650 2150 16050 6400 18450 6750 20100 8350 7220 1)
13150 3400 15100 3400 16450 4700
450 L_ 11500 1)
20000 4400 26000 3700 27800 5500 1) 1)
17700 1200 22200 1)
23700 1350
1)
On request
The values for sizes 355-400 are valid for non-sparking M3GP and increased safety M3HP motors. Values for
ﬂameproof M3JP/M3KP motors are available on request.
M000022
M000023

2
Low voltage motors and frequency converters for
hazardous areas
Frequency converters provide significant benefits when
used with motors for hazardous areas. The advantages
include better process control through regulation of the
motor speed, as well as energy savings, and therefore
improved environmental performance.
Certain criteria must be taken into account to ensure
the safety of the frequency converter and motor combi-
nation, as well as the maximum usability of the applica-
tion. The requirements depend on the protection type
in use and whether the motor is regarded as being one
component within a wider system or a separate subsys-
tem.
ABB offers hazardous area motors for use with variable
speed drives with the following protection types: flame-
proof, increased safety (on request), non-sparking, and
dust ignition proof. These motors are designed and cer-
tified for operation with frequency converters. Instruc-
tions for the different protection types, as well as for the
most common types of converter, are provided below. If
further information is needed, please do not hesitate to
contact ABB.
A. Main requirements for
hazardous area motors used
with variable speed drives
1. Flameproof motors (Ex d, Ex de)
The standards specify that the motor must be dimen-
sioned so that its maximum outer surface temperature
is limited according to the temperature class (T4, T5,
etc.). In most cases this requires either type tests or
control of the outer surface temperature of the motor.
Most ABB flameproof motors for temperature class T4
have been type tested with ABB ACS800 converters uti-
lizing Direct Torque Control (DTC), and these combina-
tions can be selected using the loadability curves shown
in Figures 2 and 4. Combined tests with DTC converters
are needed only if the limits of the loadability curves are
exceeded. On such cases also separate certification of
the motor and converter combination may be required.
In the case of other, non DTC–controlled voltage source
converters using pulse width modulation (PWM) con-
trol, combined tests are needed to confirm the correct
thermal performance of the motor. These tests can be
avoided if the motor is fitted with thermal sensors to
control the surface temperature. Such motors have the
following additional markings on their rating plate: -
“PTC” with the tripping temperature and “DIN 44081/82”
In the case of voltage source PWM converters, like the
ABB ACS550, with a minimum switching frequency of 3
kHz or higher, the instructions provided in section B/2.3
can be used for preliminary dimensioning.
For more information on using flameproof motors for
temperature classes T5 and T6 with variable speed
drives, please contact ABB.
2. Increased safety motors (Ex e)
The motor should always be tested together with the
specified converter, and ABB therefore does not recom-
mend the use of low voltage increased safety motors
with variable speed drives.
3. Non-sparking motors (Ex nA)
According to the standards, the combination of motor
and converter must be tested as a unit or dimensioned
by calculation.
ABB non-sparking cast iron motors have been type
tested with ABB ACS800 converters utilizing DTC con-
trol, and these combinations can be selected using the
dimensioning instructions provided in section B/2.2.
Combined tests with DTC converters are needed only
if the limits of the loadability curves are exceeded. On
such cases also separate certification of the motor and
converter combination may be required.
In the case of ABB ACS550 and other voltage source
PWM converters, combined tests are needed to confirm
the correct thermal behavior of the motor. For prelimi-
nary dimensioning purposes, the instructions provided
in section B/2.3 can be used. The final values must be
verified by combined tests.
4. Dust ignition proof motors (DIP, Ex tD)
The standards specify that the motor must be dimen-
sioned so that its maximum outer surface temperature
is limited according to the temperature class (e.g.
T125°C or T150°C). For more information on tempera-
ture classes lower than 125°C, please contact ABB.
ABB DIP/Ex tD motors (T125°C and T150°C) have
been type tested with ACS800 converters utilizing DTC
control, and these combinations can be selected using
the dimensioning instructions provided in section B/2.3.
Combined tests with DTC converters are needed only
if the limits of the loadability curves are exceeded. On
such cases also separate certification of the motor and
converter combination may be required.
In the case of any other voltage source converter with
PWM control, combined tests are needed to confirm the
correct thermal performance of the motor. These tests
can be avoided if the motor is fitted with thermal sensors
to control the surface temperature. Such motors have
the following additional markings on their rating plate: -
“PTC” with the tripping temperature and “DIN 44081/82”.
In the case of voltage source PWM converters with a
minimum switching frequency of 3 kHz or higher, the
instructions provided in section B/2.2 can be used for
preliminary dimensioning.

2
B. Other safety criteria
These criteria are imposed by the competent bodies in
order to ensure the safe use of motors with converters
in hazardous areas.
1.Type tests and certification
ABB has type tested and certified the complete range
Exd, Ex de, Ex nA and Ex td/DIP motors for operation
with frequency converters. On request, ABB can supply
type test reports based on the test procedure specified
by the Notified Bodies for a representative number of
motors with ACS800 converters.
For PWM converters, in most cases a combined type
test is required to ensure safe operation.
2. Motor dimensioning
for variable speed applications
2.1 General
The voltage (or current) fed by the frequency converter
is not purely sinusoidal. This may increase motor losses,
vibration, and noise. Furthermore, a change in the dis-
tribution of the losses may affect the motor temperature
balance and lead to increased bearing temperature.
When the motor is operating at low speeds the cool-
ing capacity of the ventilation fan is decreased, which
reduces the motor’s loadability. A separate constant
speed fan can be used to increase cooling capacity and
loadability at low speeds.
When dimensioning a motor for variable speed applica-
tions, the continuous thermal dimensioning and short
time overloads should be considered.
2.2 Thermal dimensioning with ABB ACS800 con-
verters utilizing DTC control
In the case of ABB ACS800 converters utilizing DTC
control, dimensioning can be done using the loadability
curves (or load capacity curves) in Figures 2 and 3. The
loadability curves show the maximum allowed continu-
ous output torque of the motor as a function of supply
frequency. The output torque is given as a percentage
of the motor’s nominal torque.
The dimensioning can also be done by using ABB’s
DriveSize dimensioning program. This tool can be
downloaded from the ABB website (www.abb.com/
motors&generators).
The loadability curves are based on nominal supply voltage.
Note: the maximum speed of the motor must not be ex-
ceeded even if the loadability curves extend to 100 Hz.
2.3 Thermal dimensioning with other voltage source
PWM-type converters
For VSDs other than DTC-controlled ACS800 convert-
ers, preliminary dimensioning can be done using the
guideline loadability curves in Figures 4 and 5. These
guideline curves assume a minimum switching frequen-
cy of 3 kHz.
To ensure safe operation, the combination must either
be tested for the specific protection type or thermal sen-
sors must be fitted to control the surface temperature.
Frequencies below 5 Hz should be avoided or tested
separately.
Note: the actual thermal loadability of a motor may be
lower than shown by the guideline curves.
2.4 Short time overloads
Short time overloading is usually possible with ABB
flameproof motors. For the exact values, please see the
motor’s rating plate.
Overloadability is specified by three factors:
IOL
Maximum short time current
TOL
Length of allowed overload period
TCOOL
Cooling time required after each overload
period. During the cooling period the motor
current and torque must remain below the limit
of allowed continuous loadability.
3. Operating speed
When a motor is used with a frequency converter, its
actual operating speed may deviate considerably from
its nominal speed (i.e. the speed stamped on the rating
plate). When operating at higher speeds, ensure that
the highest permissible rotational speed of the motor,
or the critical speed of the equipment as a whole, is not
exceeded.
The permitted maximum speed must be stated on a
rating plate. This can be either a separate plate or the
regular plate required for variable speed drive motors.
4.Thermal protection of windings
Most ABB Ex motors are equipped with PTC thermis-
tors to prevent the winding temperatures from exceed-
ing the thermal limits of the insulation materials (usually
Insulation Class F). Please check the product specific
data in the corresponding section of this catalogue.
In countries where the ATEX requirements are in force,
the thermistors must be connected to a thermistor cir-
cuit relay. The relay must function independently and
reliably trip off the supply to the motor according to the
requirements of the “Essential Health and Safety Re-
quirements” in Annex II, item 1.5.1 of the ATEX Direc-
tive 94/9/EC.
In countries where the ATEX requirements are not in
force, it is nevertheless recommended that the thermis-
tors are connected to a thermistor circuit relay that func-
tions independently and will reliably trip off the supply to
the motor.
Note: local installation rules may also allow the thermis-
tors to be connected to equipment other than a ther-
mistor relay, such as the control inputs of a frequency
converter.
Note: the above recommendations do not apply to in-
creased safety ‘e’ motors.

2
5. Rating plates
The following parameters must be shown on the rating
plates of hazardous area motors intended for variable
speed operation:
- speed or frequency range
- power range
- voltage range
- type of torque (constant or quadratic)
- converter type and required minimum switching
frequency
These parameters shall be used while checking the
suitability of a specific motor for its intended application
and for setting the limits of operation for the converter.
C. Technical criteria
1. Lubrication
The effectiveness of the motor lubrication should be
checked by measuring the surface temperature of the
bearing endshields under normal operating conditions.
If the measured temperature is +80°C or above, the re-
lubrication interval specified in ABB’s Manual for motors
for hazardous areas or shown on the lubrication infor-
mation plate must be reduced. The re-lubrication inter-
val should be halved for every 15 K increase in bearing
temperature. If this is not possible, ABB recommends
the use of lubricants suitable for high operating temper-
atures. These lubricants permit the normal re-lubrication
interval to be maintained in spite of a 15 K increase in
the bearing temperature.
In continuous operation at very low speeds, as well
as at low temperatures, the lubrication capabilities of
standard greases may not be sufficient, making it nec-
essary to use special greases with additives.
If the motor is equipped with sealed bearings (i.e. bear-
ings greased for life) any deviation in the operating
temperature from the design temperature will result in a
change in the lifetime of the bearing.
The use of conductive greases for the elimination of
bearing currents is not recommended due to their poor
lubrication characteristics and low conductivity.
2 Winding insulation
The output voltage of voltage source frequency convert-
ers consists of steep voltage pulses. These pulses can
be even higher and steeper when arriving at the motor
terminals due to reflecting pulses in the cables. The
motor’s insulation must therefore be selected according
to the actual pulses at the motor terminals.
2.1 Phase to phase voltages
The maximum allowed phase to phase voltage peaks at
the motor terminals as a function of pulse rise time can
be seen in Figure 1.
Figure 1. Allowed phase to phase voltage peaks at
motor terminals as a function of rise time.
M000196
Vaasa,Finland
ABB Oy,Motors
M000180
0,80
1,00
1,20
1,40
1,60
1,80
2,00
2,20
0,00 0,20 0,40 0,60 0,80 1,00 1,20
Rise time 10-90 %, µs
PeakvoltageULL,kV
ABB Special Insul.
ABB Standard Insul.

2
The highest curve (“ABB Special Insulation”) applies to
random wound motors with a special winding insulation
for frequency converter supply, variant code 405.
The “ABB Standard Insulation” curve applies to all other
random wound motors covered by this catalogue.
2.2 Phase to ground voltages
The allowed phase to ground voltage peaks at the
motor terminals are:
Standard Insulation 1300 V peak
Special Insulation 1800 V peak
2.3 Selection of winding insulation for ACS800 sup-
plied motors
In the case of ABB ACS800 single drives with a diode
supply unit, the motor winding insulation and frequency
converter output filters can be selected using Table 2.
Table 2. Selection of winding insulation for motors used
with ACS800 converters
Nominal supply
voltage UN
of converter
Winding insulation and ¿lters required
UN
” 500 V ABB Standard Insulation
UN
” 600 V ABB Standard Insulation + dU/dt ¿lters
OR
ABB Special Insulation (variant code 405)
UN
” 690 V ABB Special Insulation (variant code 405)
AND
dU/dt ¿lters at converter output
dU/dt filters
These filters are series reactors which decrease the rate of change of
the phase and main voltages and thus reduce voltage stresses in the
windings. They also decrease common mode currents and the risk of
bearing currents.
For more information on resistor braking and converters
with controlled supply units, please contact ABB.
2.4 Selection of winding insulation with all other
converters
The voltage stresses must be restricted so they remain
below the accepted limits. The effect of any filters that
are fitted must be taken into account when dimension-
ing the motor.
3. Bearing currents
Bearing voltages and currents must be avoided in all
variable speed applications to ensure the reliability and
safety of the application. For this purpose insulated
bearings or bearing constructions, common mode filters
and suitable cabling and grounding methods must be
used.
3.1 Elimination of bearing currents with ABB
ACS800 converters
In the case of ABB ACS800 converters with a diode
supply unit (uncontrolled DC voltage), the following
methods must be used to avoid harmful bearing cur-
rents in the motors:
Frame size
250 and smaller No action needed
280 – 315 Insulated non-drive end bearing
355 – 450 Insulated non-drive end bearing
AND
Common mode ¿lter at the converter
Common mode filters
Common mode filters consist of toroidal cores, which reduce common
mode currents in VSD applications and thus decrease the risk of
bearing currents. Common mode filters do not significantly affect the
phase or main voltages on the motor terminals.
For more information and product codes, please contact ABB.
Insulated bearings
Bearings with insulated inner or outer rings are used as standard.
Hybrid bearings, i.e. bearings with non-conductive ceramic balls, can
also be used in special applications. More information for selecting the
correct parts is available on request.
ABB uses insulated bearings which have aluminum
oxide coated inner and/or outer bores or ceramic roll-
ing elements. Aluminum oxide coatings are also treated
with a sealant to prevent dirt and humidity from pen-
etrating into the porous coating. For the exact type
of bearing insulation, see the motor rating plate. It is
not permitted to change the bearing type or insulation
method without permission from ABB.
3.2 Elimination of bearing currents with all other
converters
The user is responsible for protecting the motor and
driven equipment from harmful bearing currents. The
instructions provided in section 3.1 can be followed, but
their effectiveness cannot be guaranteed in all cases.
4. Cabling, grounding and EMC
The use of a frequency converter places greater
demands on the cabling and grounding of the drive
system. To provide proper grounding and ensure com-
pliance with any applicable EMC requirements, motors
above 30 kW should be cabled using shielded sym-
metrical cables and EMC glands, i.e. cable glands pro-
viding 360° bonding. Symmetrical and shielded cables
are also highly recommended for smaller motors. For
motors in frame size IEC 280 and upward, additional
potential equalization between the motor frame and the
driven equipment is needed, unless both are mounted
on a common steel base. In this case, the high frequen-
cy conductivity of the connection provided by the steel
base should be checked.
More information about grounding and cabling of vari-
able speed drives can be found in the manual “Ground-
ing and cabling of the drive system” (Code: 3AFY
61201998)
Please note that proper cable glands providing 360°
bonding, or equivalent, must also be used for the con-
verter and safety switch, if fitted.
The correct grounding of the motor and driven equip-
ment is also important for the avoidance of bearing volt-
ages and currents.

2
D. Ex motor loadability curves
The loadability curves shown in Figures 2 and 3 are
based on type tests using ACS800 frequency convert-
ers with DTC control. The loadability curves assume
that the nominal frequency of the motor (i.e. ﬁeld
weakening point) is 50 Hz or 60 Hz and that the motor
control mode (parameter 99.04) is DTC. The DriveSize
dimensioning program also utilizes the same curves.
For VSDs other than DTC-controlled ACS800 convert-
ers, preliminary dimensioning can be done using the
guideline loadability curves in Figures 4 and 5.
M000182M000181
Loadability curves with ACS800 converters utilizing DTC control
Figure 2. Flameproof motors Ex d, Ex de T4, cast iron (type M3GP) dust ignition proof motors, (DIP/Ex tD 150°C);
nominal frequency of motor 50/60 Hz
50 Hz 60 Hz
Figure 3. Non-sparking motors Ex nA, cast iron (type M3GP) and aluminum dust ignition proof motors (DIP/Ex tD
T125°C), nominal frequency of motor 50/60 Hz
50 Hz 60 Hz
1009080706040 5020 30105
Frequency (Hz)
T/TN ,%
Separate cooling
sizes 160-450
40
50
60
70
80
90
100
110
120
Sizes 80-132
Sizes 160-450
20
30
40
50
60
70
80
90
100T/TN ,%
1009080706040 5020 30105
Frequency (Hz)
Separate cooling
M000275M000274

2
Guideline loadability curves with other voltage source PWM-type converters
Figure 4. Flameproof motors Ex d, Ex de T4, cast iron dust ignition proof motors (DIP/Ex tD T150°C); nominal
frequency of motor 50/60 Hz
50 Hz 60 Hz
Figure 5. Non-sparking motors Ex nA, cast iron dust ignition proof motors (DIP/Ex tD T125°C ); nominal frequency
of motor 50/60 Hz
50 Hz 60 Hz
1009080706040 5020 30105
Frequency (Hz)
T/TN ,%
Separate cooling
sizes 160-400
40
50
60
70
80
90
100
110
120
Sizes 160-400
Sizes 80-132
20
30
40
50
60
70
80
90
100T/TN ,%
1009080706040 5020 30105
Frequency (Hz)
Separate cooling
1009080706040 5020 30105
Frequency (Hz)
T/TN ,%
Separate cooling
sizes 160-400
40
50
60
70
80
90
100
110
120
Sizes 160-400
Sizes 80-132
20
30
40
50
60
70
80
90
100T/TN ,%
1009080706040 5020 30105
Frequency (Hz)
Separate cooling
M000277M000276
M000279M000278

2
High voltage motors and frequency converters for
hazardous areas
Frequency converters provide significant benefits when
used with motors for hazardous areas. The advantages
include better process control through adjustment of the
motor speed, as well as energy savings, and therefore
improved environmental performance.
Certain criteria must be considered to ensure that the
combination of frequency converter and motor can be
used safely. The requirements depend on the protection
type in use. The motor can either be considered alone
or as a part of a system, which is how most motor users
view the situation.
For use with variable speed drives ABB offers hazard-
ous area motors with protection types for flameproof,
increased safety, non sparking, as well as dust ignition
protected motors.
Main requirements for
hazardous area motors used
with variable speed drives
Non-sparking motors (Ex nA)
Certification can be based on type test results or cal-
culation results (depends on the agreement between
manufacturer and certification authority)
Certificate for Ex nA motors with frequency converter
can be announced by factory or authorized certification
body (third party certification). Many Ex nA motors have
already standard type certificate with ABB frequency
converter, for example ACS 600, ACS 800 and
ACS 1000.
Flameproof motors (Ex d, Ex de)
Certification can be based on type test results or cal-
culation results (depends on the agreement between
manufacturer and certification authority).
Ex d motor used with frequency converter are certified
by authorized notified body (third party certification) for
motor series. The certification is independent of the con-
verter type (ABB or other). The descriptive documenta-
tion for the motor shall include the necessary param-
eters and conditions required for use with a converter.

2
General design
– Standardized motors to meet IEC recommendations
and CENELEC standards
– Corrosion and weather protected motors
– Offshore application: IP 55 or IP 56 on request
– Frame material: cast iron, aluminum
– Insulation: class F
– Temperature rise: according class B
– High overload capacity: Tmax
/ TN
> 1.8
– Accelerating torque: > 10%
– High starting performance
– Low noise level: < 85 dB(A)
– Design for variable speed applications
Safety of goods and personnel
– Explosion protection required:
Standard Ex nA Ex e Ex d Ex de
Yes Yes Yes Yes Yes
Variable speed applications
– Ex d, Ex de -motors are certified with included
thermistors. A separate rating plate shows the
regulation field and torque characteristics.
– Ex nA -motors certified
Corrosion protection when needed
– Stainless steel screws
– Stainless steel grease nipples
– Stainless steel rating plates
– Corrosion resistant drain hole plug
– Radial seal, V-ring
– Fan made of reinforced glass fiber laminate
– 2 layers coating epoxy paint system
– Steel fan cover with epoxy coating
– Rotor and stator core corrosion protected
Motors for demanding industries
Interchangeability
– IEC output
– Network: 50 Hz or 60 Hz
– Large capacity of cable entries
– Double fixation holes on the majority of foot-mounted
motors
– One earthing bolt in the terminal box and one on the
frame
– Jacking bolts to make coupling easier as option
– Balancing half key as standard, full key available as
option
Running efficiency
– High efficiency motors
– Minimum power factor requested
– Efficiency corresponding to highest EU efficiency
levels EFF1
– Winding protection as option; PTC or PT100
– Grease nipples as option
– SPM nipples as option
– Balancing close to class R
– Bearing lifetime L10
, 40.000 h
– Bearing temperature rise max. +55K
Approved design for specifications
– EEMUA (Engineering Equipment and Materials Users
Association) - Variant code 773
– NORSOK (North Sea Territorial Waters) - Variant code
774
– SHELL DEP 33.66.05.31 - Gen, January 1999 -
Variant code 775
– UIC (Union des Industries Chimiques) - Variant code
787
– VIK (Verband der industriellen Energie- und
Kraftwirtschaft e.V.) - Variant code 421
Motors for marine applications
For hazardous area motors in marine applications
please contact ABB for further information. See also
our product catalogue for marine motors.

2
General design for demanding industries
– Standardized motors to meet IEC recommendations
and CENELEC standards
– Frame material: cast iron
– Insulation: class F
– Temperature rise: according class B
– Low noise level: < 77 dB(A) (+3 dB(A) tolerance)
– Degree of protection: Min. IP 54
Safety of goods and personnel
– Explosion protection availability:
Standard Ex nA Ex e Ex d Ex de
Yes,
practically Ex nA
Yes Yes No Yes
Corrosion protection
– Stainless steel rating plates
– Fan made of reinforced glass fiber laminate or
aluminum
– Heavy industry paint system (70 µm epoxy)
Interchangeability
– Nominal voltages 380-400-415 V; voltage 420 V 0n
request
– IEC output and dimensions
– Shaft dimension requirements for 315, 355 and 400
– Wide range voltage up to frame size 250
– Stamping of 'VIK' on rating plate
– Additional rating plate in terminal box
– Prepared for mounting of customer identification plate
– Stamping of weight for motors above 30 kg
– Drainage hole in flange for IM V3
– Plugs in unused fixation holes on foot-mounted
motors
– Drainage holes, when provided, must be closed
– Terminal box 90° turnable without turning terminal
board
– Terminal box with gland plate from size M3_80 (Cast
iron Ex de, Ex nA and Ex e)
– Split terminal box from size M3_80 (Cast iron Ex de,
Ex nA and Ex e), except 160-180
– Undetachable screws in terminal box cover
– Earthing terminal on frame
Specification
Motors acc. to VIK (Verband der industriellen Energie- und
Kraftwirtschaft e.V.) – Variant code 421
– Half key balanced
– Ex e up to size 200 (incl.): one rating plate for T1/T2
and one for T3
– Minimum tE
= 7 sec for Ex e
Running efficiency
– Nominal bearing life t 40000 h in coupling
– Regreasable bearings available from size 250
– Button head grease nipples acc. to DIN 3404
– Grease intervals (amb. temp. 40°C) for 2 pole motors:
min. 2000 h
– Grease intervals (amb. temp. 40°C) for 4-12 pole
motors: min. 4000 h
Service
– Stock availability
Specifications approved for operations by:
– Amoco
– Basf
– Bayer
– Degussa
– Dow Chemical
– CSM
– Henkel

Flameproof motors
Ex d/Ex de IIB/IIC T4
Totally enclosed squirrel cage three phase
low voltage motors,
Sizes 80 - 400, 0.55 to 710 kW
Mechanical design................................36
Ordering information............................41
Technical data.......................................42
Rating plates.........................................51
Variant codes........................................52
Dimension drawings ...........................57
Flameproof motors in brief..................61
ABB / Cat. BU / Ex-motors / Flameproof EN 01-2008 35
www.abb.com/motors&generators
> Motors
>> Motors and Generators for Hazardous Areas
3

36 ABB / Cat. BU/Ex-motors / Flameproof EN 01-2008
3 Metric threads (as standard)
Motor size Main cable entries Max.
supply
cable area
mm2
Terminal
bolt size
6 x
Auxiliary cable entries (heaters, thermistors etc.)
Thread Metal
plug
Thread Metal plug
80 - 90 1 x M25 x1.5 – 10 M5 1 x M20 x 1.5 1 x M20 x 1.5
100 - 132 2 x M32 x1.5 1 x M32 10 M5 1 x M20 x 1.5 1 x M20 x 1.5
160 - 180 2 x M40 x1.5 1 x M40 35 M6 2 x M20 x 1.5 2 x M20 x 1.5
200 - 250 2 x M50 x1.5 1 x M50 70 M10 2 x M20 x 1.5 2 x M20 x 1.5
280 2 x M63 x1.5 1 x M63 2 x 150 M10 2 x M20 x 1.5 2 x M20 x 1.5
315 2 x M63 x1.5 1 x M63 2 x 240 M10 2 x M20 x 1.5 2 x M20 x 1.5
355 - 400 2 x M75 x1.5 1 x M75 2 x 240 M10 2 x M20 x 1.5 2 x M20 x 1.5
NPT threads as option, variant code 730 = Prepared for NPT cable glands
Motor size Main cable entries Auxiliary cable entries (heaters, thermistors etc.)
Thread NPT plug Max. possible thread size Thread NPT plug
80-112 1X3/4" - 1x1" 1x3/4" 1x3/4"
132 2x3/4" 1x3/4" 1x1" 1x3/4" 1x3/4"
160-180 2x1 1/4" 1x1 1/4" 1 or 2x1 1/2" 2x3/4" 2x3/4"
200-250 2x1 1/2" 1x1 1/2" 1 or 2x2" 2x3/4" 2x3/4"
280 2x2" 1x2" 1 or 2x3" 1x3/4" 1x3/4"
315 2x3" 1x3" 1 or 2x3" 1x3/4" 1x3/4"
355-400 2x3" 1x3" 1 or 2x3" 1x3/4" 1x3/4"
The terminal box can be equipped with cable glands or
from motor size 280 with cable boxes in motor type Ex
de. Terminations are suitable for Cu- and Al-cables. For
a horizontal mounted motor the cable entry is normally
located on the right-hand side, seen from D-end, for
other positions see variant codes.
Cable entries
Unless otherwise specified, motors are delivered
without cable glands with threaded cable entries for
flameproof cable gland according to the table below. In
frame sizes 100 to 400, the terminal box has two main
cable entries with metric thread, one plugged with a
The flameproof terminal box complies with the require-
ments of this enclosure type and effectively prevents the
transmission of an internal explosion to the surrounding,
potentially explosive atmosphere.
To maintain the integrity of this enclosure, connections
must be made in accordance with the safety standards
applicable to this type of terminal box. Furthermore,
sealing must be selected corresponding to the type of
supply cable used.
Flameproof terminal box (Ex d-motor)
Terminal box, general
Terminal boxes are mounted on the top of the basic
version of flame proof motors. The terminal box of Ex d
motors 80-250 can be turned 4 x 90°, Ex d 280-400 2 x
180° after the delivery. When ordering Ex d motors 280-
400 with 4 x 90°, the position of the terminal box has to
be defined.
flameproof metal plug. The auxiliary cable entry is also
with metric thread, plugged with a flameproof metal
plug. NPT threads are available on request.

ABB / Cat. BU/Ex-motors / Flameproof EN 01-2008 37
3
Supply of cable glands (Ex d)
Cable glands are either fitted to the motor, or delivered
loose to avoid damage during transport. For ordering,
see variant codes. Other types are available on request.
Unless otherwise specified when ordering cable glands,
and when data on the cables have not been provided
when ordering, the cable glands listed below will be de-
livered. The unused opening is closed with a flameproof
metal plug.
Motors sizes 280 - 315
Examples of terminal boxes:
M000183M000184
M000185M000186
Variant code: 733 Standard cable gland Ex d IIB, non-armoured cable
735 Standard cable gland Ex d IIC, non-armoured cable
Thread Gland
Closing
plug
Outer cable
diameter, mm
IIB/IIC
Thread Gland Plug
Outer cable
diameter, mm
IIB/IIC
80 - 90 1xM25 x 1.5 1xM25 - 9-18 1xM20 x 1.5 1xM20 5-12
100 - 132 2xM32 x 1.5 1xM32 1xM32 17-26 1xM20 x 1.5 1xM20 5-12
160 - 180 2xM40 x 1.5 1xM40 1xM40 22-30 2xM20 x 1.5 1xM20 1xM20 5-12
200 - 250 2xM50 x 1.5 1xM50 1xM50 31-40 2xM20 x 1.5 1xM20 1xM20 5-12
280 2xM63 x 1.5 1xM63 1xM63 39-50 2xM20 x 1.5 1xM20 1xM20 5-12
315 - 400 2xM75 x 1.5 1xM75 1xM75 46-60 2xM20 x 1.5 1xM20 1xM20 5-12
Variant code: 728 Standard cable gland Ex d IIB, armoured cable, double sealing
732 Standard cable gland Ex d IIB, armoured cable
734 Standard cable gland Ex d IIC, armoured cable
Thread Gland Closing
Inner cable
sheath, mm
IIB/IIC
Outer cable
sheath, mm
IIB/IIC
Thread Gland Plug
Inner cable
sheath, mm
IIB/IIC
Outer cable
sheath, mm
IIB/IIC
80 - 90 1xM25 x 1.5 1xM25 – 14-18 19-25 1xM20 x 1.5 1xM20 6-10 10-16
100 - 132 2xM32 x 1.5 1xM32 1xM32 18-23 25-30 1xM20 x 1.5 1xM20 6-10 10-16
160 - 180 2xM40 x 1.5 1xM40 1xM40 23-28 30-36 2xM20 x 1.5 1xM20 1xM20 6-10 10-16
200 - 250 2xM50 x 1.5 1xM50 1xM50 32-37 40-46 2xM20 x 1.5 1xM20 1xM20 6-10 10-16
280 2xM63 x 1.5 1xM63 1xM63 43-50 53-60 2xM20 x 1.5 1xM20 1xM20 6-10 10-16
315 - 400 2xM75 x 1.5 1xM75 1xM75 48-60 58-70 2xM20 x 1.5 1xM20 1xM20 6-10 10-16
Note: For above mentioned cable glands and the associated cable diameters a clamping device on the gland is not available.
In case clamping is required, cable diameters have to checked because the gland type has to be changed.

3
Unless otherwise specified when ordering cable glands,
and when data on the cables have not been provided
when ordering, the cable glands listed on the next page
will be delivered. Other types are available on request.
Cable glands are either fitted to the motor, or delivered
loose to avoid damage during transport. For ordering,
see variant codes.
Supply of cable glands (Ex de)
Increased safety terminal box (Ex de-motors)
As an alternative a flameproof motor can be delivered
with an increased safety terminal box. The certificate of
approval for the flameproof motors also covers this ap-
plication, referred to as Ex de.
The increased safety terminal box complies with the
requirements of this type of enclosure and prevents all
Motors are delivered with cable glands or cable boxes
according to the tables as standard. The terminal box
in sizes 80-132 and 200-250 is 4x90° turnable as
standard; in sizes 160-180 as easy option 4x90°.
In sizes 280-400 as standard 2x180° (cabling from both
sides) and on order with corresponding variant codes
cabling in axial direction possible.
Cable entries
In frame sizes 100 to 132 the terminal box has two main
cable entries with metric thread. In frame sizes 160
to 250 the terminal box has also two main cable en-
tries with metric threads; both are equipped with cable
glands of a closed type. In frame sizes 280 to 400 the
terminal box has two main metric cable glands, one
equipped with a cable gland, one with a metal plug.
ignition sources such as sparks, excessive overheating
etc. The features of the terminal box are: no self-
loosening terminals, compliance with creepage
distances and clearances specified in standards and
cable gland with cable clamping.
Examples of terminal boxes:
M000187M000188
M000189M000190
Motor size Main cable entries Auxiliary cable entries
Thread Cable gland Metal
plug
Single core
cross-section1)
mm²
Terminal
bolt size
6 x
Outer cable
shealth mm
Thread Cable gland Outer cable
shealth
mm
80-90 1xM25 (1x)M25x1.5 - 10 M5 10-16 1xM20x1.5 1xM20x1.5 8-14
100-132 2xM32 (2x)M32x1.5 - 10 M5 16-21 1xM20x1.5 1xM20x1.5 8-14
160-180 2xM40 (2x)M40x1.5 - 35 M6 18-27 2xM20x1.5 2xM20x1.5 8-14
200-250 2xM50 (2x)M50x1.5 - 70 M10 26-35 2xM20x1.5 2xM20x1.5 8-14
280-400 See tables on next pages 2xM20x1.5 2xM20x1.5 8-14
1)
Max. size maybe bigger, but depends on the used cable lug. Clearances must be acc. to Ex-standards

3
Flameproof motors sizes 280-400, type Ex de
Motor
sizes
Voltage/
freq.
code
Ter-
minal
box
Top-mounted
Flange or adapter
Cable box
or cable gland
Gland
thread
Cable
diameter
Max.conn
cable
area mm2
3000 r/min (2 poles)
280 210 3GZF294730-749 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x150
315SM, ML 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
315LKA, LKB 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
315LKC 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
355 SMA D 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
355 SMA E 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 SMB, SMC 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
355 ML, LK 750 3GZF294730-944 3GZF294730-501 2x Ø60-80 4x240
400 L, LK 750 3GZF294730-944 3GZF294730-501 2x Ø60-80 4x240
280 210 3GZF294730-749 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x150
315SM, ML 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
315LKA, LKB 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
315LKC 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
355 SMA D 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
355 SMA E 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 SMB, SMC 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
355 ML, LK 750 3GZF294730-944 3GZF294730-501 2x Ø60-80 4x240
400 L, LK 750 3GZF294730-944 3GZF294730-501 2x Ø60-80 4x240
280 210 3GZF294730-749 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x150
315 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 SMA, SMB 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 SMC D 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
355 SMC E 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 ML 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
355 LKA 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
355 LKB 750 3GZF294730-944 3GZF294730-501 2x Ø60-80 4x240
400 L, LK 750 3GZF294730-944 3GZF294730-501 2x Ø60-80 4x240
750 r/min (8 poles)
280 210 3GZF294730-749 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x150
315 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 SM 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 ML D 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
355 ML E 370 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 LK 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
400 LA, LB, 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
LKA, LKB
400 LC, LKC 750 3GZF294730-944 3GZF294730-301 2x Ø48-60 4x240
Voltage/frequency codes:
D = 380-420 VD 50 Hz, 660/690 VY 50 Hz, 440-480 VD 60 Hz
E = 500 VD 50 Hz, 575 VD 60 Hz
Terminal bolt sizes M12.
Motor sizes 280-400 – Co-ordination of terminal boxes and cable entries

3
M3KP 280 - 315 M3KP 355 - 400
Flange
3GZF294730-749 (M3KP 280)
3GZF294730-753 (M3KP 315)
Adapter D-D (optional)
3GZF294730-942
Adapter E-D (standard)
3GZF294730-944
Adapter E-2D (optional)
3GZF294730-945
Cable box
3GZF294730-301
Cable box
3GZF294730-501
Inlet c e f g d
C 62 193 62 193 M8
D 100 300 80 292 M10
E 115 370 100 360 M12
Auxiliary devices (view from N-end)
Cable glands for auxiliary devices
as standard 2 x M20 x 1.5.
Dimensions for terminal box inlets
M000191
M000193
M000088
M000192

3
Ordering information
Sample order
When placing an order, please state the following
minimum data in the order, as in example.
The product code of the motor is composed in
accordance with the following example.
Motor size
A B C D, E, F, G
M3JP 160 MLA 3GJP 161 410 - A D A 003 etc.
1 2 3 4 5 6 7 8 910 11 12 13 14
A Motor type
B Motor size
C Product code
D Mounting arrangement code
E Voltage and frequency code
F Generation code
G Variant codes
Motor type M3JP 160 MLA
Pole number 2
Mounting arrangement (IM code) IM B3 (IM 1001)
Rated output 11 kW
Product code 3GJP161410-ADA
Variant codes if needed
Description of the product code:
Positions 1 - 4
3GJP = Totally enclosed frameproof motor E xd
with cast iron frame
3GKP = Totally enclosed flameproof motor Ex de
with cast iron frame
Positions 5 and 6
IEC-frame size
06 = 63 10 = 100 18 = 180 28 = 280
07 = 71 11 = 112 20 = 200 31 = 315
08 = 80 13 = 132 22 = 225 35 = 355
09 = 90 16 = 160 25 = 250 40 = 400
Position 7
Speed (pole pairs)
1 = 2 poles 4 = 8 poles 7 t12 poles
2 = 4 poles 5 = 10 poles 8 =Two-speed motors
3 = 6 poles 6 = 12 poles 9 = Multi-speed motors
Position 8-10 Running number series
Position 11 - (Dash)
Position 12
Mounting arrangement
A = Foot-mounted, top mounted terminal box
R = Foot-mounted, terminal box RHS seen from D-end
L = Foot-mounted, terminal box LHS seen from D-end
B = Flange-mounted, large flange with clearance holes
C = Flange-mounted, small flange with tapped holes
V = Flange-mounted, Special flange
H = Foot/flange-mounted, large flange with clearance
holes
J = Foot/flange-mounted, small flange with tapped
holes
S = Foot/flange-mounted, terminal box RHS seen from D-end
T = Foot/flange-mounted, terminal box LHS seen from N-end
F = Foot/flange-mounted, special flange
Position 13
Voltage/frequency code
See tables on the technical data pages.
Position 14
Generation code G
Generation code is followed by variant codes according to the
hazardous area, see below and on corresponding pages with
variant codes:
461 Ex d(e) design, Group IIC
462 Ex d(e) design, temperature class T5
463 Ex d(e) design, temperature class T6
Single speed motors
S D A a)
B a)
E F b)
X
380 VY 50 Hz 380 V' 50 Hz 380 VY 50 Hz 380 V' 50 Hz 500 V' 50 Hz 500 VY 50 Hz Other rated voltage, connection
400 VY 50 Hz 400 V' 50 Hz 220 V' 50 Hz 660 VY 50 Hz 575 V' 60 Hz or frequency, max. 690 V
415 VY 50 Hz 415 V' 50 Hz
220 V' 50 Hz 660 VY 50 Hz G a)
H a)
T b)
U b)
230 V' 50 Hz 690 VY 50 Hz 415 VY 50 Hz 415 V' 50 Hz 660 V' 50 Hz 690 V' 50 Hz
440 VY 60 Hz 440 V' 60 Hz
a)
On request for motor sizes 315-400. b)
On request for motor sizes 355-400.
Code letters for supplementing the product code for voltage and frequency:
Two-speed motors
Motor S D A B E H T U X
80-250 230V 50Hz 400V 50Hz 220V 50Hz 380V 50Hz 500V 50Hz 415V 50Hz 660V 50Hz 690 V 50 Hz Other rated voltage
280-400 220-230V 50Hz 380-400V 50Hz 220V 50Hz 380V 50Hz 500V 50Hz 400-415V 50Hz connection or freq.
440-480v 60Hz 575v 60hZ 460-480v 60Hz max. 690 V

3
Flameproof motors Ex d/Ex de IIB/IIC T4
Technical data for totally enclosed squirrel cage
three phase motors
IP 55, IC 411; Insulation class F, temperature rise class B
Notes:
When ordering IIC motors, following variant code has to be
added: 461 = Ex d, Ex de design, Group IIC
Values above are given for 400 V 50 Hz; data for other voltages,
frequencies, ambient temperatures and surface temperature T5
on request.
M000194
Output
kW
Motor type Product code Speed
r/min
Efﬁciency at Power
factor
cos I
Current Torque Moment
of inertia
J=1/4GD2
kgm2
Weight Sound
pressure
level LP
dB(A)
FL 3/4 IN
Is
TN
Ts
Tmax
Ex d Ex de
50 Hz 60 Hz 100% 75% A IN
Nm TN
TN
kg
3000 r/min = 2-poles 400 V 50 Hz Basic design
0.75 0.9 M3JP/KP 80 MA 3GJP/KP 081 310-••G 2861 78.2 76.7 0.86 1.62 7.3 2.5 3.7 3.8 0.0006 37 28 59
1.1 1.3 M3JP/KP 80 MB 3GJP/KP 081 320-••G 2831 82.0 82.0 0.89 2.21 5.7 3.7 3.0 3.2 0.0007 39 30 59
1.5 1.7 M3JP/KP 90 SLA 3GJP/KP 091 010-••G 2881 82.7 82.6 0.88 3 6.7 5 3.0 3.5 0.001 50 41 61
2.2 2.5 M3JP/KP 90 SLC 3GJP/KP 091 030-••G 2871 85.3 85.8 0.90 4.19 7.5 7.3 2.7 3.5 0.0014 53 44 61
3 3.5 M3JP/KP 100 LA 3GJP/KP 101 510-••G 2896 87.4 87.7 0.90 5.6 7.2 10 2.2 3.0 0.0036 67 58 65
4 4.6 M3JP/KP 112 MB 3GJP/KP 111 320-••G 2901 87.7 87.8 0.90 7.5 7.2 13 3.6 3.7 0.0043 70 61 65
5.5 6.3 M3JP/KP 132 SMB 3GJP/KP 131 220-••G 2905 87.6 87.5 0.90 10.4 7.0 18 2.4 3.3 0.009 98 89 71
7.5 8.6 M3JP/KP 132 SMD 3GJP/KP 131 240-••G 2914 89.0 89.2 0.90 13.8 7.6 25 2.8 3.6 0.012 106 97 71
11 12.7 M3JP/KP 160 MLA 3GJP/KP 161 410-••G 2936 91.5 91.4 0.87 20 7.2 36 2.9 3.3 0.039 153 147 71
15 17 M3JP/KP 160 MLB 3GJP/KP 161 420-••G 2934 91.9 91.8 0.88 28 7.5 49 3.1 3.5 0.047 162 156 71
18.5 21 M3JP/KP 160 MLC 3GJP/KP 161 430-••G 2934 92.6 92.7 0.90 33 7.5 60 2.8 3.4 0.054 173 167 71
22 25 M3JP/KP 180 MLA 3GJP/KP 181 410-••G 2938 92.8 92.9 0.90 39 6.9 72 2.5 3.1 0.077 200 194 71
30 35 M3JP/KP 200 MLA 3GJP/KP 201 410-••G 2946 94.2 94.3 0.88 54 7.4 97 3.0 3.2 0.15 310 290 74
37 43 M3JP/KP 200 MLC 3GJP/KP 201 430-••G 2948 94.3 94.2 0.89 65 7.5 120 2.8 3.2 0.19 340 320 75
45 52 M3JP/KP 225 SMB 3GJP/KP 221 220-••G 2968 94.8 94.7 0.87 79 7.2 145 2.7 3.0 0.26 400 380 76
55 63 M3JP/KP 250 SMA 3GJP/KP 251 210-••G 2970 94.7 94.5 0.88 96 7.7 177 2.4 3.1 0.49 460 440 75
75 90 M3JP/KP 280 SMA 3GJP/KP 281 210-••G 2978 94.8 94.3 0.88 131 7.6 240 2.1 3.0 0.8 725 645 77
90 105 M3JP/KP 280 SMB 3GJP/KP 281 220-••G 2976 95.1 94.8 0.90 152 7.4 289 2.1 2.9 0.9 765 685 77
110 125 M3JP/KP 315 SMA 3GJP/KP 311 210-••G 2982 95.1 94.4 0.86 194 7.6 352 2.0 3.0 1.2 980 900 78
132 155 M3JP/KP 315 SMB 3GJP/KP 311 220-••G 2982 95.5 95.0 0.88 228 7.4 423 2.2 3.0 1.4 1040 960 78
160 185 M3JP/KP 315 SMC 3GJP/KP 311 230-••G 2981 96.1 95.6 0.89 269 7.5 513 2.3 3.0 1.7 1125 1045 78
200 230 M3JP/KP 315 MLA 3GJP/KP 311 410-••G 2980 96.3 95.9 0.90 336 7.7 641 2.6 3.0 2.1 1290 1210 78
250 290 2)
M3JP/KP 355 SMA 3GJP/KP 351 210-••G 2984 96.4 95.9 0.89 425 7.7 800 2.1 3.3 3 1790 1630 83
315 362 2)
M3JP/KP 355 SMB 3GJP/KP 351 220-••G 2980 96.6 96.3 0.89 535 7.0 1009 2.1 3.0 3.4 1870 1710 83
355 410 2)
M3JP/KP 355 SMC 3GJP/KP 351 230-••G 2984 96.8 96.5 0.88 604 7.2 1136 2.2 3.0 3.6 1940 1780 83
400 450 2)
M3JP/KP 355 MLA 3GJP/KP 351 410-••G 2982 96.9 96.7 0.88 680 7.1 1281 2.3 2.9 4.1 2190 2030 83
450 510 2)
M3JP/KP 355 MLB 3GJP/KP 351 420-••G 2983 97.1 97.0 0.90 750 7.9 1441 2.2 2.9 4.3 2270 2110 83
500 0 2)
M3JP/KP 355 LKA 3GJP/KP 351 810-••G 2982 97.1 97.0 0.90 830 7.5 1601 2.1 3.5 4.8 2510 2350 83
560 630 3)
M3JP/KP 400 LA 3GJP/KP 401 510-••G 2988 97.2 97.0 0.89 940 7.8 1790 2.1 3.4 7.9 3230 3070 82
560 630 3)
M3JP/KP 400 LKA 3GJP/KP 401 810-••G 2988 97.2 97.0 0.89 940 7.8 1790 2.1 3.4 7.9 3230 3070 82
630 710 3)
M3JP/KP 400 LB 3GJP/KP 401 520-••G 2987 97.4 97.3 0.89 1055 7.8 2014 2.2 3.4 8.2 3330 3170 82
630 710 3)
M3JP/KP 400 LKB 3GJP/KP 401 820-••G 2987 97.4 97.3 0.89 1055 7.8 2014 2.2 3.4 8.2 3330 3170 82
710 780 3)
M3JP/KP 400 LKC 3GJP/KP 401 830-••G 2987 97.5 97.4 0.89 1185 7.8 2270 2.6 3.4 9.3 3580 3420 82
710 780 3)
M3JP/KP 400 LC 3GJP/KP 401 530-••G 2987 97.5 97.4 0.89 1185 7.8 2270 2.6 3.4 9.3 3580 3420 82
3000 r/min = 2-poles 400 V 50 Hz High-output design
9.2 10.6 M3JP/KP 132 SME 3GJP/KP 131 250-••G 2875 86.2 86.6 0.91 17.1 6.1 30.6 2.2 2.9 0.012 106 97 77
22 25 M3JP/KP 160 MLD 3GJP/KP 161 440-••G 2929 91.7 91.6 0.90 39 7.4 72 2.8 3.4 0.059 179 173 77
30 34 M3JP/KP 180 MLB 3GJP/KP 181 420-••G 2944 93.0 92.9 0.88 54 7.5 97 2.8 3.5 0.092 216 210 78
37 43 4)
M3JP/KP 180 MLC 3GJP/KP 181 430-••G 2947 93.9 93.9 0.89 65 7.9 120 2.9 3.6 0.114 235 229 78
45 52 M3JP/KP 200 MLE 3GJP/KP 201 450-••G 2944 93.9 94.0 0.88 79 7.3 146 2.9 3.1 0.22 345 325 79
55 63 M3JP/KP 225 SMC 3GJP/KP 221 230-••G 2965 94.5 94.2 0.88 96 7.1 177 2.6 3.0 0.29 420 400 80
67 73 4) 5)
M3JP/KP 225 SMD 3GJP/KP 221 240-••G 2966 94.6 94.1 0.86 120 7.4 216 2.8 3.2 0.31 430 410 78
75 84 M3JP/KP 250 SMB 3GJP/KP 251 220-••G 2969 95.2 95.1 0.89 129 7.9 241 2.6 3.2 0.57 500 480 80
90 96 1) 5)
M3JP/KP 250 SMC 3GJP/KP 251 230-••G 2965 95.0 94.9 0.90 153 7.7 290 2.6 3.1 0.59 510 490 80
110 125 M3JP/KP 280 SMC 3GJP/KP 281 230-••G 2978 95.7 95.3 0.90 185 7.9 353 2.4 3.0 1.15 825 745 77

3
1)
Temperature rise class F.
2)
-3dB(A) sound pressure level reduction with unidirectional fan construction. Direction of rotation must be stated when ordering, see variant
codes 044 and 045.
3)
Unidirectional fan construction as standard. Direction of rotation must be stated when ordering, see variant codes 044 and 045.
4)
The output exceeds one step higher output than the basic with rated output acc. to CENELEC.
5)
For 400-415 V 50 Hz (380 V 50 Hz voltage code B).
Output
kW
r/min
factor
cos I
of inertia
J=1/4GD2
kgm2
Weight Sound
pressure
level LP
dB(A)
FL 3/4 IN
Is
TN
Ts
Tmax
Ex d Ex de
50 Hz 60 Hz 100% 75% A IN
Nm TN
TN
kg
0.55 0.66 M3JP/KP 80 MA 3GJP/KP 082 310-••G 1421 77.2 76.4 0.76 1.4 4.9 3.7 2.3 2.7 0.001 38 29 59
0.75 0.9 M3JP/KP 80 MB 3GJP/KP 082 320-••G 1413 78.3 78.4 0.79 1.8 5.1 5.1 2.4 2.7 0.0012 38 29 59
1.1 1.3 M3JP/KP 90 SLA 3GJP/KP 092 010-••G 1435 80.8 80.3 0.81 2.48 5.9 7.3 2.8 3.5 0.002 51 42 54
1.5 1.7 M3JP/KP 90 SLC 3GJP/KP 092 030-••G 1431 81.8 81.8 0.81 3.31 6.4 10 2.9 3.4 0.003 53 44 54
2.2 2.5 M3JP/KP 100 LA 3GJP/KP 102 510-••G 1441 86.4 87.0 0.86 4.4 7.0 14.5 2.7 3.3 0.0075 67 58 52
3 3.5 M3JP/KP 100 LB 3GJP/KP 102 520-••G 1442 86.2 86.7 0.83 6.1 7.0 20 2.7 3.4 0.0081 69 60 52
4 4.6 M3JP/KP 112 MC 3GJP/KP 112 330-••G 1436 85.7 86.0 0.81 8.4 6.9 27 2.9 3.7 0.0093 72 63 52
5.5 6.3 M3JP/KP 132 SMB 3GJP/KP 132 220-••G 1448 87.6 87.9 0.81 11.4 6.7 36 3.1 3.3 0.02 102 93 60
7.5 8.6 M3JP/KP 132 SMD 3GJP/KP 132 240-••G 1447 88.4 88.7 0.81 15.4 6.6 50 3.1 3.4 0.023 108 99 60
11 12.7 M3JP/KP 160 MLC 3GJP/KP 162 430-••G 1470 91.6 91.6 0.82 22.5 7.7 71 3.1 3.6 0.09 172 166 62
15 17 M3JP/KP 160 MLE 3GJP/KP 162 450-••G 1467 92.3 92.3 0.83 30 7.6 98 3.1 3.6 0.121 195 189 62
18.5 21 M3JP/KP 180 MLA 3GJP/KP 182 410-••G 1474 92.7 92.8 0.82 36 7.3 120 2.7 3.2 0.176 212 206 62
22 25 M3JP/KP 180 MLB 3GJP/KP 182 420-••G 1471 92.8 92.9 0.82 42 7.1 143 2.6 3.0 0.191 220 214 62
30 35 M3JP/KP 200 MLB 3GJP/KP 202 420-••G 1475 93.7 93.8 0.84 56 7.4 194 3.3 3.0 0.34 340 320 61
37 43 M3JP/KP 225 SMB 3GJP/KP 222 220-••G 1480 93.8 93.6 0.84 69 7.7 239 3.2 2.9 0.42 390 370 67
45 52 M3JP/KP 225 SMC 3GJP/KP 222 230-••G 1477 94.6 94.6 0.86 81 7.4 291 3.2 2.7 0.49 425 405 67
55 63 M3JP/KP 250 SMA 3GJP/KP 252 210-••G 1479 94.7 94.8 0.83 101 7.2 355 2.5 3.1 0.72 450 430 66
75 88 M3JP/KP 280 SMA 3GJP/KP 282 210-••G 1484 94.9 94.8 0.85 135 6.9 483 2.5 2.8 1.25 725 645 68
90 105 M3JP/KP 280 SMB 3GJP/KP 282 220-••G 1483 95.3 95.3 0.86 159 7.2 580 2.5 2.7 1.5 765 685 68
110 125 M3JP/KP 315 SMA 3GJP/KP 312 210-••G 1487 95.6 95.4 0.86 193 7.2 706 2.0 2.5 2.3 1000 920 70
132 150 M3JP/KP 315 SMB 3GJP/KP 312 220-••G 1487 95.8 95.7 0.86 232 7.1 848 2.3 2.7 2.6 1060 980 70
160 185 M3JP/KP 315 SMC 3GJP/KP 312 230-••G 1487 96.0 95.9 0.85 287 7.2 1028 2.4 2.9 2.9 1100 1020 70
200 230 M3JP/KP 315 MLA 3GJP/KP 312 410-••G 1486 96.2 96.2 0.86 351 7.2 1285 2.5 2.9 3.5 1260 1180 70
250 288 M3JP/KP 355 SMA 3GJP/KP 352 210-••G 1488 96.5 96.4 0.86 438 7.1 1604 2.3 2.7 5.9 1800 1640 74
315 362 M3JP/KP 355 SMB 3GJP/KP 352 220-••G 1488 96.7 96.6 0.86 550 7.3 2022 2.3 2.8 6.9 1970 1810 74
355 400 M3JP/KP 355 SMC 3GJP/KP 352 230-••G 1487 96.7 96.6 0.86 616 6.8 2280 2.4 2.7 7.2 2010 1850 78
400 450 M3JP/KP 355 MLA 3GJP/KP 352 410-••G 1489 96.9 96.7 0.85 700 6.8 2565 2.3 2.6 8.4 2330 2170 78
450 500 M3JP/KP 355 MLB 3GJP/KP 352 420-••G 1490 96.9 96.7 0.86 784 6.9 2884 2.3 2.9 8.4 2330 2170 78
500 575 M3JP/KP 355 LKA 3GJP/KP 352 810-••G 1490 97.0 96.9 0.86 875 6.8 3204 2.0 3.0 10 2690 2530 78
560 630 M3JP/KP 400 LA 3GJP/KP 402 510-••G 1491 97.1 97.0 0.85 980 7.4 3587 2.4 3.0 15 3200 0 78
560 630 M3JP/KP 400 LKA 3GJP/KP 402 810-••G 1491 97.1 97.0 0.85 980 7.4 3587 2.4 3.0 15 3200 0 78
630 710 M3JP/KP 400 LKB 3GJP/KP 402 820-••G 1491 97.1 97.0 0.87 1085 7.6 4035 2.2 3.1 16 3580 3420 78
630 710 M3JP/KP 400 LB 3GJP/KP 402 520-••G 1491 97.1 97.0 0.87 1085 7.6 4035 2.2 3.1 16 3580 3420 78
710 780 1)
M3JP/KP 400 LKC 3GJP/KP 402 830-••G 1491 97.2 97.1 0.86 1240 7.6 4547 2.4 3.2 17 3680 3520 78
710 780 1)
M3JP/KP 400 LC 3GJP/KP 402 530-••G 1491 97.2 97.1 0.86 1240 7.6 4547 2.4 3.2 17 3680 3520 78
9.2 10.6 1)
M3JP/KP 132 SME 3GJP/KP 132 250-••G 1422 86.4 87.8 0.84 18.5 5.5 62 2.5 2.7 0.023 108 99 60
18.5 21 M3JP/KP 160 MLF 3GJP/KP 162 460-••G 1469 92.5 92.8 0.83 36.5 8.0 120 3.2 3.6 0.121 195 189 68
22 25 M3JP/KP 160 MLG 3GJP/KP 162 470-••G 1466 92.1 92.2 0.81 44.5 8.2 143 3.3 3.6 0.121 195 189 68
30 34 1)
M3JP/KP 180 MLC 3GJP/KP 182 430-••G 1473 92.5 92.5 0.81 59 7.8 194 3.1 3.4 0.239 239 233 66
37 43 M3JP/KP 200 MLC 3GJP/KP 202 430-••G 1475 93.5 93.5 0.82 70 7.5 239 3.5 3.2 0.34 340 320 73
55 63 M3JP/KP 225 SMD 3GJP/KP 222 240-••G 1476 94.2 94.1 0.85 100 7.6 356 3.4 2.8 0.49 425 405 74
62 67 4) 5)
M3JP/KP 225 SME 3GJP/KP 222 250-••G 1477 94.1 94.0 0.84 114 7.7 401 3.5 2.9 0.55 445 425 74
75 84 M3JP/KP 250 SMB 3GJP/KP 252 220-••G 1476 94.8 95.0 0.86 133 7.6 485 2.8 3.2 0.88 505 485 73
86 98 4)
M3JP/KP 250 SMC 3GJP/KP 252 230-••G 1477 95.0 95.1 0.85 155 7.8 556 2.9 3.5 0.98 530 510 74
110 125 M3JP/KP 280 SMC 3GJP/KP 282 230-••G 1485 95.7 95.7 0.86 195 7.6 707 3.0 3.0 1.85 825 745 68
three phase motors

3
Notes:
added: 461 = Ex d, Ex de design, Group IIC
frequencies, ambient temperatures and surface temperature T5
on request.
Output
kW
r/min
factor
cos I
of inertia
J=1/4GD2
kgm2
Weight Sound
pressure
level LP
dB(A)
FL 3/4 IN
Is
TN
Ts
Tmax
Ex d Ex de
50 Hz 60 Hz 100% 75% A IN
Nm TN
TN
kg
0.37 0.44 M3JP/KP 80 MA 3GJP/KP 083 310-••G 953 67.2 66.3 0.62 1.32 4.8 3.7 3.4 3.6 0.0022 38 29 50
0.55 0.66 M3JP/KP 80 MB 3GJP/KP 083 320-••G 938 67.9 66.4 0.68 1.79 4.3 5.6 2.8 2.9 0.0022 38 29 50
0.75 0.9 M3JP/KP 90 SLA 3GJP/KP 093 010-••G 942 74.0 73.1 0.69 2.17 4.5 7.6 2.8 3.2 0.0036 50 41 44
1.1 1.3 M3JP/KP 90 SLC 3GJP/KP 093 030-••G 940 75.6 74.5 0.67 3.25 4.6 11 3.1 3.4 0.0037 52 43 44
1.5 1.7 M3JP/KP 100 LA 3GJP/KP 103 510-••G 951 81.2 80.9 0.74 3.7 4.2 15 2.3 2.9 0.012 66 57 54
2.2 2.5 M3JP/KP 112 MB 3GJP/KP 113 320-••G 950 81.8 82.0 0.76 5.2 5.9 22 2.2 2.8 0.014 69 60 54
3 3.5 M3JP/KP 132 SMB 3GJP/KP 133 220-••G 961 83.2 82.2 0.77 6.9 6.1 30 2.1 3.0 0.032 102 93 57
4 4.6 M3JP/KP 132 SMC 3GJP/KP 133 230-••G 967 85.6 85.3 0.74 9.3 6.6 39.5 2.3 3.4 0.034 104 95 57
5.5 6.3 M3JP/KP 132 SMD 3GJP/KP 133 240-••G 958 85.5 85.6 0.76 12.5 6.7 55 2.2 3.0 0.036 106 97 57
7.5 8.6 M3JP/KP 160 MLA 3GJP/KP 163 410-••G 965 89.0 89.7 0.81 15.5 6.5 74 1.9 3.0 0.088 166 160 57
11 12.5 M3JP/KP 160 MLB 3GJP/KP 163 420-••G 965 89.6 90.3 0.8 23 7.1 109 2.1 3.3 0.106 179 173 65
15 17 M3JP/KP 180 MLB 3GJP/KP 183 420-••G 972 91.4 91.6 0.81 31 7.0 147 1.9 3.3 0.221 239 233 58
18.5 21 M3JP/KP 200 MLA 3GJP/KP 203 410-••G 983 91.6 91.7 0.81 37 7.1 180 3.2 3.1 0.37 300 280 66
22 25 M3JP/KP 200 MLB 3GJP/KP 203 420-••G 983 91.9 91.9 0.81 43 7.5 214 3.2 3.2 0.43 320 300 61
30 35 M3JP/KP 225 SMB 3GJP/KP 223 220-••G 985 93.0 93.0 0.81 58 7.4 291 3.4 3.0 0.64 385 365 61
37 43 M3JP/KP 250 SMA 3GJP/KP 253 210-••G 987 93.6 93.6 0.81 71 7.2 358 3.2 2.9 1.16 455 435 66
45 55 M3JP/KP 280 SMA 3GJP/KP 283 210-••G 990 94.4 94.3 0.84 82 7.0 434 2.5 2.5 1.85 705 625 66
55 63 M3JP/KP 280 SMB 3GJP/KP 283 220-••G 990 94.6 94.6 0.84 101 7.0 531 2.7 2.6 2.2 745 665 66
75 86 M3JP/KP 315 SMA 3GJP/KP 313 210-••G 992 95.0 94.7 0.82 141 7.4 722 2.4 2.8 3.2 930 850 70
90 105 M3JP/KP 315 SMB 3GJP/KP 313 220-••G 992 95.5 95.3 0.84 163 7.5 866 2.4 2.8 4.1 1030 950 70
110 125 M3JP/KP 315 SMC 3GJP/KP 313 230-••G 991 95.6 95.5 0.83 202 7.4 1060 2.5 2.9 4.9 1100 1020 70
132 150 M3JP/KP 315 MLA 3GJP/KP 313 410-••G 991 95.8 95.7 0.83 240 7.5 1272 2.7 3.0 5.8 1250 1170 68
160 195 M3JP/KP 355 SMA 3GJP/KP 353 210-••G 993 96.0 95.8 0.83 293 7.0 1539 2.0 2.6 7.9 1630 1550 75
200 230 M3JP/KP 355 SMB 3GJP/KP 353 220-••G 993 96.2 96.1 0.84 357 7.2 1923 2.2 2.7 9.7 1790 1710 75
250 300 M3JP/KP 355 SMC 3GJP/KP 353 230-••G 993 96.5 96.3 0.83 450 7.4 2404 2.6 2.9 11.3 2010 1850 75
315 360 M3JP/KP 355 MLB 3GJP/KP 353 420-••G 992 96.4 96.3 0.83 570 7.0 3032 2.5 2.7 13.5 2370 2210 75
355 400 M3JP/KP 355 LKA 3GJP/KP 353 810-••G 992 96.6 96.5 0.83 640 7.6 3417 2.7 2.9 15.5 2690 2530 75
400 450 M3JP/KP 400 LKA 3GJP/KP 403 810-••G 993 96.7 96.6 0.82 730 7.1 3847 2.3 2.7 17 3180 3020 76
400 450 M3JP/KP 400 LA 3GJP/KP 403 510-••G 993 96.7 96.6 0.82 730 7.1 3847 2.3 2.7 17 3180 3020 76
450 510 M3JP/KP 400 LKB 3GJP/KP 403 820-••G 994 96.9 96.7 0.82 818 7.4 4323 2.4 2.8 20.5 3430 3270 76
450 510 M3JP/KP 400 LB 3GJP/KP 403 520-••G 994 96.9 96.7 0.82 818 7.4 4323 2.4 2.8 20.5 3430 3270 76
500 560 M3JP/KP 400 LC 3GJP/KP 403 530-••G 993 96.9 96.8 0.83 900 7.2 4808 2.5 2.7 22 3580 3420 76
500 560 M3JP/KP 400 LKC 3GJP/KP 403 830-••G 993 96.9 96.8 0.83 900 7.2 4808 2.5 2.7 22 3580 3420 76
560 630 M3JP/KP 400 LD 3GJP/KP 403 540-••G 993 96.9 96.8 0.85 985 7.4 5385 2.4 3.0 24 3680 3520 77
560 630 M3JP/KP 400 LKD 3GJP/KP 403 840-••G 993 96.9 96.8 0.85 985 7.4 5385 2.4 3.0 24 3680 3520 77
14 16.1 1) 2)
M3JP/KP 160 MLC 3GJP/KP 163 430-••G 969 89.3 89.3 0.75 31 7.9 138 2.8 3.9 0.121 194 188 64
18.5 21 M3JP/KP 180 MLC 3GJP/KP 183 430-••G 975 90.4 90.1 0.74 41 7.2 181 2.0 3.2 0.221 239 233 61
30 35 M3JP/KP 200 MLC 3GJP/KP 203 430-••G 983 91.9 91.8 0.81 60 7.5 292 3.5 3.4 0.49 340 320 65
37 43 M3JP/KP 225 SMC 3GJP/KP 223 230-••G 983 93.0 93.1 0.83 70 7.1 359 3.0 2.8 0.75 415 395 64
45 52 M3JP/KP 250 SMB 3GJP/KP 253 220-••G 986 93.9 93.9 0.82 85 7.2 436 3.3 2.8 1.49 500 480 65
75 86 M3JP/KP 280 SMC 3GJP/KP 283 230-••G 990 95.1 95.2 0.84 137 7.3 723 2.8 2.7 2.85 825 745 66
three phase motors

3
three phase motors
1)
2)
Nominal power lower than CENELEC+1.
Output
kW
r/min
factor
cos I
of inertia
J=1/4GD2
kgm2
Weight Sound
pressure
level LP
dB(A)
FL 3/4 IN
Is
TN
Ts
Tmax
Ex d Ex de
50 Hz 60 Hz 100% 75% A IN
Nm TN
TN
kg
0.18 0.22 M3JP/KP 80 MA 3GJP/KP 084 310-••G 720 54.0 49.0 0.48 1.08 3.3 2.4 3.7 4.0 0.0022 38 29 36
0.25 0.3 M3JP/KP 80 MB 3GJP/KP 084 320-••G 705 58.0 54.6 0.58 1.15 3.2 3.4 2.6 2.8 0.0022 38 29 36
0.37 0.44 M3JP/KP 90 SLA 3GJP/KP 094 010-••G 696 65.2 63.8 0.63 1.34 3.0 5.1 2.0 2.2 0.0036 50 41 36
0.55 0.66 M3JP/KP 90 SLC 3GJP/KP 094 030-••G 695 66.6 64.8 0.61 2.05 3.1 7.6 2.2 2.4 0.0037 52 43 36
0.75 0.9 M3JP/KP 100 LA 3GJP/KP 104 510-••G 720 74.7 72.4 0.59 2.6 3.8 10 2.0 2.9 0.012 66 57 54
1.1 1.3 M3JP/KP 100 LB 3GJP/KP 104 520-••G 717 75.2 73.0 0.57 3.9 3.7 15 2.1 2.9 0.012 66 57 54
1.5 1.7 M3JP/KP 112 MC 3GJP/KP 114 330-••G 713 75.7 73.8 0.59 5 3.5 20 2.0 2.7 0.014 70 61 54
2.2 2.5 M3JP/KP 132 SMC 3GJP/KP 134 230-••G 720 79.6 78.6 0.65 6.3 4.7 29 2.0 2.9 0.034 104 95 59
3 3.5 M3JP/KP 132 SMD 3GJP/KP 134 240-••G 710 80.2 80.4 0.70 8 4.1 40 1.7 2.3 0.036 106 97 59
4 4.6 M3JP/KP 160 MLA 3GJP/KP 164 410-••G 717 83.7 83.8 0.71 10.1 5.2 53 1.8 2.8 0.071 152 146 59
5.5 6.3 M3JP/KP 160 MLB 3GJP/KP 164 420-••G 715 84.7 85.2 0.71 13.9 5.2 73 1.9 2.8 0.09 166 160 53
7.5 8.6 M3JP/KP 160 MLC 3GJP/KP 164 430-••G 718 86.9 87.6 0.70 18.4 5.7 100 2.1 3.1 0.121 194 188 55
11 12.7 M3JP/KP 180 MLB 3GJP/KP 184 420-••G 724 90.3 90.4 0.73 24.5 5.7 145 1.7 2.7 0.239 233 227 63
15 17 M3JP/KP 200 MLA 3GJP/KP 204 410-••G 734 90.7 90.8 0.79 31 7.0 195 2.4 3.2 0.45 315 295 56
18.5 21 M3JP/KP 225 SMA 3GJP/KP 224 210-••G 734 90.8 90.8 0.74 41 6.1 241 2.2 3.0 0.61 370 350 55
22 25 M3JP/KP 225 SMB 3GJP/KP 224 220-••G 732 91.0 91.3 0.77 46 6.5 287 2.2 2.9 0.68 385 365 56
30 35 M3JP/KP 250 SMA 3GJP/KP 254 210-••G 735 92.3 92.4 0.79 61 6.7 390 2.0 2.9 1.25 455 435 56
37 43 M3JP/KP 280 SMA 3GJP/KP 284 210-••G 741 93.4 93.3 0.78 74 7.3 477 1.7 3.0 1.85 705 625 65
45 55 M3JP/KP 280 SMB 3GJP/KP 284 220-••G 741 94.1 93.8 0.78 90 7.6 580 1.8 3.1 2.2 745 665 65
55 63 M3JP/KP 315 SMA 3GJP/KP 314 210-••G 742 94.1 94.0 0.81 104 7.1 708 1.6 2.7 3.2 930 850 62
75 85 M3JP/KP 315 SMB 3GJP/KP 314 220-••G 741 94.5 94.4 0.82 141 7.1 968 1.7 2.7 4.1 1030 950 62
90 105 M3JP/KP 315 SMC 3GJP/KP 314 230-••G 741 94.8 94.7 0.82 167 7.4 1161 1.8 2.7 4.9 1100 1020 64
110 125 M3JP/KP 315 MLA 3GJP/KP 314 410-••G 740 95.0 95.0 0.83 203 7.3 1420 1.8 2.7 5.8 1250 1170 72
132 155 M3JP/KP 355 SMA 3GJP/KP 354 210-••G 744 95.7 95.6 0.80 250 7.5 1694 1.5 2.6 7.9 1630 1550 69
160 185 M3JP/KP 355 SMB 3GJP/KP 354 220-••G 744 95.7 95.6 0.80 305 7.6 2054 1.6 2.6 9.7 1790 1710 69
200 230 M3JP/KP 355 SMC 3GJP/KP 354 230-••G 743 95.7 95.6 0.80 378 7.4 2570 1.6 2.6 11.3 1930 1850 69
250 285 M3JP/KP 355 MLB 3GJP/KP 354 420-••G 743 95.9 95.8 0.80 476 7.5 3213 1.6 2.7 13.5 2370 2210 72
315 360 M3JP/KP 400 LA 3GJP/KP 404 510-••G 744 96.4 96.3 0.81 582 7.0 4043 1.2 2.6 17 3180 3020 71
315 360 M3JP/KP 400 LKA 3GJP/KP 404 810-••G 744 96.4 96.3 0.81 582 7.0 4043 1.2 2.6 17 3180 3020 71
355 400 M3JP/KP 400 LB 3GJP/KP 404 520-••G 743 96.5 96.5 0.83 640 6.8 4563 1.2 2.5 21 3480 3320 71
355 400 M3JP/KP 400 LKB 3GJP/KP 404 820-••G 743 96.5 96.5 0.83 640 6.8 4563 1.2 2.5 21 3480 3320 71
400 450 M3JP/KP 400 LKC 3GJP/KP 404 830-••G 744 96.6 96.5 0.82 735 7.4 5134 1.3 2.7 24 3680 3520 71
400 450 M3JP/KP 400 LC 3GJP/KP 404 530-••G 744 96.6 96.5 0.82 735 7.4 5134 1.3 2.7 24 3680 3520 71
18.5 21 M3JP/KP 200 MLB 3GJP/KP 204 420-••G 734 90.6 90.8 0.8 37.5 6.9 241 2.2 3.2 0.54 335 315 57
30 34 1)
M3JP/KP 225 SMC 3GJP/KP 224 230-••G 731 90.6 91.0 0.77 63 6.3 392 2.3 3.0 0.75 410 390 59
37 43 M3JP/KP 250 SMB 3GJP/KP 254 220-••G 737 93.0 92.9 0.78 75 7.5 479 2.3 3.4 1.52 500 480 59
55 65 M3JP/KP 280 SMC 3GJP/KP 284 230-••G 741 94.4 94.3 0.8 105 7.9 709 1.9 3.1 2.85 825 745 65

3
Output
kW
50 Hz
r/min
Current
IN
A
Weight
Ex d
kg
3000/1500 r/min = 2/4 poles Fan drive, two separate windings 400 V 50 Hz
84/12 M3JP/KP 280 SMB 3GJP/KP 288 221-••G 2980/1492 147/26 765
100/15 M3JP/KP 315 SMC 3GJP/KP 288 231-••G 2974/1492 169/32 825
125/18 M3JP/KP 315 SMB 3GJP/KP 318 221-••G 2983/1493 220/39 1040
150/22 M3JP/KP 315 SMC 3GJP/KP 318 231-••G 2976/1492 257/47 1125
190/27 M3JP/KP 355 MLA 3GJP/KP 318 411-••G 2981/1492 322/57 1290
220/30 M3JP/KP 355 SMA 3GJP/KP 358 211-••G 2982/1491 370/61 1790
350/45 M3JP/KP 355 MLA 3GJP/KP 358 411-••G 2982/1493 600/102 2190
3000/1500 r/min = 2-4 poles Fan drive, Dahlander-connection 400 V 50 Hz
0.95/0.2 M3JP/KP 80 MB 3GJP/KP 088 328-••G 2804/1407 2.08/0.5 38
1.4/0.3 M3JP/KP 90 SLA 3GJP/KP 098 018-••G 2893/1451 2.8/0.79 51
1.9/0.4 M3JP/KP 90 SLC 3GJP/KP 098 038-••G 2886/1450 3.8/0.9 53
3/0.6 M3JP/KP 100 SLC 3GJP/KP 108 528-••G 2873/1459 5.8/1.2 69
3.7/0.75 M3JP/KP 112 LA 3GJP/KP 118 328-••G 2863/1453 7.0/1.5 72
6.2/1.3 M3JP/KP 132 MB 3GJP/KP 138 228-••G 2920/1468 12.4/2.9 102
8.3/1.7 M3JP/KP 132 SMB 3GJP/KP 138 248-••G 2898/1454 15.6/3.5 108
11/2.5 M3JP/KP 160 MLB 3GJP/KP 168 428-••G 2935/1471 20/4.9 172
14/3 M3JP/KP 160 MLC 3GJP/KP 168 438-••G 2931/1473 25.5/5.9 172
18.5/4 M3JP/KP 160 MLE 3GJP/KP 168 458-••G 2941/1473 33/7.9 195
22/5 M3JP/KP 180 MLB 3GJP/KP 188 428-••G 2959/1481 40/9.8 220
25/5.5 M3JP/KP 180 MLC 3GJP/KP 188 438-••G 2952/1480 44/10.5 239
34/8 M3JP/KP 200 MLC 3GJP/KP 208 438-••G 2951/1478 61/18 340
37/10 M3JP/KP 200 MLE 3GJP/KP 208 458-••G 2941/1469 66/23 345
40/11 M3JP/KP 225 SMB 3GJP/KP 228 228-••G 2964/1480 69/23.5 400
50/14 M3JP/KP 225 SMC 3GJP/KP 228 238-••G 2962/1479 87/29.5 420
60/15.5 M3JP/KP 250 SMB 3GJP/KP 258 228-••G 2959/1480 104/33 500
70/20 M3JP/KP 250 SMC 3GJP/KP 258 238-••G 2966/1482 120/41 510
90/30 M3JP/KP 280 SMB 3GJP/KP 288 228-••G 2965/1484 153/54 765
105/33 M3JP/KP 280 SMC 3GJP/KP 288 238-••G 2966/1483 186/60 825
125/25 M3JP/KP 315 SMB 3GJP/KP 318 228-••G 2972/1490 217/53 1040
175/45 M3JP/KP 315 MLA 3GJP/KP 318 418-••G 2980/1492 287/81 1260
260/65 M3JP/KP 355 SMB 3GJP/KP 358 228-••G 2983/1491 450/140 1870
320/80 M3JP/KP 355 MLA 3GJP/KP 358 418-••G 2983/1492 540/160 2190
400/100 M3JP/KP 355 LKA 3GJP/KP 358 818-••G 2983/1492 670/200 2510
three phase motors, two-speed
IP 55, IC 411; Insulation class F, temperature rise class F
Notes:
added: 461 = Ex d, Ex de design, Group IIC.
The two bullets in the product code indicate choice of mounting
arrangement, voltage and frequency (see ordering information).
Detailed technical data on request.
1)
On request

3
Output
kW
50 Hz
r/min
Current
IN
A
Weight
Ex d
kg
0.95/0.28 M3JP/KP 90 SLA 3GJP/KP 098 014-••G 1) 1) 1)
1.25/0.4 M3JP/KP 90 SLC 3GJP/KP 098 034-••G 1440/956 3.1/1.38 53
1.8/0.55 M3JP/KP 100 LA 3GJP/KP 108 514-••G 1443/969 3.8/1.7 67
2.2/0.7 M3JP/KP 100 LB 3GJP/KP 108 524-••G 1450/972 4.6/2.1 69
2.6/0.8 M3JP/KP 112 MC 3GJP/KP 118 334-••G 1) 1) 1)
4.5/1.5 M3JP/KP 132 SMC 3GJP/KP 138 234-••G 1) 1) 1)
6/2 M3JP/KP 132 SMD 3GJP/KP 138 224-••G 1465/965 14.1/5.4 108
11/3.7 M3JP/KP 160 MLC 3GJP/KP 168 434-••G 1467/973 22/9 172
15/4.7 M3JP/KP 160 MLE 3GJP/KP 168 454-••G 1465/972 29.5/11.5 195
18.5/5.8 M3JP/KP 180 MLC 3GJP/KP 188 434-••G 1476/984 35/15.2 239
21/6.6 M3JP/KP 200 MLB 3GJP/KP 208 424-••G 1477/990 38/14 320
26/8 M3JP/KP 200 MLC 3GJP/KP 208 434-••G 1474/987 46/16.5 340
31/10 M3JP/KP 225 SMB 3GJP/KP 228 224-••G 1481/991 55/21.5 385
40/12.5 M3JP/KP 225 SMC 3GJP/KP 228 234-••G 1481/990 71/26 415
54/17 M3JP/KP 250 SMB 3GJP/KP 258 224-••G 1480/987 97/38 505
63/19 M3JP/KP 250 SMC 3GJP/KP 258 234-••G 1478/987 114/42 530
85/27 M3JP/KP 280 SMB 3GJP/KP 288 224-••G 1487/992 160/59 765
100/30 M3JP/KP 280 SMC 3GJP/KP 288 234-••G 1486/991 180/62 825
120/36 M3JP/KP 315 SMB 3GJP/KP 318 224-••G 1487/991 212/72 1060
145/43 M3JP/KP 315 SMC 3GJP/KP 318 234-••G 1487/991 256/86 1100
180/54 M3JP/KP 315 MLA 3GJP/KP 318 414-••G 1484/990 321/109 1260
220/65 M3JP/KP 355 SMA 3GJP/KP 358 214-••G 1489/991 390/131 1800
300/90 M3JP/KP 355 SMC 3GJP/KP 358 234-••G 1488/991 525/183 2010
390/110 M3JP/KP 355 MLB 3GJP/KP 358 424-••G 1490/992 700/221 2330
85/12 M3JP/KP 280 SMB 3GJP/KP 288 222-••G 1487/744 160/34 765
100/15 M3JP/KP 280 SMC 3GJP/KP 288 232-••G 1486/744 180/40 825
120/18 M3JP/KP 315 SMB 3GJP/KP 318 222-••G 1487/744 212/41 1060
145/19 M3JP/KP 315 SMC 3GJP/KP 318 232-••G 1487/744 256/48 1100
180/23 M3JP/KP 315 MLA 3GJP/KP 318 412-••G 1484/743 321/58 1260
220/28 M3JP/KP 355 SMA 3GJP/KP 358 212-••G 1489/744 390/70 1800
300/38 M3JP/KP 355 SMC 3GJP/KP 358 232-••G 1488/745 525/96 2010
390/50 M3JP/KP 355 MLB 3GJP/KP 358 422-••G 1490/744 700/123 2330
Notes:
1)
On request

3
Output
kW
50 Hz
r/min
Current
IN
A
Weight
Ex d
kg
1500/750 r/min = 4-8 poles Fan drive, Dahlander-connection 400 V 50 Hz
0.6/0.11 M3JP/KP 80 MB 3GJP/KP 088 329-••G 1433/706 1.74/0.63 38
1/0,23 M3JP/KP 90 SLA 3GJP/KP 098 019-••G 1441/711 2.6/1.2 51
1.5/0.31 M3JP/KP 90 SLC 3GJP/KP 098 039-••G 1428/710 3.5/1.47 53
2/0.45 M3JP/KP 100 LA 3GJP/KP 108 519-••G 1438/715 4/1.5 67
2.4/0.5 M3JP/KP 100 LB 3GJP/KP 108 529-••G 1) 1) 1)
2.9/0.6 M3JP/KP 112 MC 3GJP/KP 118 339-••G 1451/726 6.3/2.4 72
5/1 M3JP/KP 132 SMB 3GJP/KP 138 229-••G 1427/720 9.8/2.8 104
6.8/1.4 M3JP/KP 132 SMD 3GJP/KP 138 249-••G 1458/729 14.3/4.7 106
11/2.5 M3JP/KP 160 MLC 3GJP/KP 168 439-••G 1468/732 22/8.8 172
15/3.5 M3JP/KP 160 MLE 3GJP/KP 168 459-••G 1467/731 29/11 195
18.5/3.7 M3JP/KP 180 MLB 3GJP/KP 188 429-••G 1475/737 36/13.2 220
22/4,4 M3JP/KP 180 MLC 3GJP/KP 188 439-••G 1475/739 43/15.5 239
30/7 M3JP/KP 200 MLB 3GJP/KP 208 429-••G 1478/736 58/21 340
37/10 M3JP/KP 225 SMB 3GJP/KP 228 229-••G 1482/735 70/26.5 390
42/11 M3JP/KP 225 SMC 3GJP/KP 228 239-••G 1480/733 77/28.5 425
50/13 M3JP/KP 225 SME 3GJP/KP 228 259-••G 1478/733 91/33.5 445
60/15 M3JP/KP 250 SMB 3GJP/KP 258 229-••G 1482/738 110/40 505
70/17 M3JP/KP 250 SMC 3GJP/KP 258 239-••G 1482/738 130/46 530
80/18.5 M3JP/KP 280 SMB 3GJP/KP 288 229-••G 1486/743 145/47 765
90/20 M3JP/KP 280 SMC 3GJP/KP 288 239-••G 1486/743 160/50 825
125/28 M3JP/KP 315 SMB 3GJP/KP 318 229-••G 1488/744 226/73 1060
160/37 M3JP/KP 315 MLA 3GJP/KP 318 419-••G 1486/742 283/93 1260
220/50 M3JP/KP 355 SMA 3GJP/KP 358 219-••G 1489/744 395/126 1800
300/70 M3JP/KP 355 SMC 3GJP/KP 358 239-••G 1490/744 536/177 2010
53/20 M3JP/KP 280 SMB 3GJP/KP 288 226-••G 990/745 99/46 745
70/26 M3JP/KP 280 SMC 3GJP/KP 288 236-••G 992/745 132/58 825
84/36 M3JP/KP 315 SMB 3GJP/KP 318 226-••G 993/745 156/78 1030
103/44 M3JP/KP 315 SMC 3GJP/KP 318 236-••G 993/745 195/94 1100
123/52 M3JP/KP 315 MLA 3GJP/KP 318 416-••G 993/745 230/109 1250
140/60 M3JP/KP 355 SMA 3GJP/KP 358 216-••G 994/745 263/125 1630
180/76 M3JP/KP 355 SMB 3GJP/KP 358 226-••G 994/745 317/157 1790
210/88 M3JP/KP 355 SMC 3GJP/KP 358 236-••G 994/745 390/178 2010
250/105 M3JP/KP 355 MLB 3GJP/KP 358 426-••G 994/744 463/218 2370
315/132 M3JP/KP 355 LKB 3GJP/KP 358 826-••G 993/745 583/290 2790
355/150 M3JP/KP 400 LB 3GJP/KP 408 526-••G 995/745 670/300 3430
355/150 M3JP/KP 400 LKB 3GJP/KP 408 826-••G 995/745 670/300 3430
400/170 M3JP/KP 400 LKD 3GJP/KP 408 546-••G 995/746 740/350 3680
400/170 M3JP/KP 400 LD 3GJP/KP 408 846-••G 995/746 740/350 3680
3000/1500 r/min = 2/4 poles Constant torque, two separate windings 400 V 50 Hz
65/33 M3JP/KP 280 SMB 3GJP/KP 289 221-••G 2979/1488 112/67 765
82/41 M3JP/KP 280 SMC 3GJP/KP 289 231-••G 2979/1488 141/81 825
100/50 M3JP/KP 315 SMB 3GJP/KP 319 221-••G 2986/1488 183/101 1040
125/63 M3JP/KP 315 SMC 3GJP/KP 319 231-••G 2980/1490 216/128 1125
155/78 M3JP/KP 315 MLA 3GJP/KP 319 411-••G 2985/1489 267/157 1290
180/90 M3JP/KP 355 SMA 3GJP/KP 359 211-••G 2985/1490 308/175 1790
300/150 M3JP/KP 355 MLA 3GJP/KP 359 411-••G 2985/1491 512/328 2190
Notes: When ordering IIC motors, following variant code has to
be added: 461 = Ex d, Ex de design, Group IIC.
1)
On request The two bullets in the product code indicate choice of mounting

3
Output
kW
50 Hz
r/min
Current
IN
A
Weight
Ex d
kg
3000/1500 r/min = 2-4 poles Constant torque, Dahlander-connection 400 V 50 Hz
0.95/0.6 M3JP/KP 80 MB 3GJP/KP 089 328-••G 1) 1) 1)
1.1/0.85 M3JP/KP 90 SLA 3GJP/KP 099 018-••G 1) 1) 1)
1.5/1.25 M3JP/KP 90 SLC 3GJP/KP 099 038-••G 1) 1) 1)
2.2/1.75 M3JP/KP 100 LA 3GJP/KP 109 518-••G 1) 1) 1)
2.9/2.25 M3JP/KP 100 LB 3GJP/KP 109 528-••G 2888/1437 5.6/4.5 69
3.6/2.8 M3JP/KP 112 MC 3GJP/KP 119 338-••G 1) 1) 1)
4.7/3.1 M3JP/KP 132 SMB 3GJP/KP 139 228-••G 1) 1) 1)
7.2/4.8 M3JP/KP 132 SMD 3GJP/KP 139 248-••G 2920/1459 13.6/10.2 108
11/8 M3JP/KP 160 MLB 3GJP/KP 169 428-••G 2935/1466 20/15.3 172
14/10.5 M3JP/KP 160 MLC 3GJP/KP 169 438-••G 2931/1459 25.5/21 172
18.5/14 M3JP/KP 160 MLE 3GJP/KP 169 458-••G 2941/1460 33/27 195
22/16.5 M3JP/KP 180 MLB 3GJP/KP 189 428-••G 2959/1474 40/32 220
25/18.5 M3JP/KP 180 MLC 3GJP/KP 189 438-••G 2952/1472 44/35 239
31/22 M3JP/KP 200 MLB 3GJP/KP 209 428-••G 2952/1474 53/43 340
38/25 M3JP/KP 225 SMB 3GJP/KP 229 228-••G 2958/1477 67/55 400
45/29 M3JP/KP 225 SMC 3GJP/KP 229 238-••G 2950/1477 79/63 420
50/40 M3JP/KP 250 SMB 3GJP/KP 259 228-••G 2960/1482 83/71 505
75/55 M3JP/KP 250 SMC 3GJP/KP 259 238-••G 2972/1486 127/102 530
90/65 M3JP/KP 280 SMB 3GJP/KP 289 228-••G 2965/1488 153/117 765
105/75 M3JP/KP 280 SMC 3GJP/KP 289 238-••G 2966/1486 186/136 825
125/85 M3JP/KP 315 SMB 3GJP/KP 319 228-••G 2972/1485 217/178 1040
175/120 M3JP/KP 315 MLA 3GJP/KP 319 418-••G 2980/1491 287/223 1260
250/160 M3JP/KP 355 SMC 3GJP/KP 359 238-••G 2982/1491 430/383 1940
310/200 M3JP/KP 355 MLB 3GJP/KP 359 428-••G 2983/1491 510/425 2270
380/250 M3JP/KP 355 LKB 3GJP/KP 359 828-••G 2982/1490 630/515 2650
0.8/0.5 M3JP/KP 90 SLA 3GJP/KP 099 014-••G 1) 1) 1)
1.0/0.6 M3JP/KP 90 SLC 3GJP/KP 099 034-••G 1) 1) 1)
1.5/0.9 M3JP/KP 100 LA 3GJP/KP 109 514-••G 1) 1) 1)
1.8/1.0 M3JP/KP 100 LB 3GJP/KP 109 524-••G 1) 1) 1)
2.2/1.2 M3JP/KP 112 MC 3GJP/KP 119 334-••G 1) 1) 1)
3.3/2.2 M3JP/KP 132 SMC 3GJP/KP 139 234-••G 1462/964 7.6/6.2 102
4.5/3.0 M3JP/KP 132 SMD 3GJP/KP 139 244-••G 1) 1) 1)
7.5/5.5 M3JP/KP 160 MLC 3GJP/KP 169 434-••G 1474/972 15.2/13 172
11/7.7 M3JP/KP 160 MLE 3GJP/KP 169 454-••G 1470/971 22/18 195
14/9.5 M3JP/KP 180 MLC 3GJP/KP 189 434-••G 1479/984 27.5/24 239
18.5/13 M3JP/KP 200 MLB 3GJP/KP 209 424-••G 1481/985 34/26 320
22/15 M3JP/KP 200 MLC 3GJP/KP 209 434-••G 1477/985 40/29 340
28/19 M3JP/KP 225 SMB 3GJP/KP 229 224-••G 1481/985 50/38 385
34/23 M3JP/KP 225 SMC 3GJP/KP 229 234-••G 1485/990 62/46 415
45/30 M3JP/KP 250 SMB 3GJP/KP 259 224-••G 1485/986 85/64 505
55/37 M3JP/KP 250 SMC 3GJP/KP 259 234-••G 1483/984 101/78 530
65/43 M3JP/KP 280 SMB 3GJP/KP 289 224-••G 1485/988 117/87 765
76/50 M3JP/KP 280 SMC 3GJP/KP 289 234-••G 1487/989 137/101 825
90/60 M3JP/KP 315 SMB 3GJP/KP 319 224-••G 1490/991 165/125 1060
110/75 M3JP/KP 315 SMC 3GJP/KP 319 234-••G 1490/992 200/158 1100
140/95 M3JP/KP 315 MLA 3GJP/KP 319 414-••G 1489/990 250/190 1260
180/120 M3JP/KP 355 SMA 3GJP/KP 359 214-••G 1491/992 330/245 1800
250/167 M3JP/KP 355 SMC 3GJP/KP 359 234-••G 1490/991 445/335 2010
330/220 M3JP/KP 355 MLB 3GJP/KP 359 424-••G 1492/992 605/443 2330
1)
On request

3
Output
kW
50 Hz
r/min
Current
IN
A
Weight
Ex d
kg
60/30 M3JP/KP 280 SMB 3GJP/KP 289 222-••G 1486/741 110/74 765
74/37 M3JP/KP 280 SMC 3GJP/KP 289 232-••G 1487/741 132/93 825
90/45 M3JP/KP 315 SMB 3GJP/KP 319 222-••G 1490/742 165/112 1060
110/55 M3JP/KP 315 SMC 3GJP/KP 319 232-••G 1490/742 200/139 1100
140/70 M3JP/KP 315 MLA 3GJP/KP 319 412-••G 1489/742 250/173 1260
180/90 M3JP/KP 355 SMA 3GJP/KP 359 212-••G 1491/743 330/225 1800
250/115 M3JP/KP 355 SMC 3GJP/KP 359 232-••G 1490/744 445/293 2010
330/145 M3JP/KP 355 MLB 3GJP/KP 359 422-••G 1492/743 605/355 2330
1500/750 r/min = 4-8 poles Constant torque, Dahlander-connection 400 V 50 Hz
0.45/0.23 M3JP/KP 80 MB 3GJP/KP 089 329-••G 1) 1) 1)
0.55/0.3 M3JP/KP 90 SLA 3GJP/KP 099 019-••G 1) 1) 1)
0.75/0.4 M3JP/KP 90 SLC 3GJP/KP 099 039-••G 1433/712 1.67/2.08 53
1.4/0.7 M3JP/KP 100 LA 3GJP/KP 109 519-••G 1434/721 2.9/3 67
1.8/0.9 M3JP/KP 100 LB 3GJP/KP 109 529-••G 1) 1) 1)
2/1.1 M3JP/KP 112 MC 3GJP/KP 119 339-••G 1447/720 4.1/5.1 72
3.8/1.9 M3JP/KP 132 SMB 3GJP/KP 139 229-••G 1455/730 7.3/7 104
5/2.5 M3JP/KP 132 SMD 3GJP/KP 139 249-••G 1438/724 9.7/8.7 106
8/4.5 M3JP/KP 160 MLC 3GJP/KP 169 439-••G 1456/727 15.5/14.9 172
12/7 M3JP/KP 160 MLE 3GJP/KP 169 459-••G 1462/727 23/24.5 195
16/8 M3JP/KP 180 MLC 3GJP/KP 189 439-••G 1464/735 31/28 233
22/13 M3JP/KP 200 MLB 3GJP/KP 209 429-••G 1476/737 39/30 320
27/16 M3JP/KP 200 MLC 3GJP/KP 209 439-••G 1473/736 48/35.5 340
34/20 M3JP/KP 225 SMB 3GJP/KP 229 229-••G 1479/739 60/48 385
37/24 M3JP/KP 225 SMC 3GJP/KP 229 239-••G 1476/736 64/53 415
45/27 M3JP/KP 225 SMD 3GJP/KP 229 249-••G 1476/737 79/60 445
52/31 M3JP/KP 250 SMB 3GJP/KP 259 229-••G 1483/741 90/72 500
65/40 M3JP/KP 280 SMB 3GJP/KP 289 229-••G 1487/743 116/92 745
85/50 M3JP/KP 280 SMC 3GJP/KP 289 239-••G 1487/743 149/115 825
95/65 M3JP/KP 315 SMB 3GJP/KP 319 229-••G 1489/744 166/140 1030
115/80 M3JP/KP 315 SMC 3GJP/KP 319 239-••G 1489/743 198/167 1100
150/95 M3JP/KP 315 MLA 3GJP/KP 319 419-••G 1489/744 260/201 1250
200/125 M3JP/KP 355 SMB 3GJP/KP 359 229-••G 1490/745 340/270 1790
290/185 M3JP/KP 355 MLB 3GJP/KP 359 429-••G 1490/744 490/390 2370
47/35 M3JP/KP 280 SMB 3GJP/KP 289 226-••G 991/744 89/81 745
60/45 M3JP/KP 280 SMC 3GJP/KP 289 236-••G 992/743 112/100 825
75/56 M3JP/KP 315 SMB 3GJP/KP 319 226-••G 993/744 142/118 1030
88/66 M3JP/KP 315 SMC 3GJP/KP 319 236-••G 993/744 165/139 1100
106/80 M3JP/KP 315 MLA 3GJP/KP 319 416-••G 993/744 198/171 1250
110/83 M3JP/KP 355 SMA 3GJP/KP 359 216-••G 994/746 204/177 1630
135/100 M3JP/KP 355 SMB 3GJP/KP 359 226-••G 994/745 250/204 1790
155/116 M3JP/KP 355 SMC 3GJP/KP 359 236-••G 994/744 288/236 2010
180/135 M3JP/KP 355 MLB 3GJP/KP 359 426-••G 994/744 340/282 2370
220/165 M3JP/KP 355 LKB 3GJP/KP 359 826-••G 993/744 410/340 2790
Notes:
1)
On request

3
Rating plates
The rating plate is in table form giving values for speed,
current and power factor for six voltage levels.
Motor sizes 80-400
European standards require special marking on safety
motors. The marking shall include the following:
- type of protection
- equipment group
- temperature class
- name of certifying body
- certiﬁcate number
Vaasa,Finland
ABB Oy,Motors
M000273M000196

3
Flameproof motors - Variant codes
P = New manufacture only.
R = On request.
NA = Not applicable
S = Included as standard.
M = On modiﬁcation of a stocked motor,
or on new manufacture,
the number per order may be limited.
1)
Certain variant codes cannot be used simultaneously.
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
Balancing
052 Vibration acc. to Grade A (IEC 60034-14). S S S S S S S S S S S S S S
417 Vibration acc. to Grade B (IEC 60034-14). P P P P P P P P P P P P P P
424 Full key balancing. P P P P P P P P P P P P P P
Bearings and Lubrication
036 Transport lock for bearings. NA NA NA NA NA M M M M M P P P P
037 Roller bearing at D-end. NA NA NA NA NA M M M M M P P NA NA
040 Heat resistant grease. S S S S S S S S S S S S S S
041 Bearings regreasable via grease nipples. NA NA NA NA NA S S S S S S S S S
043 SPM nipples. NA NA NA NA NA S S S S S S S S S
058 Angular contact bearing at D-end, shaft force away
from bearing.
NA NA NA NA NA NA NA NA NA NA P P P P
107 Pt100 2-wire in bearings. NA NA NA NA NA P P P P P P P P P
194 2Z bearings greased for life at both ends. S S S S S M M M M M NA NA NA NA
433 Outlet grease collector. NA NA NA NA NA NA NA NA NA NA P P P P
796 Grease nipples JIS B 1575 PT 1/8 Type A. NA NA NA NA NA P P P P P P P P P
797 Stainless steel SPM Nipples. NA NA NA NA NA P P P P P P P P P
798 Stainless steel grease nipples. NA NA NA NA NA P P P P P P P P P
Brakes
412 Built-on brake. NA NA NA NA NA R R R R R NA NA NA NA
Branch standard designs
178 Stainless steel / acid proof bolts. S S S S S M M M M M P P P P
204 Jacking bolts for foot mounted motors. NA NA NA NA NA P P P P P P P S S
209 Non-standard voltage or frequency, (special winding). P P P P P P P P P P P P P P
396 Motor designed for ambient temperature -20°C to -40°C,
wtih space heaters (code 450/451 must be added).
P P P P P P P P P P P P P P
398 Motor designed for ambient temperature -20°C to
-40°C.
-55°C
425 Corrosion protected stator and rotor core. S S S S S S S S S S P P P P
786 Special design shaft upwards (V3, V36, V6) for outdoor
mounting.
P P P P P P P P P P R R NA NA
Cooling system
044 Unidirectional fan for reduced noice level.
Rotation clockwise seen from D-end.
Available only for 2-pole motors.
NA NA NA NA NA NA NA NA NA NA P P P S
Rotation counter clockwise seen from D-end.
068 Metal fan. M M M M M M M M M M M P P P
075 Cooling method IC418 (without fan). R R R R R R R R R R R R R NA
183 Separate motor cooling (fan axial, N-end). NA NA NA NA NA P P P P P P P P P
422 Separate motor cooling (fan top or side, N-end). NA NA NA NA NA NA NA NA NA NA P P P P
791 Stainless steel fan cover. NA NA NA NA NA NA NA NA P P P P P P
Coupling
035 Assembly of customer supplied coupling-half. NA NA NA NA NA P P P P P P P P P

3
1)
Certain variant codes cannot be used simultaneously. P =New manufacture only.
R =On request.
NA =Not applicable
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
Documentation
141 Binding dimension drawing. M M M M M M M M M M M M M M
Drain holes
448 Draining holes with metal plugs. NA NA NA NA NA P P P P P P P P P
Hazardous Environments
452 DIP/Ex tD acc. to ATEX directive 94/9/EC , T= 125 °C,
cat. 3D, IP55.
M M M M M M M M M M M P P P
cat. 2D, IP65.
cat. 3D, IP65.
461 Ex d/Ex de design, Group II C. M M M M M M M M M M P P P P
462 Ex d/Ex de design, temperature class T5. R R R R R R R R R R R R R R
463 Ex d/Ex de design, temperature class T6. R R R R R R R R R R NA NA NA NA
464 Alleinschutz’ design. Certification of flame proof motor
and protection device together.
P P P P P P P P P P P R NA NA
812 Explosion protection according to IEC-Standards. M M M M M M M M M M M P P P
813 Thermistor-based surface temperature protection T4 for
frequency convertor duty.
814 Ex tD (DIP) motors, temperature class T 150C. M M M M M M M M M M M P P P
Heating elements
450 Heating element, 100-120V. M M M M M M M M M M M P P P
451 Heating element, 200-240V. M M M M M M M M M M M P P P
Insulation system
014 Winding insulation class H. P P P P P P P P P P P P P P
405 Special winding insulation for frequency converter supply. P P P P P P P P P P P P P P
007 IM 3001 flange mounted, IEC flange,
from IM 1001 (B5 from B3).
M M M M M NA NA NA NA NA NA NA NA NA
008 IM 2101 foot/flange mounted, IEC flange,
228 Flange FF 130. M M M M NA NA NA NA NA NA NA NA NA NA
229 Flange FT 130. M M M M NA NA NA NA NA NA NA NA NA NA
235 Flange FF 165. NA NA NA NA M NA NA NA NA NA NA NA NA NA
236 Flange FT 165. NA NA NA NA M NA NA NA NA NA NA NA NA NA
245 Flange FF 215. NA NA M M M NA NA NA NA NA NA NA NA NA
246 Flange FT 215. NA NA M M M NA NA NA NA NA NA NA NA NA
255 Flange FF 265. NA NA NA NA M NA NA NA NA NA NA NA NA NA
256 Flange FT 265. NA NA NA NA M NA NA NA NA NA NA NA NA NA
257 Flange FF 100. M M NA NA NA NA NA NA NA NA NA NA NA NA
258 Flange FT 100. M M NA NA NA NA NA NA NA NA NA NA NA NA
259 Flange FF 115. M M NA NA NA NA NA NA NA NA NA NA NA NA
260 Flange FT 115. M M NA NA NA NA NA NA NA NA NA NA NA NA
305 Additional lifting lugs. NA NA NA NA NA NA NA NA NA NA P P P P
306 IM 1001 foot mounted, from IM 3601 (B3 from B14). M M M M M NA NA NA NA NA NA NA NA NA
309 IM 1001 foot mounted, from IM 3001 (B3 from B5). M M M M M NA NA NA NA NA NA NA NA NA

3
1)
R =On request.
NA =Not applicable
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
Painting
106 Paint thickness = 80 µm. S S S S S S S S S S S S S S
109 Paint thickness = 120 µm. M M M M M M M M M M M P P P
110 Paint thickness = 160 µm. M M M M M M M M M M M P P P
111 Offshore two-pack polyamide cured epoxy
paint 160 µm.
M M M M M M M M M M P P P P
114 Special paint colour, standard grade. M M M M M M M M M M M P P P
115 Offshore zink primer painting. P P P P P P P P P P P P P P
179 Special paint specification. R R R R R R R R R R R R R R
Protection
005 Metal protective roof, vertical motor, shaft down. M M M M M M M M M M M P P P
072 Radial seal at D-end. M M M M M M M M M M P P NA NA
073 Sealed against oil at D-end. P P P P P P P P P P P P P P
158 Degree of protection IP65. P M M M M M M M M M M P P P
211 Weather protected, IP xx W. R R R R R R R R R R R R R R
403 Degree of protection IP56. M M M M M M M M M M M P P P
404 Degree of protection IP56, without fan and fan cover. NA NA NA NA NA R R R R R R R NA NA
434 Degree of protection IP56, open deck. NA NA NA NA NA P P P P P P P P P
783 Labyrinth sealing at D-end. P P P P P P P P P P P P S S
Rating & instruction plates
002 Restamping voltage, frequency and output, continuous
duty.
095 Restamping output (maintained voltage, frequency),
intermittent duty.
135 Mounting of additional identification plate, stainless. M M M M M M M M M M M P P P
139 Additional identification plate delivered loose. M M M M M M M M M M M P P P
161 Additional rating plate delivered loose. M M M M M M M M M M M P P P
163 Frequency converter rating plate. Rating data according
to quotation.
Shaft & rotor
069 Two shaft extensions as per basic catalogue. R R R R R P P P P P P P P P
070 One or two special shaft extensions, standard shaft
material.
164 Shaft extension with closed key-way. S S S S S S S S S S P P P P
165 Shaft extension with open key-way. P P P P P P P P P P S S S S
410 Stainless steel shaft (standard or non-standard design). R R R R R R R R R R P P P P
Standards and Regulations
421 VIK design (Verband der industriellen Energie- und
Kraftwirtschaft e.V.).
758 Saudi Aramco design. P P P P P P P P P P P P P R
773 EEMUA No 132 1988 design P P P P P P P P R R R R R R
774 Design according to NORSOK (Norwegian Territorial
Waters).
775 Design according to SHELL DEP 33.66.05.31-Gen.
January 1999 design.
778 GOST Export/Import Certificate (Russia). M M M M M M M M M M P P P P
779 SASO Export/Import Certificate (Saudi Arabia). M M M M M M M M M M P P P P
782 Fulfilling CQST Certification requirements (China). M M M M M M M M M M P P P P,R
Stator winding temperature sensors
120 KTY 84-130 (1 per phase) in stator winding. P P P P P P P P P P P P P P
121 Bimetal detectors, break type (NCC), (3 in series),
130°C, in stator winding.

3
1)
R =On request.
NA =Not applicable
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
125 Bimetal detectors, break type (NCC),
(2x3 in series), 150°C, in stator winding.
127 Bimetal detectors, break type (NCC), (3 in series,
130°C & 3 in series, 150°C), in stator winding.
435 PTC - thermistors (3 in series), 130°C,
in stator winding.
in stator winding.
S S S S S S S S S S S S S S
in stator winding.
NA NA NA NA NA P P P P P P P P P
438 PTC -thermistors (3 in series), 190°C,
in stator winding.
439 PTC - thermistors (2x3 in series), 150°C,
in stator winding.
441 PTC - thermistors (3 in series, 130°C & 3
in series, 150°C), in stator winding.
445 Pt-100 2-wire in stator winding, 1 per phase. P P P P P P P P P P P P P P
446 Pt-100 2-wire in stator winding, 2 per phase. NA NA NA NA NA P P P P P P P P P
502 Pt-100 3-wire in stator winding, 1 per phase. P P P P P P P P P P P P P P
Terminal box
022 Cable entry LHS (seen from D-end). M M M M M M M M M M M P P P
137 Extended cable connection, low terminal box,
“Flying leads”.
Only Ex de motors.
NA NA NA NA NA P P P P P NA NA NA NA
157 Terminal box degree of protection IP65. M M M M M M M M M M M P P P
187 Cable glands of non-standard design. NA NA NA NA NA R R R R R R R R R
380 Separate terminal box for temperature detectors, std.
Material.
400 4 x 90 degr turnable terminal box.
Ex de sizes 160-280 = M, Ex d = S
S S S S S M M S S S S S S S
402 Terminal box adapted for Al cables. NA NA NA NA NA NA NA NA NA NA S S S S
413 Extended cable connection, no terminal box. NA NA NA NA NA NA NA NA NA NA P P P P
418 Separate terminal box for auxiliaries, std. Material. NA NA NA NA NA P P P P P P P P P
465 Terminal box on top. S S S S S S S S S S S S S S
466 Terminal box at N-end. NA NA NA NA NA R R P P P P P P P
468 Cable entry from D-end. M M M M M M M M M M P P P P
469 Cable entry from N-end. M M M M M M M M M M P P P P
567 Separate terminal box material: Cast Iron.
As standard by Ex d motors.
568 Separate terminal box for heating elements, std.
Material.
569 Separate terminal box for brakes NA NA NA NA NA P P P P P P P P P
728 Standard cable gland, EEx d IIB, armoured cable,
double sealing.
730 Prepared for NPT cable glands. P P P P P P P P P P P P P P
732 Standard cable gland, EEx d IIB, armoured cable. M M M M M M M M M M P P P P
733 Standard cable gland, EEx d IIB, non-armoured cable. M M M M M M M M M M P P P P
734 Standard cable gland, EEx d IIC, armoured cable. M M M M M M M M M M P P P P
735 Standard cable gland, EEx d IIC, non-armoured cable. M M M M M M M M M M P P P P
736 Standard cable gland EEx e acc. to EN-Standards.
Ex de motors only.
S S S S S S S S S S S S S S
737 Standard cable gland EEx e with clamping device acc.
to EN-Standards.
Ex de only.

3
1)
R =On request.
NA =Not applicable
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
743 Painted flange for cable glands.
Ex de only.
744 Stainless steel flange for cable glands.
Ex de only.
745 Painted steel flange equipped with brass cable glands.
Ex de only.
746 Stainless steel cable flange equipped with standard
brass cable glands.
Ex de only.
Testing
145 Type test report from a catalogue motor, 400V 50Hz. M M M M M M M M M M M P P P
146 Type test with report for motor from specific delivery
batch.
148 Routine test report. M M M M M M M M M M M P P P
150 Customer witnessed testing. Specify test procedure
with other codes.
221 Type test and multi-point load test with report for motor
from specific delivery batch.
222 Torque/speed curve, type test and multi-point load test
with report for motor from specific delivery batch.
760 Vibration level test. M M M M M M M M M M M P P P
761 Vibration spectrum test. P P P P P P P P P P P P P P
762 Noise level test. P P P P P P P P P P P P P P
763 Noise spectrum test. P P P P P P P P P P P P P P
764 Test with ABB frequency converter available at ABB
test field. ABB standard test procedure.
Variable speed drives
to quotation.
181 Rating plate with ABB standard loadability values for
VSD operation. Other auxiliaries for VSD operation to
be selected as necessary.
S S S S S S S S S S P P P P
405 Special winding insulation for frequency converter
supply.
new Separate motor cooling (fan axial, N-end) and Ex d, tD
pulse tacho, 1024 pulses, L&L 841.
NA NA NA NA NA R R R R R R R R R
new Separate motor cooling (fan axial, N-end) and Ex d, tD
pulse tacho, 1024 pulses, L&L 841.
680 2048 pulse tacho, Ex d, tD, L&L 841910001 NA NA NA NA NA P P P P P P P P P
701 Insulated bearing at N-end. NA NA NA NA NA NA NA NA NA NA M P P P
704 EMC cable gland. R R R R R R R R R R R R R R
747 1024 pulse tacho, Ex d, tD, L&L 841910002 NA NA NA NA NA P P P P P P P P P
Y/D starting
117 Terminals for Y/D start at both speeds (two speed
windings).
NA NA NA NA NA R R R R R P P R R
118 Terminals for Y/D start at high speed (two speed
windings).
119 Terminals for Y/D start at low speed (two speed
windings).

3
IM 3601, IM B14 - Available ﬂange alternatives ; see also variant codes.
Flange Variant Flange dimensions Motor size M3JP/M3KP
size code P M N S 80 90 100 112 132
FT100 258 120 100 80 M6 S NA NA NA NA S = Standard ﬂange
FT115 260 140 115 95 M8 M S NA NA NA M = Option
FT130 229 160 130 110 M8 M M S S NA NA = Not possible
FT165 236 200 165 130 M10 NA NA NA NA S
FT215 246 250 215 180 M12 NA M M R R
FT265 256 300 265 230 M12 NA NA NA NA M
FT100 257 120 100 80 M7 S M NA NA NA
FT115 259 140 115 95 M10 M S NA NA NA
FT130 228 160 130 110 M10 M M S S NA
FT165 235 200 165 130 M12 M M M M S
FT215 245 250 215 180 M14.5 NA NA M M M
FT265 255 300 265 230 M14.5 NA NA NA NA M
Sizes 80-200 Sizes 225-400
Flange-mounted motor IM 3001, IM B5
Motor with
protection cover
Tolerances:
A, B ± 0,8
D, DA ISO k6 < Ø 50mm
ISO m6 > Ø 50mm
F, FA ISO h9
H +0 -0.5
N ISO j6
C, CA ± 0.8
Flameproof motors
Dimension drawings
Foot-mounted motor IM 1001, IM B3
Above table gives the main dimensions in mm.
For detailed drawings please check our web-site
'www.abb.com/motors&generators' or contact ABB.
GA
FD
M000269
M000198
M000199
M000200
Motor IM 1001. IM B3 AND IM 3001. IM B5 IM 1001. IM B3 IM 3001. IM B5 Protective roof
size D GA F E L max O A B B’ C HD HD K H M N P S DS LS
poles poles poles poles poles poles
2 4-8 2 4-8 2 4-8 2 4-8 2 4-8 M3JP M3KP 2 4-8
80 19 19 21.5 21.5 6 6 40 40 340 340 20 125 100 125 50 290 235 10 80 165 130 200 12 160 360 360
90 24 24 27 27 8 8 50 50 405 405 20 140 100 125 56 315 260 10 90 165 130 200 12 180 430 430
100 28 28 31 31 8 8 60 60 440 440 25 160 140 – 63 335 285 10 100 215 180 250 14.5 195 465 465
112 28 28 31 31 8 8 60 60 440 440 25 190 140 – 70 350 300 12 112 215 180 250 14.5 195 465 465
132 38 38 41 41 10 10 80 80 540 540 30 216 140 178 89 390 340 12 132 265 230 300 14.5 260 570 570
160 42 42 45 45 12 12 110 110 711 711 45 254 210 254 108 447 388 14.5 160 300 250 350 18.5 328 756 756
180 48 48 51.5 51.5 14 14 110 110 706 706 50 279 241 279 121 485 426 14.5 180 300 250 350 18.5 359 756 756
200 55 55 59 59 16 16 110 110 774 774 70 318 267 305 133 616 573 18.5 200 350 300 400 18.5 414 844 844
225 55 60 59 64 16 18 110 140 841 871 80 356 286 311 149 663 620 18.5 225 400 350 450 18.5 462 921 951
250 60 65 64 69 18 18 140 140 875 875 90 406 311 349 168 726 683 24 250 500 450 550 18.5 506 965 965
280 65 75 69 79.5 18 20 140 140 1090 1090 100 457 368 419 190 862 768 24 280 500 450 550 18 555 1190 1190
315 SM_ 65 80 69 85 18 22 140 170 1176 1206 115 508 406 457 216 929 858 30 315 600 550 660 23 624 1290 1320
315 ML_ 65 90 69 95 18 25 140 170 1287 1317 115 508 457 508 216 929 858 30 315 600 550 660 23 624 1401 1431
355 SM_ 70 100 74.5 106 20 28 140 210 1409 1479 130 610 500 560 254 1124 984 35 355 740 680 800 23 590 1480 1550
355 ML_ 70 100 74.5 106 20 28 140 210 1514 1584 130 610 560 630 254 1124 984 35 355 740 680 800 23 590 1530 1600
355 LK_ 70 100 74.5 106 20 28 140 210 1764 1834 130 610 630 710 254 1124 984 35 355 740 680 800 23 590 1635 1705
400 L_ 80 110 85 126 22 28 170 210 1851 1891 150 710 900 800 224 1211 1071 35 400 940 880 1000 28 590 1635 1705
400 LK_ 80 100 85 106 22 28 170 210 1851 1891 150 686 710 800 280 1211 1071 35 400 740 680 800 23 700 1860 1900

3
Dimension drawings
Flameproof motors, Ex d
Terminal boxes, standard with 6 terminals
M000203
M000204
Motor sizes 80-132
Motor sizes 160-180 Motor sizes 200-250
Motor sizes 280 - 315 Motor sizes 355 - 400
For motor dimensions please see dimension drawings on earlier pages.
Ex d - M3JP
Motor size Terminal box A1 B1 H1
80-132 180 170 114
160-180 251 242 127
200-250 339 291 226
280-400 210 465 370 260
370 790 490 420
750 707 466 387
M000366
M000366
M000364
M000367

3
M000205
M000206
Motor sizes 80 - 132
Motor sizes 355 - 400Motor sizes 280 - 315
Dimension drawings
Flameproof motors, Ex de
Terminal boxes, standard with 6 terminals
For motor dimensions please see dimension drawings on earlier pages.
Ex de - M3KP
80-132 202 188 66
160-180 234 234 68
200-250 352 319 184
280-400 210 416 306 177
370 451 347 200
750 top-mounted 686 413 219
750 side-mounted 525 413 219
M000365
M000369
M000368
M000368

3
8
11
9
10
31
29
2
12
13
14
16
15 3 1 7 6
27 28 32 4 30 21 20
19
17
18
25
24
23
26
22
LV Flameproof motor construction
1 Stator frame
2 Endshield, D-end
3 Screws for endshield, D-end
4 Endshield, N-end
5 Screws for endshield, N-end
6 Rotor with shaft
7 Key, D-end
8 Terminal box
9 Terminal board
10 Intermediate ﬂange
11 Screws for terminal box cover
12 Outer bearing cover, D-end
13 Valve disc with labyrinth seal, D-end
14 Bearing, D-end
15 Inner bearing cover, D-end
16 Screws for bearing cover, D-end
17 Outer bearing cover, N-end
18 Seal, N-end
19 Wave spring (280-315)
Coil spring (355-400)
20 Valve disc, N-end
21 Bearing, N-end
22 Inner bearing cover, N-end
23 Screws for bearing cover, N-end
24 Fan
25 Fan cover
26 Screws for fan cover
27 Rating plate
28 Regreasing plate
29 Grease nipple, D-end
30 Grease nipple, N-end
31 SPM nipple, D-end
32 SPM nipple, N-end
M000207

3
Flameproof motors Ex d, Ex de in brief, basic design
Motor size 80 90 100 112 132 160 180
Stator Material Cast iron EN-GJL-250 Cast iron EN-GJL-200
Surface treatment Blue, Munsell 8B 4.5/3.25 (» NCS 4822-B05G)
Two-pack epoxy paint, thickness t 80 µm.
Bearing end shields Material Cast iron EN-GJL-250 Cast iron EN-GJL-200
Paint thickness Two-pack epoxy paint, thickness t 80 µm.
Bearings D-end 2-pole 6205-2Z/C3 6205-2Z/C3 6206-2Z/C3 6206-2Z/C3 6208-2Z/C3 6309M/C3 6310M/C3
4-12 -pole 6309/C3 6310/C3
N-end 2-pole 6204-2Z/C3 6205-2Z/C3 6206-2Z/C3 6206-2Z/C3 6208-2Z/C3 6309M/C3 6309M/C3
4-12 -pole 6309/C3 6309/C3
Axially-locked bearings Inner bearing cover As standard, locked at D-end
Bearing seal Gamma ring as standard, radial seal on request
Lubrication Permanent grease lubrication Regreasable bearings
as std, bearings greased
for life as option
SPM-nipples – As standard
Rating plate Material Stainless steel
Terminal box Frame material Cast iron EN-GJL-250 Cast iron EN-GJL-200
Cover material Cast iron EN-GJL-250 Cast iron EN-GJL-200
Cover screws
material
Acidproof steel (INOX) Steel 5G, coated with
zinc
Connections Cable entries 1xM25x1.5 1xM32x1.5 2xM40x1.5
Terminals 6 terminals for connection with cable lugs (not included)
Fan Material Reinforced glass ﬁber laminate Reinforced glass ﬁber
laminate or aluminum
Fan cover Material Steel Zinc coated steel
Paint thickness Two-pack epoxy polyester paint, thickness t 80 µm. Two-pack polyester
paint, thickness t 80 µm.
Stator winding Material Copper
Insulation Insulation class F
Winding protection 3 pcs thermistors as standard
Rotor winding Material Pressure die-cast aluminum
Balancing Half key balancing
Key way Closed
Heating elements On request 25 W
Drain holes – Optional
External earthing bolt As standard
Enclosure IP 55, higher protection on request
Cooling method IC 411

3
Flameproof motors Ex d, Ex de in brief, basic design
Motor size 200 225 250 280 315 355 400
Stator Material Cast iron EN-GJL-200
Two-pack epoxy paint, thickness t 80 µm.
Bearing end shields Material Cast iron EN-GJL-200
Paint thickness Two-pack epoxy paint, thickness t 80 µm.
Bearings D-end 2-pole 6312M/C3 6313M/C3 6315M/C3 6316/C3 6316/C3 6316M/C3 6317M/C3
4-12 -pole 6312/C3 6313/C3 6315/C3 6316/C3 6319/C3 6322/C3 6324/C3
N-end 2-pole 6310M/C3 6312M/C3 6313M/C3 6316/C3 6316/C3 6316M/C3 6317M/C3
4-12 -pole 6310/C3 6312/C3 6313/C3 6316/C3 6316/C3 6316/C3 6319/C3
Axially-locked bearings Inner bearing cover As standard, locked at D-end
Bearing seal Gamma-ring as standard, radial seal
on request
Labyrinth seal as standard, radial seal on request
Lubrication Regreasable bearings as standard,
bearings greased for life as option
Regreasable bearings, regreasing nipples, M10x1
SPM-nipples As standard
Terminal box Frame material Cast iron EN-GJL-200 Cast Iron EN-GJL-150
or steel
Cover material Cast iron EN-GJL-200
Cover screws
material
Steel 5G, coated with zinc and yellow cromated
Fan Material Reinforced glass ﬁbre laminate or
aluminium
Reinforced glass ﬁber laminate or aluminum
Fan cover Material Zinc coated steel Steel
Paint thickness Two-pack polyester paint,
thickness t 80 µm.
Two-pack epoxy polyester paint, thickness t 80 µm.
Winding protection 3 pcs thermistors as standard
Balancing method Half key balancing
Key way Closed Open
Heating elements On request 50 W 2 x 50 W 2 x 65 W
Drain holes Optional

3
2(2)
2007-02-16
Certificates: 3-phase induction motors, series M2BA, M2GP, M3JP, M3KP, M3GP, M3HP, M3LP
Group & category,
temperature class, protection
Motor type,
IEC frame size
Certification number Year of
CE-
marking
Amendment to basic
certificate
Year of
amend
ment
M3JP/M3KP 80 LCIE 04 ATEX 6150 2004
M3JP/M3KP 90 LCIE 04 ATEX 6151 2004
M3JP/M3KP 100-112 LCIE 04 ATEX 6152 2004
M3JP/M3KP 132 LCIE 04 ATEX 6061 2004
M3JP/M3KP 160 LCIE 00 ATEX 6023 2000
M3JP/M3KP 180 LCIE 00 ATEX 6028 2000
M3JP/M3KP 200 LCIE 00 ATEX 6027 2000
M3JP/M3KP 225 LCIE 00 ATEX 6029 2000
M3JP/M3KP 250 LCIE 00 ATEX 6030 2000
M3JP/M3KP 280 LCIE 01 ATEX 6078 2001
M3JP/M3KP 315 LCIE 01 ATEX 6079 2001
M3JP/M3KP 355 LCIE 03 ATEX 6060 2003
M3JP/M3KP 400 LCIE 04 ATEX 6087 2004
Flameproof
II 2 G Ex d T1-T6
II 2 G Ex de T1-T6
In addition:
II 2 D Ex tD A21 / IP 65
or
II 3 D Ex tD A22 / IP 55, IP65
M3HP 80-90 LCIE 06 ATEX 6047 2006
.a.n
.a.n60028406XETA60EICL211-001PH3M
M3HP 132 LCIE 06 ATEX 6049 2006 n.a.
M3HP 160 LCIE 01 ATEX 6015 2001 LCIE 01 ATEX 6015/17 2006
Increased safety
II 2 G Ex e II T2 -T3
In addition for M3HP160 – 400:
II 2 D Ex tD A21
M2BA 71-132 LCIE 00 ATEX 6007 2000 LCIE 00 ATEX 6007/01 2006
.a.n50020616XETA50EICL052-17PG2M
Non-sparking
II 3G Ex nA II T2 -T3
.a.n60028806XETA60EICL054PL3M/PG3M
M2BA 71-132 LCIE 00 ATEX 6007 2000 LCIE 00 ATEX 6007/01 2006Dust ignition
II 3 D Ex tD A22 IP 55 M3GP/M3LP 450 LCIE 06 ATEX 6088 2006 n.a.
M2GP 71-250 LCIE 05 ATEX 6160 2005 n.a.
Dust ignition
II 2 D Ex tD A21 IP 65 or
II 3 D Ex tD A22 IP 55, IP65
1)
Notified Body ( ExNB ): LCIE (0081) ; Av. Du Général Leclerc. 33, 92266 Fontenay-aux-Roses, France
Certiﬁcate examples
ABB Oy
Motors
Postal address
P.O. Box 633
FI-65101 Vaasa
FINLAND
Visiting Address
Strömbergin Puistotie 5 A
FI-65320 Vaasa
FINLAND
Telephone
+358 10 22 11
Telefax
+358 10 22 47372
Internet
www.abb.fi
e-mail:
first name.last name
@fi.abb.com
Business Identity Code:
0763403-0
Domicile: Helsinki
EC Declaration of Conformity
The Manufacturer: ABB Oy
Motors
P.O. Box 633
Strömbergin puistotie 5A
FIN - 65101 Vaasa, Finland
hereby declares that
The Products: 3-phase induction motors, series M2BA, M2GP, M3JP, M3KP, M3GP, M3HP and
M3LP; as listed on page 2 in this document, are in conformity with provisions of the
following Council Directive:
Directive 94/9/EC (ATEX of 23 March 1994).
In respect of product categories the motors are in conformity with provisions of the following harmonized
standards:
EN 60079-0 (2004), EN 60079-1 (2004), EN 60079-7 (2003), EN 60079-15 (2005), EN 61241-0 (2006), EN
61241-1 (2004/2006).
Changings of the newest revisions of above standards do not effect the construction of the listed motors, which
thus comply with the Essential Health and Safety Requirements in Annex II of said directive.
Note: When installing motors for converter supply applications additional requirements must be respected
regarding the motor as well as the installation, as described in the dedicated addendum joined hereafter.
Signed by
----------------------------------
Jouni Ikäheimo
Title Product Development Manager
Date February 16th
, 2007
M000208
M000209
M000209

3

Increased safety motors
Ex e II T3
low voltage motors,
Sizes 80 - 400, 0.55 to 400 kW
Mechanical design .............................. 66
Ordering information .......................... 69
Technical data ..................................... 70
Rating plates........................................ 78
Variant codes....................................... 79
Dimension drawings .......................... 87
Increased safety motors in brief........ 92
ABB / Cat. BU / Ex-motors / Increased safety EN 01-2008 65
4
> Motors

66 ABB / Cat. BU / Ex-motors / Increased safety EN 01_2008
4
plug
Single core
cross-
section1)
mm²
Terminal
bolt size
6 x
Outer
cable
shealth
mm
Thread Cable gland Outer
cable
shealth
mm
80-90 1xM25 (1x)M25x1.5 - 10 M5 10-16 1xM20x1.5 1xM20x1.5 8-14
100-132 2xM32 (2x)M32x1.5 - 10 M5 16-21 1xM20x1.5 1xM20x1.5 8-14
160-180 2xM40 (2x)M40x1.5 - 35 M6 18-27 2xM20x1.5 2xM20x1.5 8-14
200-250 2xM50 (2x)M50x1.5 - 70 M10 26-35 2xM20x1.5 2xM20x1.5 8-14
1)
Increased safety Ex e
Terminal boxes
Terminal boxes are mounted on the top of all basic
motor versions. The terminal box can also be placed on
either side of the motor besides on cast iron 160 to 250
motors. The terminal box is either rotatable or at least
allows cable entry from either side which gives a choice
of connection possibilities.
Protection class of the standard terminal box is IP 55.
Aluminum motors
In sizes 90 to 180 the terminal box is made of alumi-
num, the bottom section is integrated with the stator and
provided with two openings on both sides. Cable glands
are not supplied.
In sizes 200 to 250 the terminal box and cover are
made of deep drawn steel, bolted to the stator. The
Motor sizes 90-280 with aluminum frame
Motor sizes 80-400 with cast iron frame
Co-ordination of terminal boxes and cable entries
If no ordering information on the cable is given, it is
assumed to be p.v.c. -insulated. Termination parts are
supplied according to the tables below.
terminal box is provided with two ﬂange openings, one
on each side. Cable glands are not supplied.
Cast iron motors
The terminal boxes in motors 80-132 and 200-250 are
4x90° turnable as standard, in motor sizes 160 to 180
and 280-400 as standard 2x180° and as easy option
4x90°.
Motors are delivered with cable glands according to the
tables below.
For aluminum motors 90-180 and cast iron motors 160-
400 metric threads are available as standard.
Motor size Opening Metric cable entry Cable diameter mm,
min-max
Max.connection
cable area mm2
Terminal bolt size Terminal screw
size
90-100 3)
2x(2xM25+M20) 2x(2xD11-16) 6 M4
112-132 3)
2x(M25+M20) 2x(D11-16+D9-13) 10 M5
160-180 3)
2x(2xM40+M16) 2x(2xD19-27+D5-9) 35 M6
200-250 1)
2 x FL 13 1x(2xM40+M16) 1x(2xD19-27+D5-9) 70 M10
200-250 2)
2 x FL 21 1x(2xM63+M16) 1x(2xD32-42+D5-9) 70 M10
280 2 x FL 21 1x(2xM63+M16) 1x(2xD32-42+D5-9) 70 M10
1)
Voltage code D
2)
Voltage code S
3)
Knockout openings

4
Motor
sizes
Voltage/
freq.
code
Ter-
minal
box
Top-mounted
Flange or adapter
Side-mounted
Flange or adapter
Cable box
or cable gland
Gland
thread
Cable
diameter
Max.conn
cable
area mm2
280 210 3GZF294730-749 3GZF294730-749 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x150
315SM, ML 370 3GZF294730-753 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
315LKA, LKB 370 3GZF294730-753 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
315LKC 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
355 SMA D 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
355 SMA E 370 3GZF294730-753 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 SMB, SMC 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
355 ML, LK 750 3GZF294730-944 3GZF294730-759 3GZF294730-501 2x Ø60-80 4x240
400 L, LK 750 3GZF294730-944 3GZF294730-759 3GZF294730-501 2x Ø60-80 4x240
355 SMA, SMB 370 3GZF294730-753 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 SMC D 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
355 SMC E 370 3GZF294730-753 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 ML 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
355 LKA 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
355 LKB 750 3GZF294730-944 3GZF294730-759 3GZF294730-501 2x Ø60-80 4x240
750 r/min (8 poles)
355 SM 370 3GZF294730-753 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 ML D 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
355 ML E 370 3GZF294730-753 3GZF294730-753 2x 3GZF294730-613 2x M63x1.5 2x Ø32-49 2x240
355 LK 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
400 LA, LB, 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
LKA, LKB
400 LC, LKC 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
D = 380-420 VD 50 Hz, 660/690 VY 50 Hz, 440-480 VD 60 Hz
E = 500 VD 50 Hz, 575 VD 60 Hz
Cast iron motor sizes 280-400 – Co-ordination of terminal boxes and cable entries

4
M3HP 280 - 315 M3HP 355 - 400
Flange
3GZF294730-749 (M3HP 280)
3GZF294730-753 (M3HP 315)
3GZF294730-943
3GZF294730-944
3GZF294730-945
Cable box
3GZF294730-301
Cable box
3GZF294730-501
Adapter E-D
3GZF294730-759
Inlet c e f g d
C 62 193 62 193 M8
D 100 300 80 292 M10
E 115 370 100 360 M12
Cable gland
3GZF294730-613
M000210
M000211
M000191
M000192
M000193
M000088

4
Sample order
Explanation of the product code:
Positions 1 to 4
3GAA = Totally enclosed fan cooled squirrel cage motor
with aluminum frame, increased safety
3GHP = Totally enclosed fan cooled squirrel cage motor
with cast iron frame, increased safety
Positions 5 and 6
IEC-frame
08 = 80 16 = 160 28 = 280
09 = 90 18 = 180 31 = 315
10 = 100 20 = 200 35 = 355
11 = 112 22 = 225 40 = 400
13 = 132 25 = 250
Position 7
Speed (Pole pairs)
1 = 2 poles
2 = 4 poles
3 = 6 poles
4 = 8 poles
Position 8 to 10
Serial number
Position 11
- (dash)
Motor size
A B C D, E, F, G
M3AAL 90 S 3GAA 091 001 - A D E 003 etc.
1 2 3 4 5 6 7 8 9 10 11 12 13 14
A Motor type
B Motor size
C Product code
F Generation code
G Variant codes
Position 12
A = Foot-mounted, top-mounted terminal box
B = Flange-mounted, large flange
C = Flange-mounted, small flange (sizes 71 to 112)
H = Foot- and flange-mounted, terminal box top-mounted
J = Foot- and flange-mounted, small flange with tapped holes
S = Foot- and flange-mounted, terminal box RHS seen
from D-end
T = Foot- and flange-mounted, terminal box LHS seen from D-end
V = Flange-mounted, special flange
F = Foot- and flange-mounted. Special flange
Position 13
Voltage and frequency code
See table below
Position 14
Generation code
A, B, C...
The product code must be, if needed, followed by variant codes.
Motor type M3AAL 90 S
Pole number 2
Rated output 1.5 kW
Product code 3GAA091001-ADE
Code letters for supplementing the product code - cast iron motors Voltage max. 690 V
Code letter for voltage and frequency
Direct start or, with ∆-connection, also Y/∆-start
Motor S D H E F T U X
size 50Hz 60 Hz 50 Hz 60 Hz 50 Hz 50 Hz 60 Hz 50 Hz 50 Hz 50 Hz
80-132 220-240 V∆ 440 VY 380-420 V∆ 440 V∆ 415 V∆ 500 V∆ 575 V∆ 500 VY 660 V∆ 690 V∆
380-420 VY - 660-690 VY - - - - - - -
160-400 230 V∆ - 400 V∆ 440V∆ 415 V∆ 500 V∆ - 500 VY 660 V∆ 690 V∆
400 VY 440VY 690 VY - - - - - - -
Code letters for supplementing the product code - aluminum motors Voltage max. 500 V
Motor S D H E F X
size 50 Hz 60 Hz 50 Hz 60 Hz 50 Hz 50 Hz 50 Hz
56-100 220-240 V∆ 440-480 VY 380-420 V∆ 440-480 V∆ - 500 V∆1)
500 VY
380-420 VY 660-690 VY -
112-132 220-240 V∆ - 380-420 V∆ 440-480 V∆ 415 V∆ 500 V∆ 500 VY
380-420 VY 440-480 VY 660-690 VY -
160-280 220, 230 V∆ - 380,400,415V∆ 440 V∆ 415 V∆ 500 V∆ 500 VY
380,400,415 VY 440 VY 660, 690 VY -
1
) On request.
Other rated
voltage,
connection
or frequency,
690 V
maximum
Other rated
voltage,
connection
or frequency,
500 V
maximum

4
Increased safety motors Ex e II T3
three phase aluminum motors, acc. to EN
1)
Temperature rise class F
Note: When ordering motors, the following variant code has to be added:
273 Ex e II according to ATEX directive 94/9/EC, temp. class T3.
The two bullets in the product code indicate choice of mounting arrangement,
voltage and frequency (see ordering information).
Output
kW
r/min
Efﬁ-
ciency
FL
100%
Power
factor
cos ϕ
Current Torque Time
tE
sec
Moment of
inertia
J=1/4GD2
Weight
kg
Sound
pressure
level LP
dB(A)
IN
Is
TN
Ts
Tmax
A IN
Nm TN
TN
3000 r/min = 2 poles 400 V 50 Hz
1.5 M3AAL 90 S 3GAA 091 001-••E 2870 80.1 0.84 3.35 6.1 5 2.4 3.0 9 0.0019 13 63
2.2 M3AAL 90 L 3GAA 091 002-••E 2870 83.4 0.86 4.5 6.9 7.3 2.7 3.0 8 0.0024 16 63
3 M3AAL 100 L 3GAA 101 001-••E 2900 86.0 0.88 5.95 7.6 10 2.7 3.6 7 0.0041 21 65
4 M3AAL 112 M 3GAA 111 001-••B 2850 86.0 0.91 7.4 6.8 13.4 2.8 3.0 9 0.01 25 63
5 M3AAL 132 SA 3GAA 131 001-••B 2865 86.5 0.85 9.8 7.9 17.31 3.2 3.8 6 0.016 42 75
6 M3AAL 132 SB 3GAA 131 002-••B 2885 85.3 0.82 13 9.2 20 3.4 3.8 6 0.016 42 73
6.6 1)
M3AAL 132 SBB 3GAA 131 004-••B 2865 86.8 0.90 12.5 7.9 22 4.7 3.9 5 0.016 57 74
11 M3AAL 160 MA 3GAA 161 101-••D 2930 91.2 0.88 20 6.3 36 1.9 2.5 10 0.039 73 69
14 M3AAL 160 M 3GAA 161 102-••D 2925 91.7 0.89 24.8 6.0 45.6 2.4 2.6 10 0.047 84 69
17 M3AAL 160 L 3GAA 161 103-••D 2925 92.4 0.90 29.4 6.0 55 2.8 2.9 7 0.053 94 69
22 M3AAL 180 M 3GAA 181 101-••D 2930 92.8 0.89 38.5 7.2 71 2.5 2.7 7.5 0.077 119 69
25 M3AAL 200 MLA 3GAA 201 001-••E 2960 92.6 0.88 44 8.7 81 2.8 3.4 9 0.15 175 72
30 M3AAL 200 MLB 3GAA 201 002-••E 2960 93.2 0.88 53 8.9 97 3.3 3.5 7 0.18 200 72
45 M3AAL 225 SMB 3GAA 221 001-••E 2960 93.9 0.88 79 6.6 145 2.5 2.8 7 0.26 235 74
55 M3AAL 250 SMA 3GAA 251 001-••E 2970 94.4 0.89 95 7.3 177 2.0 3.0 8 0.49 285 75
65 M3AAL 250 SMB 3GAA 251 002-••E 2970 94.2 0.89 113 8.2 209 2.8 3.5 7 0.57 375 75
65 M3AAL 280 SMA 3GAA 281 001-••E 2970 94.2 0.89 113 8.2 209 2.8 3.5 7 0.57 375 75
1500 r/min = 4 poles 400 V 50 Hz
1.1 M3AAL 90 S 3GAA 092 001-••E 1410 77.5 0.81 2.59 5.0 7.5 2.2 2.7 12 0.0032 13 50
1.5 M3AAL 90 L 3GAA 092 002-••E 1420 80.3 0.79 3.45 5.7 10 2.4 2.9 16 0.0043 16 50
2.2 M3AAL 100 LA 3GAA 102 001-••E 1430 83.0 0.81 4.8 5.5 15 2.4 2.9 11 0.0069 21 64
3 M3AAL 100 LB 3GAA 102 002-••E 1430 85.0 0.81 6.48 5.5 20 2.5 2.9 6 0.0082 24 66
4 M3AAL 112 M 3GAA 112 001-••B 1435 84.5 0.80 8.6 7.0 26.6 2.9 3.1 12 0.015 27 60
5.5 M3AAL 132 S 3GAA 132 001-••B 1450 87.0 0.83 11.1 7.3 36.2 2.2 3.0 9 0.031 40 66
7.5 M3AAL 132 M 3GAA 132 002-••B 1450 88.0 0.83 14.8 7.9 49.4 2.5 3.2 7 0.038 48 66
9.2 1)
M3AAL 132 MBA 3GAA 132 004-••B 1450 88.0 0.85 17.8 7.3 60 2.0 2.8 7 0.048 59 63
11 M3AAL 160 M 3GAA 162 101-••B 1460 90.3 0.81 21.5 6.7 72 2.9 2.8 14 0.067 75 62
14 M3AAL 160 L 3GAA 162 102-••D 1455 91.1 0.83 26.6 6.9 91 3.2 3.0 13 0.091 94 62
17.5 M3AAL 180 M 3GAA 182 101-••D 1470 92.3 0.84 33 5.7 113 3.2 2.8 13 0.161 124 62
20 M3AAL 180 L 3GAA 182 102-••D 1470 92.4 0.83 37.3 6.0 130 3.2 3.0 13 0.191 141 63
30 M3AAL 200 MLA 3GAA 202 001-••E 1475 93.0 0.83 56 6.3 195 3.7 2.8 9 0.29 180 63
35 M3AAL 225 SMA 3GAA 222 001-••E 1480 93.3 0.83 66 6.7 226 2.6 2.7 13 0.37 215 66
40 M3AAL 225 SMB 3GAA 222 002-••E 1480 93.7 0.80 76 7.7 259 2.9 3.1 11 0.42 230 66
50 M3AAL 250 SMA 3GAA 252 001-••E 1480 94.0 0.82 94 6.6 323 2.6 3.1 10 0.72 275 67
55 M3AAL 250 SMB 3GAA 252 002-••E 1480 94.0 0.87 97 5.5 355 3.0 3.2 10 0.88 335 67
55 M3AAL 280 SMA 3GAA 282 001-••E 1480 94.0 0.87 97 5.5 355 3.0 3.2 10 0.88 380 67
M000194

4
three phase aluminum motors, acc. to EN
Output
kW
r/min
Efﬁ-
ciency
FL
100%
Power
factor
cos ϕ
Current Torque Time
tE
sec
Moment of
inertia
J=1/4GD2
Weight
kg
Sound
pressure
level LP
dB(A)
IN
Is
TN
Ts
Tmax
A IN
Nm TN
TN
1000 r/min = 6 poles 400 V 50 Hz
0.75 M3AAL 90 S 3GAA 093 001-••E 930 71.5 0.67 2.36 3.6 7.5 1.9 2.3 25 0.0032 13 44
1.1 M3AAL 90 L 3GAA 093 002-••E 925 71.7 0.64 3.5 4.1 11.4 2.1 2.4 29 0.0043 16 44
1.5 M3AAL 100 L 3GAA 103 001-••E 950 80.0 0.71 3.92 4.9 15 1.9 2.3 24 0.0082 23 49
2.2 M3AAL 112 M 3GAA 113 001-••B 945 80.0 0.70 5.7 5.5 23 2.1 2.7 14 0.015 27 66
3 M3AAL 132 S 3GAA 133 001-••B 960 84.5 0.75 6.9 6.2 29.8 2.0 2.6 15 0.031 39 57
4 M3AAL 132 MA 3GAA 133 002-••B 960 85.5 0.78 8.7 5.9 39.7 2.0 2.8 12 0.038 46 61
5.5 M3AAL 132 MB 3GAA 133 003-••B 955 86.0 0.78 11.9 6.4 55 2.2 2.8 11 0.045 54 57
7.5 M3AAL 160 M 3GAA 163 101-••D 970 89.3 0.79 15.4 6.0 74 2.0 2.8 24 0.089 88 59
11 M3AAL 160 L 3GAA 163 102-••D 975 89.3 0.73 24.4 7.2 108 2.2 2.9 14 0.107 102 59
15 M3AAL 180 L 3GAA 183 101-••D 970 90.8 0.78 31 8.0 148 2.1 3.0 17 0.217 151 59
18.5 M3AAL 200 MLA 3GAA 203 001-••E 985 91.1 0.81 36 5.4 179 2.5 2.7 23 0.37 189 63
22 M3AAL 200 MLB 3GAA 203 002-••E 980 91.7 0.81 43 6.9 214 2.5 2.7 14 0.43 209 63
30 M3AAL 225 SMB 3GAA 223 001-••E 985 92.8 0.83 56 6.9 291 2.5 2.7 9 0.64 254 63
37 M3AAL 250 SMA 3GAA 253 001-••E 985 93.7 0.83 69 7.3 359 2.8 2.8 17 1.16 313 63
1)
Note: When ordering motors, the following variant code has to be added:
273 Ex e II according to ATEX directive 94/9/EC, temp. class T3.
voltage and frequency (see ordering information).

4
three phase cast iron motors, acc. to EN
1)
codes 044 and 045.
2)
voltage and frequency (see ordering information)
Output
kW
r/min
Efﬁ-
ciency
FL
100%
Power
factor
cos ϕ
Current Torque Time
tE
sec
Moment of
inertia
J=1/4 GD2
Weight
kg
Sound
pressure
level LP
dB(A)
IN
Is
TN
Ts
Tmax
A IN
Nm TN
TN
3000 r/min = 2-poles 400 V 50 Hz
0.75 M3HP 80 MA 3GHP 081 310-••G 2861 78.2 0.86 1.62 7.3 2.5 3.7 3.8 15 0.0006 28 59
1.1 M3HP 80 MB 3GHP 081 320-••G 2831 82.0 0.89 2.21 5.7 3.7 3.0 3.2 11 0.0007 30 59
1.5 M3HP 90 SLA 3GHP 091 010-••G 2881 82.7 0.88 3 6.7 5 3.0 3.5 12 0.001 41 61
2.2 M3HP 90 SLC 3GHP 091 030-••G 2871 85.3 0.90 4.19 7.3 7.3 2.7 3.5 6 0.0014 44 61
3 M3HP 100 LA 3GHP 101 510-••G 2896 87.4 0.90 5.6 7.2 10 2.2 3.0 7 0.0036 58 65
3.7 M3HP 112 MB 3GHP 111 320-••G 2910 87.8 0.90 6.9 7.8 12 3.9 4.0 5 0.0043 61 65
5.5 M3HP 132 SMB 3GHP 131 220-••G 2905 87.6 0.90 10.4 7.0 18 2.4 3.3 9 0.009 89 71
7.5 M3HP 132 SMD 3GHP 131 240-••G 2914 89.0 0.90 13.8 7.6 25 2.8 3.6 5 0.012 97 71
8 M3HP 160 MLB 3GHP 161 420-••G 2939 89.9 0.91 14.5 7.5 26 2.8 3.5 12 0.047 156 69
11 M3HP 160 MLC 3GHP 161 430-••G 2940 92.0 0.92 19 7.6 36 2.6 3.4 10 0.054 167 69
12.5 M3HP 160 MLD 3GHP 161 440-••G 2935 92.5 0.92 22 7.8 41 2.8 3.4 7 0.059 173 69
15 M3HP 180 MLB 3GHP 181 420-••G 2952 92.5 0.91 26 7.7 48.5 2.4 3.3 8 0.092 210 69
18 M3HP 180 MLC 3GHP 181 430-••G 2952 93.5 0.91 31 7.3 58 2.4 3.2 9 0.114 229 69
22 M3HP 200 MLC 3GHP 201 430-••G 2956 93.2 0.90 38.5 6.9 71 2.6 3.5 10 0.21 305 72
25 M3HP 200 MLE 3GHP 201 450-••G 2957 93.7 0.89 44 7.0 81 2.9 3.8 9 0.22 310 72
30 M3HP 225 SMB 3GHP 221 220-••G 2963 92.3 0.91 51 7.4 97 2.1 3.0 10 0.31 365 74
36 M3HP 225 SMD 3GHP 221 240-••G 2965 94.7 0.92 60 8.0 116 2.3 3.2 7 0.36 395 74
40 M3HP 250 SMB 3GHP 251 220-••G 2973 94.3 0.92 67 7.8 128 2.2 3.0 8 0.66 475 74
47 M3HP 250 SMC 3GHP 251 230-••G 2972 94.5 0.90 80 7.8 151 2.3 3.0 6 0.69 495 74
60 1)
M3HP 280 SMA 3GHP 281 210-••G 2975 94.6 0.91 100 7.3 193 1.2 2.9 10 0.8 625 77
75 1)
M3HP 280 SMB 3GHP 281 220-••G 2975 94.6 0.91 125 7.6 241 1.2 2.9 8 0.9 665 77
77 1)
M3HP 315 SMA 3GHP 311 210-••G 2984 94.6 0.90 132 7.3 246 0.9 2.9 13 1.2 880 78
80 1)
M3HP 280 SMC 3GHP 281 230-••G 2975 94.9 0.92 132 7.4 257 1.2 2.8 7 1.15 725 77
90 1)
M3HP 315 SMB 3GHP 311 220-••G 2983 95.2 0.90 152 7.2 288 0.9 2.8 10 1.4 940 78
120 1)
M3HP 315 SMC 3GHP 311 230-••G 2982 95.6 0.91 201 7.4 384 1.0 2.9 6 1.7 1025 78
135 1)
M3HP 315 MLA 3GHP 311 410-••G 2983 95.9 0.92 222 8.0 432 1.2 3.0 6 2.1 1190 78
175 1)
M3HP 355 SMA 3GHP 351 210-••G 2987 95.9 0.91 290 7.4 560 0.8 3.2 10 3 1600 83
200 1)
M3HP 355 SMB 3GHP 351 220-••G 2986 96.1 0.90 333 7.3 640 0.8 3.2 7 3.4 1680 83
220 1)
M3HP 355 MLA 3GHP 351 410-••G 2983 96.4 0.91 363 7.1 704 0.9 3.0 8 4.1 2000 83
300 1)
M3HP 355 LKA 3GHP 351 810-••G 2986 96.6 0.92 488 7.4 960 0.9 3.2 6 4.8 2320 83
355 2)
M3HP 400 LB 3GHP 401 520-••G 2989 97.1 0.91 580 7.6 1134 0.7 3.4 7 8.2 3050 82
355 2)
M3HP 400 LKB 3GHP 401 820-••G 2989 97.1 0.91 580 7.6 1134 0.7 3.4 7 8.2 3050 82
400 2)
M3HP 400 LC 3GHP 401 530-••G 2988 97.2 0.92 645 7.5 1278 0.8 3.4 6 9.3 3300 82
400 2)
M3HP 400 LKC 3GHP 401 830-••G 2988 97.2 0.92 645 7.5 1278 0.8 3.4 6 9.3 3300 82

4
LV Increased safety motors Ex e II T3
Output
kW
r/min
Efﬁ-
ciency
FL
100%
Power
factor
cos ϕ
Current Torque Time
tE
sec
Moment of
inertia
J=1/4 GD2
Weight
kg
Sound
pressure
level LP
dB(A)
IN
Is
TN
Ts
Tmax
A IN
Nm TN
TN
1500 r/min = 4-poles 400 V 50 Hz
0.55 M3HP 80 MA 3GHP 082 310-••G 1421 77.2 0.76 1.4 4.9 3.7 2.3 2.7 20 0.001 29 59
0.75 M3HP 80 MB 3GHP 082 320-••G 1413 78.3 0.79 1.8 5.1 5.1 2.4 2.7 20 0.0012 29 59
1.1 M3HP 90 SLA 3GHP 092 010-••G 1435 80.8 0.81 2.48 5.9 7.3 2.8 3.5 20 0.002 42 54
1.5 M3HP 90 SLC 3GHP 092 030-••G 1431 81.8 0.81 3.31 6.4 10 2.9 3.4 18 0.003 44 54
2.2 M3HP 100 LA 3GHP 102 510-••G 1441 86.4 0.86 4.4 7.0 14.5 2.7 3.3 20 0.0075 58 52
3 M3HP 100 LB 3GHP 102 520-••G 1442 86.2 0.83 6.1 7.0 20 2.7 3.4 12 0.0081 60 52
3.7 M3HP 112 MC 3GHP 112 330-••G 1441 85.9 0.82 7.7 7.3 24.5 3.1 4.0 11 0.0093 63 52
5.5 M3HP 132 SMB 3GHP 132 220-••G 1448 87.6 0.81 11.4 6.7 36 3.1 3.3 13 0.02 93 60
7.5 M3HP 132 SMD 3GHP 132 240-••G 1447 88.4 0.81 15.4 6.6 50 3.1 3.4 6 0.023 99 60
11 M3HP 160 MLC 3GHP 162 430-••G 1463 91.0 0.84 21 7.2 72 2.6 3.1 15 0.09 166 62
15 M3HP 160 MLE 3GHP 162 450-••G 1468 91.9 0.83 29 8.1 98 3.1 3.6 6 0.121 189 68
17 M3HP 180 MLB 3GHP 182 420-••G 1471 92.6 0.84 33 6.6 110 2.3 2.9 12 0.191 214 66
20 M3HP 180 MLC 3GHP 182 430-••G 1476 93.1 0.82 38 7.4 129 2.7 3.1 8 0.239 233 66
26 M3HP 200 MLA 3GHP 202 410-••G 1479 92.7 0.87 47 7.9 168 1.9 3.1 13 0.3 280 73
30 M3HP 200 MLB 3GHP 202 420-••G 1477 93.0 0.88 54 7.4 194 1.9 3.0 9 0.35 305 73
38 M3HP 225 SMB 3GHP 222 220-••G 1479 93.7 0.88 67 7.3 245 1.7 3.1 9 0.45 365 74
43 M3HP 225 SMC 3GHP 222 230-••G 1479 93.8 0.89 76 7.7 277 1.8 3.1 5 0.53 390 74
50 M3HP 250 SMA 3GHP 252 210-••G 1482 93.8 0.87 88 7.1 322 1.5 3.1 8 0.77 425 73
60 M3HP 250 SMB 3GHP 252 220-••G 1483 94.9 0.88 105 7.3 386 1.7 3.2 8 0.98 470 73
65 M3HP 280 SMA 3GHP 282 210-••G 1485 94.8 0.88 113 7.4 418 1.5 3.0 8 1.25 625 68
75 M3HP 280 SMB 3GHP 282 220-••G 1484 95.1 0.89 130 7.2 483 1.5 3.0 6 1.5 665 68
82 M3HP 280 SMC 3GHP 282 230-••G 1483 95.2 0.90 139 7.0 528 1.5 2.8 6 1.85 725 68
95 M3HP 315 SMA 3GHP 312 210-••G 1488 95.6 0.88 165 6.9 610 1.1 2.5 8 2.3 900 73
110 M3HP 315 SMB 3GHP 312 220-••G 1488 95.8 0.88 188 6.8 706 1.1 2.6 8 2.6 960 73
128 M3HP 315 SMC 3GHP 312 230-••G 1486 95.8 0.89 217 6.8 823 1.1 2.6 5 2.9 1000 73
145 M3HP 315 MLA 3GHP 312 410-••G 1487 96.2 0.89 245 6.9 931 1.1 2.6 5 3.5 1160 73
190 M3HP 355 SMA 3GHP 352 210-••G 1492 96.7 0.87 330 7.1 1216 1.0 2.9 9 5.9 1610 75
230 M3HP 355 SMB 3GHP 352 220-••G 1492 96.7 0.87 393 7.3 1472 1.1 3.1 6 6.9 1780 78
280 M3HP 355 MLA 3GHP 352 410-••G 1491 96.8 0.88 475 7.0 1793 1.1 3.0 5 8.4 2140 78
310 M3HP 355 LKA 3GHP 352 810-••G 1490 96.7 0.88 525 6.9 1987 1.1 2.9 7 10 2500 78
350 M3HP 400 LA 3GHP 402 510-••G 1491 97.1 0.89 590 6.4 2242 1.2 2.5 6 15 3200 78
350 M3HP 400 LKA 3GHP 402 810-••G 1491 97.1 0.89 590 6.4 2242 1.2 2.5 6 15 3200 78
390 M3HP 400 LC 3GHP 402 530-••G 1493 97.2 0.88 660 7.4 2494 1.0 2.7 6 17 3400 78
390 M3HP 400 LKC 3GHP 402 830-••G 1493 97.2 0.88 660 7.4 2494 1.0 2.7 6 17 3400 78

4
Output
kW
r/min
Efﬁ-
ciency
FL
100%
Power
factor
cos ϕ
Current Torque Time
tE
sec
Moment of
inertia
J=1/4 GD2
Weight
kg
Sound
pressure
level LP
dB(A)
IN
Is
TN
Ts
Tmax
A IN
Nm TN
TN
1000 r/min = 6-poles 400 V 50 Hz
0.37 M3HP 80 MA 3GHP 083 310-••G 953 67.2 0.62 1.32 4.6 3.7 3.4 3.6 20 0.0022 29 50
0.55 M3HP 80 MB 3GHP 083 320-••G 938 67.9 0.68 1.79 4.3 5.6 2.8 2.9 20 0.0022 29 50
0.75 M3HP 90 SLA 3GHP 093 010-••G 942 74.0 0.69 2.17 4.5 7.6 2.8 3.2 0 0.0036 41 44
1.1 M3HP 90 SLC 3GHP 093 030-••G 940 75.6 0.67 3.25 4.6 11 3.1 3.4 20 0.0037 43 44
1.5 M3HP 100 LA 3GHP 103 510-••G 951 81.2 0.74 3.7 4.2 15 2.3 2.9 20 0.012 57 54
2.2 M3HP 112 MB 3GHP 113 320-••G 950 81.8 0.76 5.2 5.9 22 2.2 2.8 18 0.014 60 50
3 M3HP 132 SMB 3GHP 133 220-••G 961 83.2 0.77 6.9 6.1 30 2.1 3.0 20 0.032 93 57
4 M3HP 132 SMC 3GHP 133 230-••G 967 85.6 0.74 9.3 6.6 39.5 2.3 3.4 17 0.034 95 57
5.5 M3HP 132 SMD 3GHP 133 240-••G 958 85.5 0.76 12.5 6.7 55 2.2 3.0 11 0.036 97 57
6.6 M3HP 160 MLA 3GHP 163 410-••G 973 89.4 0.79 13.8 7.3 65 2.1 3.4 14 0.088 160 57
7.5 M3HP 160 MLB 3GHP 163 420-••G 974 90.2 0.78 15.5 7.7 74 2.1 3.6 20 0.106 173 65
11 M3HP 160 MLC 3GHP 163 430-••G 971 90.3 0.76 23.7 7.0 108 2.6 3.8 10 0.127 188 65
14 M3HP 180 MLB 3GHP 183 420-••G 975 91.4 0.79 28.5 7.6 137 1.8 3.0 16 0.221 233 67
16.5 M3HP 200 MLB 3GHP 203 420-••G 984 92.0 0.84 31 7.0 160 3.2 3.3 23 0.47 290 65
20 M3HP 200 MLC 3GHP 203 430-••G 983 92.3 0.84 38 7.1 194 3.0 2.7 17 0.52 305 65
30 M3HP 225 SMC 3GHP 223 230-••G 985 93.0 0.83 56 7.0 291 2.9 3.0 7 0.78 380 64
37 M3HP 250 SMB 3GHP 253 220-••G 988 94.0 0.86 66 7.2 358 2.6 2.8 10 1.6 465 65
45 M3HP 280 SMA 3GHP 283 210-••G 986 94.0 0.88 79 6.7 435 1.5 2.8 13 1.85 605 66
50 M3HP 280 SMB 3GHP 283 220-••G 987 94.2 0.88 86 7.0 484 1.4 2.6 9 2.2 645 66
62 M3HP 280 SMC 3GHP 283 230-••G 986 94.8 0.88 106 7.6 600 1.5 2.6 6 2.85 725 66
72 M3HP 315 SMA 3GHP 313 210-••G 992 94.8 0.84 130 7.2 693 1.3 2.5 7 3.2 830 72
85 M3HP 315 SMB 3GHP 313 220-••G 991 95.0 0.87 148 7.3 819 1.3 2.4 6 4.1 930 72
100 M3HP 315 SMC 3GHP 313 230-••G 991 95.4 0.86 177 6.7 964 1.2 2.2 14 4.9 1000 72
120 M3HP 315 MLA 3GHP 313 410-••G 991 95.6 0.86 212 7.6 1156 1.3 2.5 5 5.8 1150 72
150 M3HP 355 SMA 3GHP 353 210-••G 993 95.8 0.84 268 6.8 1442 1.3 2.6 6 7.9 1510 75
180 M3HP 355 SMB 3GHP 353 220-••G 994 96.1 0.86 315 7.2 1729 1.3 2.6 5 9.7 1680 75
230 M3HP 355 MLB 3GHP 353 420-••G 993 96.3 0.85 405 7.1 2212 1.3 2.5 6 13.5 2180 75
260 M3HP 355 LKA 3GHP 353 810-••G 993 96.5 0.85 458 7.1 2500 1.4 2.6 6 15.5 2500 75
300 M3HP 400 LA 3GHP 403 510-••G 995 96.8 0.84 532 6.9 2879 1.3 2.5 6 17 2900 76
300 M3HP 400 LKA 3GHP 403 810-••G 995 96.8 0.84 532 6.9 2879 1.3 2.5 6 17 2900 76
350 M3HP 400 LB 3GHP 403 520-••G 995 97.0 0.84 620 7.4 3359 1.4 2.6 6 20.5 3150 76
350 M3HP 400 LKB 3GHP 403 820-••G 995 97.0 0.84 620 7.4 3359 1.4 2.6 6 20.5 3150 76

4
Output
kW
r/min
Efﬁ-
ciency
FL
100%
Power
factor
cos ϕ
Current Torque Time
tE
sec
Moment of
inertia
J=1/4 GD2
Weight
kg
Sound
pressure
level LP
dB(A)
IN
Is
TN
Ts
Tmax
A IN
Nm TN
TN
750 r/min = 8-poles 400 V 50 Hz
0.18 M3HP 80 MA 3GHP 084 310-••G 720 54.0 0.48 1.08 3.3 2.4 3.7 4.0 30 0.0022 29 36
0.25 M3HP 80 MB 3GHP 084 320-••G 705 58.0 0.58 1.15 3.2 3.4 2.6 2.8 30 0.0022 29 36
0.37 M3HP 90 SLA 3GHP 094 010-••G 696 65.2 0.63 1.34 3.0 5.1 2.0 2.2 0 0.0036 41 36
0.55 M3HP 90 SLC 3GHP 094 030-••G 695 66.6 0.61 2.05 3.1 7.6 2.2 2.4 20 0.0037 43 36
0.75 M3HP 100 LA 3GHP 104 510-••G 720 74.7 0.59 2.6 3.8 10 2.0 2.9 0 0.012 57 44
1.1 M3HP 100 LB 3GHP 104 520-••G 717 75.2 0.57 3.9 3.7 15 2.1 2.9 0 0.012 57 46
1.5 M3HP 112 MC 3GHP 114 330-••G 713 76.7 0.59 5 3.7 20 2.0 2.7 20 0.014 61 44
2.2 M3HP 132 SMC 3GHP 134 230-••G 720 79.6 0.65 6.3 4.7 29 2.0 2.9 20 0.034 95 59
3 M3HP 132 SMD 3GHP 134 240-••G 710 80.2 0.70 8 4.1 40 1.7 2.3 20 0.036 97 59
3.5 M3HP 160 MLA 3GHP 164 410-••G 719 83.0 0.66 9.5 5.1 46 1.8 2.9 21 0.071 146 59
4.8 M3HP 160 MLB 3GHP 164 420-••G 719 85.5 0.70 12 5.5 64 1.8 2.9 20 0.09 160 53
6.6 M3HP 160 MLC 3GHP 164 430-••G 721 86.8 0.71 16 6.0 87 1.8 3.0 19 0.121 188 55
9.7 M3HP 180 MLB 3GHP 184 420-••G 726 89.8 0.74 21.5 5.9 127 1.7 2.8 19 0.239 227 63
15 M3HP 200 MLB 3GHP 204 420-••G 736 91.0 0.80 30.5 7.1 195 2.2 3.4 20 0.54 300 64
22 M3HP 225 SMC 3GHP 224 230-••G 735 92.3 0.81 43 6.8 286 2.1 3.3 21 0.75 375 65
27 M3HP 250 SMA 3GHP 254 210-••G 736 92.2 0.82 51 6.6 350 1.9 2.8 21 1.25 420 65
32 M3HP 250 SMB 3GHP 254 220-••G 737 92.6 0.82 61 7.0 415 2.0 2.9 13 1.52 465 65
37 M3HP 280 SMA 3GHP 284 210-••G 741 93.2 0.80 72 6.7 477 1.5 2.6 10 1.85 605 65
45 M3HP 280 SMB 3GHP 284 220-••G 738 93.7 0.82 85 6.4 580 1.3 2.6 10 2.2 645 65
55 M3HP 280 SMC 3GHP 284 230-••G 741 94.2 0.80 105 7.8 709 1.6 2.8 5 2.85 725 65
75 M3HP 315 SMB 3GHP 314 220-••G 743 94.8 0.80 145 6.5 964 1.1 2.2 10 4.1 930 62
90 M3HP 315 SMC 3GHP 314 230-••G 743 95.0 0.80 172 6.9 1157 1.2 2.3 6 4.9 1000 64
105 M3HP 315 MLA 3GHP 314 410-••G 743 95.2 0.80 200 7.2 1350 1.2 2.3 6 5.8 1150 72
132 M3HP 355 SMB 3GHP 354 220-••G 744 95.6 0.83 241 7.6 1694 1.3 2.4 7 9.7 1680 75
150 M3HP 355 SMC 3GHP 354 230-••G 744 95.8 0.80 283 7.3 1925 1.3 2.5 10 11.3 1820 75
180 M3HP 355 MLB 3GHP 354 420-••G 743 95.8 0.82 330 6.7 2313 1.2 2.4 6 13.5 2180 75
215 M3HP 355 LKB 3GHP 354 820-••G 744 96.1 0.81 400 7.5 2760 1.3 2.6 5 16.5 2600 75
230 M3HP 400 LKA 3GHP 404 810-••G 745 96.5 0.82 420 7.0 2948 1.2 2.5 7 17 2900 71
230 M3HP 400 LA 3GHP 404 510-••G 745 96.5 0.82 420 7.0 2948 1.2 2.5 7 17 2900 71
280 M3HP 400 LB 3GHP 404 520-••G 744 96.5 0.83 505 6.7 3594 1.1 2.2 6 21 3200 71
280 M3HP 400 LKB 3GHP 404 820-••G 744 96.5 0.83 505 6.7 3594 1.1 2.2 6 21 3200 71
315 M3HP 400 LC 3GHP 404 530-••G 744 96.6 0.83 566 6.8 4043 1.2 2.3 6 24 3400 71
315 M3HP 400 LKC 3GHP 404 830-••G 744 96.6 0.83 566 6.8 4043 1.2 2.3 6 24 3400 71

4
three phase cast iron motors, acc. to VIK
Data for frame sizes 355-400 on request.
Technical data for corresponding Ex e T2 VIK available on request.
Note: When ordering, following variant code has to be added:
421 VIK design.
Output
kW
r/min
Efﬁ-
ciency
FL
100%
Power
factor
cos ϕ
Current Torque Time
tE
sec
Moment of
inertia
J = 1/4
GD2
Weight
kg
Sound
pressure
level LP
dB(A)
IN
Is
TN
Ts
Tmax
A IN
Nm TN
TN
3000 r/min = 2 poles 380...420 V 50 Hz
7.5 M3HP 160 MLB 3GHP 161 420-••G 2945 89.9 0.91 14 7.6 24 3.0 3.7 14 0.047 156 69
10 M3HP 160 MLC 3GHP 161 430-••G 2947 92.1 0.92 18 8.1 32.5 2.9 3.7 10 0.054 167 69
12.5 M3HP 160 MLD 3GHP 161 440-••G 2935 92.5 0.92 23 7.5 40.5 2.8 3.4 7 0.059 173 69
15 M3HP 180 MLB 3GHP 181 420-••G 2952 92.5 0.91 27.5 7.3 48.5 2.4 3.3 8 0.092 210 69
20 M3HP 200 MLC 3GHP 201 430-••G 2960 93.1 0.89 37 7.1 65 2.9 3.9 10 0.21 305 72
24 M3HP 200 MLE 3GHP 201 450-••G 2959 93.7 0.89 44.5 6.9 77 3.0 3.9 9 0.22 310 72
28 M3HP 225 SMC 3GHP 221 230-••G 2963 93.3 0.91 51 7.1 90 2.1 3.1 9 0.34 385 74
36 M3HP 250 SMB 3GHP 251 220-••G 2969 94.4 0.90 64 6.8 116 1.9 2.7 11 0.66 475 74
3000 r/min = 2 poles 400 V 50 Hz
47 1)
M3HP 280 SMA 3GHP 281 210-••G 2982 93.7 0.91 80 7.1 151 1.2 3.0 17 0.8 625 77
58 1)
M3HP 280 SMB 3GHP 281 220-••G 2975 94.3 0.92 97 7.0 186 1.2 2.8 12 0.9 665 77
68 1)
M3HP 315 SMA 3GHP 311 210-••G 2982 94.3 0.90 116 7.2 218 0.9 2.8 10 1.2 880 78
80 1)
M3HP 315 SMB 3GHP 311 220-••G 2980 94.8 0.91 134 7.0 256 0.8 2.7 10 1.4 940 78
110 1)
M3HP 315 SMC 3GHP 311 230-••G 2978 95.4 0.91 183 7.0 353 0.9 2.7 8 1.7 1025 78
125 1)
M3HP 315 MLA 3GHP 311 410-••G 2983 96.0 0.92 205 7.6 400 1.0 2.8 10 2.1 1190 78
10 M3HP 160 MLC 3GHP 162 430-••G 1468 91.2 0.83 20 7.5 65 2.8 3.4 16 0.09 166 62
13.5 M3HP 160 MLE 3GHP 162 450-••G 1469 91.8 0.83 26.5 7.7 88 3.0 3.6 8 0.121 189 68
15 M3HP 180 MLB 3GHP 182 420-••G 1476 92.8 0.82 30 7.1 97 2.6 3.3 16 0.191 214 66
17.5 M3HP 180 MLC 3GHP 182 430-••G 1477 92.5 0.83 35 7.0 113 2.7 3.2 10 0.239 233 66
24 M3HP 200 MLA 3GHP 202 410-••G 1480 92.7 0.87 46 7.8 155 2.0 3.2 14 0.3 280 73
30 M3HP 225 SMB 3GHP 222 220-••G 1481 93.6 0.88 57 6.9 193 1.8 2.6 17 0.45 365 74
36 M3HP 225 SMC 3GHP 222 230-••G 1480 93.6 0.89 66 7.3 232 1.7 3.1 8 0.53 390 74
44 M3HP 250 SMB 3GHP 252 220-••G 1482 94.6 0.88 81 6.6 284 1.3 3.0 15 0.98 470 73
1500 r/min = 4 poles 400 V 50 Hz
58 M3HP 280 SMA 3GHP 282 210-••G 1484 94.6 0.88 100 7.6 373 1.3 2.9 8 1.25 625 68
70 M3HP 280 SMB 3GHP 282 220-••G 1484 94.9 0.89 120 7.2 450 1.4 2.9 7 1.5 665 68
84 M3HP 315 SMA 3GHP 312 210-••G 1489 95.6 0.88 145 7.0 539 1.2 2.9 14 2.3 900 73
100 M3HP 315 SMB 3GHP 312 220-••G 1489 95.8 0.88 171 7.6 641 1.2 2.9 10 2.6 960 73
115 M3HP 315 SMC 3GHP 312 230-••G 1488 95.9 0.89 196 6.7 738 1.1 2.7 10 2.9 1000 73
135 M3HP 315 MLA 3GHP 312 410-••G 1489 96.2 0.89 227 7.5 866 1.3 2.8 7 3.5 1160 73
1)
codes 044 and 045.

4
three phase cast iron motors, acc. to VIK
Data for frame sizes 355-400 on request.
Technical data for corresponding Ex e T2 VIK available on request.
Note: When ordering, following variant code has to be added:
421 VIK design.
Output
kW
r/min
Efﬁ-
ciency
FL
100%
Power
factor
cos ϕ
Current Torque Time
tE
sec
Moment of
inertia
J = 1/4
GD2
Weight
kg
Sound
pressure
level LP
dB(A)
IN
Is
TN
Ts
Tmax
A IN
Nm TN
TN
6.6 M3HP 160 MLA 3GHP 163 410-••G 973 89.4 0.79 14.2 7.1 65 2.1 3.4 15 0.088 160 57
9.7 M3HP 160 MLC 3GHP 163 430-••G 971 90.2 0.78 21.2 7.1 95 2.4 3.7 11 0.127 173 65
13.2 M3HP 180 MLB 3GHP 183 420-••G 975 91.3 0.80 27.5 7.2 129 1.7 3.0 15 0.221 233 67
16.5 M3HP 200 MLB 3GHP 203 420-••G 984 92.0 0.84 32 6.9 160 3.2 3.3 25 0.47 290 65
20 M3HP 200 MLC 3GHP 203 430-••G 983 92.3 0.84 39 6.9 194 3.0 2.7 16 0.52 305 65
27 M3HP 225 SMC 3GHP 223 230-••G 987 93.1 0.82 53 7.5 261 3.2 3.4 11 0.78 380 64
33 M3HP 250 SMB 3GHP 253 220-••G 989 93.8 0.86 63 7.3 319 2.7 2.9 10 1.6 465 65
1000 r/min = 6 poles 400 V 50 Hz
40 M3HP 280 SMA 3GHP 283 210-••G 987 94.1 0.88 70 6.7 387 1.2 2.7 15 1.85 605 66
46 M3HP 280 SMB 3GHP 283 220-••G 988 94.2 0.88 80 7.0 445 1.3 2.7 11 2.2 645 66
64 M3HP 315 SMA 3GHP 313 210-••G 992 94.8 0.85 114 7.1 616 1.2 2.5 10 3.2 830 72
76 M3HP 315 SMB 3GHP 313 220-••G 992 95.0 0.87 133 7.3 731 1.2 2.3 8 4.1 930 72
92 M3HP 315 SMC 3GHP 313 230-••G 992 95.3 0.85 164 7.2 886 1.3 2.4 15 4.9 1000 72
110 M3HP 315 MLA 3GHP 313 410-••G 992 95.6 0.86 193 7.6 1059 1.3 2.5 7 5.8 1150 72
3.5 M3HP 160 MLA 3GHP 164 410-••G 719 83.0 0.66 9.5 5.1 46 1.8 2.9 23 0.071 146 59
4.8 M3HP 160 MLB 3GHP 164 420-••G 719 85.5 0.70 12.1 5.5 64 1.8 2.9 21 0.09 160 53
6.6 M3HP 160 MLC 3GHP 164 430-••G 721 86.8 0.71 16.2 5.9 87 1.8 3.0 20 0.121 188 55
9.7 M3HP 180 MLB 3GHP 184 420-••G 726 89.8 0.74 22 5.8 127 1.7 2.8 20 0.239 227 63
13.2 M3HP 200 MLB 3GHP 204 420-••G 734 90.7 0.82 27 6.0 172 1.8 3.0 32 0.54 300 64
16.5 M3HP 225 SMB 3GHP 224 220-••G 736 91.4 0.80 34 6.6 214 2.0 3.0 25 0.68 350 65
20 M3HP 225 SMC 3GHP 224 230-••G 736 92.2 0.81 41 6.6 260 2.1 3.3 24 0.75 375 65
27 M3HP 250 SMA 3GHP 254 210-••G 736 92.2 0.82 54 6.3 350 1.9 2.8 16 1.25 420 59
750 r/min = 8 poles 400 V 50 Hz
33 M3HP 280 SMA 3GHP 284 210-••G 740 93.3 0.80 64 6.9 426 1.4 2.8 12 1.85 605 65
40 M3HP 280 SMB 3GHP 284 220-••G 741 93.9 0.80 77 7.0 515 1.5 2.9 15 2.2 645 65
50 M3HP 315 SMA 3GHP 314 210-••G 744 94.5 0.79 97 7.1 642 1.2 2.5 15 3.2 830 62
68 M3HP 315 SMB 3GHP 314 220-••G 744 94.7 0.79 131 7.2 873 1.2 2.4 12 4.1 930 62
80 M3HP 315 SMC 3GHP 314 230-••G 744 95.1 0.80 152 7.7 1027 1.3 2.6 10 4.9 1000 64
95 M3HP 315 MLA 3GHP 314 410-••G 743 95.2 0.81 178 7.1 1221 1.1 2.3 7 5.8 1150 72

4
Rating plates
The rating plate gives one current value for the voltage
area. That is the highest current that can occur within
the voltage area with the given output.
European standards require a special marking on safety
- apparatus group
- temperature class
For increased safety motors, marking shall also include:
- IA
/IN
- tE
M3AAL 90-100
M3HP 80-400
M3AAL 112-132
M3AAL 160-250
M000212M000213
M000214
M000216
r/min
Vaasa,Finland
Prod.code 3GHP092030-ASG
3 Motor M3HP 90SLC 4 B3
V
IEC 60034-1
Nmax
r/minHz kW
0081
Ins.cl. F IP 55
cosA IA/IN
No. 0606-010124428
ABB Oy,Motors
44 kg
t /sE
230 D 50 1,5 1431 5,73 0,81 6,4 18
400 Y 50 1,5 1431 3,31 0,81 6,4 18
Exe II T3
M11011-806 2006
LCIE 06 ATEX 6xxx
6205-2Z/C3 205-2Z/C3
2G
Manual

4
1)
Certain variant codes cannot be used simultaneously. P = New manufacture only.
R = On request.
NA = Not applicable.
Code 1)
/ Variant 90 100 112 132 160 180 200 225 250 280
Balancing
052 Vibration acc. to Grade A (IEC 60034-14). S S S S S S S S S S
417 Vibration acc. to Grade B (IEC 60034-14). P NA P P P P P P P P
424 Full key balancing. P P P P P P P P P P
036 Transport lock for bearings. M M M M M M M M M M
037 Roller bearing at D-end. M M P P M P M M M M
039 Cold resistant grease. M M M M M P P P P P
040 Heat resistant grease. M M M P P P P P P NA
041 Bearings regreasable via grease nipples. M M P P P P P S S S
042 Locked drive-end. S S S S S S S S S S
043 SPM nipples. NA NA NA NA P P P P P P
057 2RS bearings at both ends. M M P P P P P NA NA NA
058 Angular contact bearing at D-end, shaft force away from bearing. P P P P P P P NA NA NA
059 Angular contact bearing at N-end, shaft force towards bearing. P P P P P P P P P P
188 63-series bearings M M M M S S S S S S
796 Grease nipples JIS B 1575 PT 1/8 Type A NA NA M M M M M M M M
142 “Manilla connection” P P P P P P P P P P
178 Stainless steel / acid proof bolts. M M M M P P P P P P
209 Non-standard voltage or frequency, (special winding). P P P P P P P P P P
217 Cast iron D-end shield (on aluminium motor). M M M M M M M M M NA
425 Corrosion protected stator and rotor core. P P P P P P P P NA P
Cooling system
068 Metal fan. M M M M M M M M M M
075 Cooling method IC418 (without fan). P P P P P P P P P NA
183 Separate motor cooling (fan axial, N-end). M M M P P P P P P P
792 Metal fasteners for fan cover NA NA NA NA M M M M M M
Documentation
141 Binding dimension drawing. M M M M M M M M M M
Drain holes
065 Plugged existing drain holes. M M M M M M M M M M
Earthing Bolt
067 External earthing bolt. M M M M M M M M M M
273 Ex e II acc. to ATEX directive 94/9/EC , temp. class T3 P P M P P P P P P P
Heating elements
450 Heating element, 100-120V. M M M M M M M M M P
451 Heating element, 200-240V. M M M M M M M M M P
Insulation system
014 Winding insulation class H. P P P P P P P P P P
405 Special winding insulation for frequency converter supply. P P P P P P P P P P
007 IM 3001 ﬂange mounted, IEC ﬂange, from IM 1001 (B5 from B3). M M M NA NA M M M NA NA
Increased safety aluminum motors - Variant codes

4
1)
R = On request.
Code 1)
/ Variant 90 100 112 132 160 180 200 225 250 280
008 IM 2101 foot/flange mounted, IEC flange, from IM 1001 (B34 from B3). M M M M M NA NA NA NA NA
009 IM 2001 foot/flange mounted, IEC flange, from IM 1001 (B35 from B3). M M M M M M M M M M
047 IM 3601 flange mounted, IEC flange, from IM 3001 (B14 from B5). M M M M M NA NA NA NA NA
048 IM 3001 flange mounted, IEC flange, from IM 3601 (B5 from B14). M M M M M NA NA NA NA NA
066 Modified for non-standard mounting position (please specify
IM xxxx), (must be ordered for all mounting arrangements
exluding IM B3 (1001) and IM B5 (3001).
M M M M M M M M M M
091 (IM 2001) foot/flange mounted, DIN A-flange, from IM 1001
(B35 from B3).
M M NA NA NA NA NA NA NA NA
093 IM 3601 flange mounted, IEC flange, from IM 1001 (B14 from B3). M M M NA NA NA NA NA NA NA
200 Flange ring holder. M M M M M M NA NA NA NA
218 Flange ring FT 85. M NA NA NA NA NA NA NA NA NA
220 Flange ring FF 100. M NA NA NA NA NA NA NA NA NA
226 Flange ring FF 130. M M M NA NA NA NA NA NA NA
227 Flange ring FT 130. M M M NA NA NA NA NA NA NA
229 Flange FT 130. M M M NA NA NA NA NA NA NA
235 Flange FF 165. M M M NA NA NA NA NA NA NA
236 Flange FT 165. NA NA NA M NA NA NA NA NA NA
243 Flange ring FF 215. P M M M NA NA NA NA NA NA
244 Flange ring FT 215. NA M M M NA NA NA NA NA NA
245 Flange FF 215. NA M M NA NA NA NA NA NA NA
253 Flange ring FF 265. NA NA NA M NA NA NA NA NA NA
254 Flange ring FT 265. NA NA NA M NA NA NA NA NA NA
255 Flange FF 265. NA NA NA M M NA NA NA NA NA
260 Flange FT 115. M M NA NA NA NA NA NA NA NA
262 Flange FF 300. NA NA NA NA M M NA NA NA NA
263 Flange FF 350. NA NA NA NA NA NA M NA NA NA
282 Flange FF 400. NA NA NA NA NA NA NA M NA NA
302 Flange FF 500. NA NA NA NA NA NA NA NA M M
306 IM 1001 foot mounted, from IM 3601 (B3 from B14). M M M NA NA NA NA NA NA NA
307 IM 2101 foot/flange mounted, IEC flange, from IM 3601 (B34 from
B14).
M M M NA NA NA NA NA NA NA
B14).
309 IM 1001 foot mounted, from IM 3001 (B3 from B5). M M M NA NA M M M M M
B5).
B5).
M M M NA NA M M M M M
315 IM 2001 foot/flange mounted, IEC flange, from IM 2101
(B35 from B34).

4
1)
R = On request.
Code 1)
/ Variant 90 100 112 132 160 180 200 225 250 280
316 IM 1001 foot mounted, from IM 2001 (B3 from B35). M M M M M M M M M M
317 IM 3601 flange mounted, IEC flange, from IM 2001
(B14 from B35).
318 IM 3001 flange mounted, IEC flange, from IM 2001 (B5 from B35). M M M NA NA M NA M NA NA
(B34 from B35).
Painting
114 Special paint colour, standard grade. M M M M P P P P P P
179 Special paint specification. P P P P P P P P P P
Protection
005 Metal protective roof, vertical motor, shaft down. M M M M M M M M M M
072 Radial seal at D-end. M M M M M M P P P P
158 Degree of protection IP65. M M M P P P P P P P
211 Weather protected, IP xx W P P P P P P P P P P
403 Degree of protection IP56. M M P P P P P P P P
404 Degree of protection IP56, without fan and fan cover P P P P P P NA NA NA NA
784 Gamma-seal at D-end. M M NA NA NA NA NA NA NA NA
002 Restamping voltage, frequency and output, continuous duty. M M M M M M M M M M
003 Individual serial number. M M M M M M M M M M
004 Additional text on std rating plate (max 12 digits on free text line) NA NA M M NA NA NA NA NA NA
095 Restamping output (maintained voltage, frequency), intermittent
duty.
M M M M M M M M M M
098 Stainless rating plate. M M M M M M M M M M
135 Mounting of additional identification plate, stainless. M M M M M M M M M M
138 Mounting of additional identification plate, aluminium. M M M M M M M M M M
139 Additional identification plate delivered loose. M M M M M M M M M M
160 Additional rating plate affixed. M M M M M M P P P P
161 Additional rating plate delivered loose. M M M M M M M M M M
162 Rating plate fixed to stator. M M M M M M NA NA NA NA
198 Aluminium rating plate. S S M M S S S S S S
Shaft & rotor
069 Two shaft extensions as per basic catalogue. P P P P P P P P P P
070 One or two special shaft extensions, standard shaft material. P P P P P P P P P P
165 Shaft extension with open key-way. P P NA NA NA NA NA NA NA NA
410 Stainless steel shaft (standard or non-standard design). P P P P P P P P P P
121 Bimetal detectors, break type (NCC), (3 in series), 130ºC, in stator
winding.
M M M M M M M M M M
winding.
M M M M M M M M M M
winding.
M M P P P P P P P P
125 Bimetal detectors, break type (NCC), (2x3 in series), 150ºC, in
stator winding.
M M P P P M P P P P
127 Bimetal detectors, break type (NCC), (3 in series, 130ºC & 3 in
series, 150ºC), in stator winding.
M M P P P P P P P P
321 Bimetal detectors, closing type (NO), (3 in parallel), 130ºC, in
stator winding.
M M M M M M M M M M

4
1)
R = On request.
Code 1)
/ Variant 90 100 112 132 160 180 200 225 250 280
stator winding.
M M M M M M M M M M
stator winding.
P P P P P P NA NA NA NA
325 Bimetal detectors, closing type (NO), (2x3 in parallel), 150ºC, in
stator winding.
P P P P P P NA NA NA NA
327 Bimetal detectors, closing type (NO), (3 in parallel, 130ºC & 3 in
parallel, 150ºC), in stator winding.
P P P P P P P P P P
435 PTC - thermistors (3 in series), 130ºC, in stator winding. M M M M M M M M M M
436 PTC - thermistors (3 in series), 150ºC, in stator winding. M M M M M M S S S S
437 PTC - thermistors (3 in series), 170ºC, in stator winding. M M M M M M M M P P
439 PTC - thermistors (2x3 in series), 150ºC, in stator winding. M M M P P P P P P P
441 PTC - thermistors (3 in series, 130ºC & 3 in series, 150ºC), in
stator winding.
M M P M P P P P P P
Terminal box
015 Motor supplied in D connection. M M NA NA NA NA NA NA NA NA
016 9 terminals in terminal box P P P P P P NA NA NA NA
017 Motor supplied in Y connection. M M NA NA NA NA NA NA NA M
018 D connection in terminal box (reconnection from Y), single phase
Steinmetz.
019 Larger than standard terminal box NA NA NA NA P P P NA NA NA
021 Terminal box LHS (seen from D-end). P P NA NA NA NA NA P P P
112 Mounting of plug-in contact NA M NA NA NA NA NA NA NA NA
136 Extended cable connection, standard terminal box. M M NA NA NA NA NA NA NA NA
137 Extended cable connection, low terminal box, “Flying leads”. P P P P P P NA NA NA NA
180 Terminal box RHS (seen from D-end). P P P NA NA NA P M P P
230 Standard metal cable glands. M M M M M M M M M M
375 Standard plastic cable gland M M M M M M M M M M
376 Two standard plastic cable glands M M M M NA NA M M M M
418 Separate terminal box for auxiliaries, std. material NA NA NA NA NA P NA P NA NA
731 Two standard metal cable glands. M M M M M M M M M M
Testing
145 Type test report from a catalogue motor, 400V 50Hz. M M M M M M M M M M
146 Type test with report for motor from specific delivery batch. M M M M M M M M M M
147 Type test with report for motor from specific delivery batch, cus-
tomer witnessed.
M M M M M M M M M M
148 Routine test report. M M M M M M M M M M
149 Test according to separate test specification. M M M M M M M M M M
153 Reduced test for classification society. M M M M M M M M M P
221 Type test and multi-point load test with report for motor from spe-
cific delivery batch.
M M M M M M M M M M
222 Torque/speed curve, type test and multi-point load test with report
for motor from specific delivery batch.
M M M M M M M M M M
760 Vibration level test M M M M M M NA NA NA NA
762 Noise level test. M M M M M M NA NA NA NA
704 EMC cable gland. P P P P P P P P P P
Y/D starting
118 Terminals for Y/D start at high speed (two speed windings). P P P P P P P P P P

4
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
Balancing
417 Vibration acc. to Grade B (IEC 60034-14). P P P P P P P P P P P P P P
036 Transport lock for bearings. NA NA NA NA NA P P P P P P P P P
037 Roller bearing at D-end. NA NA NA NA NA P P P P P P P NA NA
040 Heat resistant grease. S S S S S S S S S S S S S S
058 Angular contact bearing at D-end, shaft force away from
bearing.
107 Pt100 2-wire in bearings NA NA NA NA NA P P P P P P P P P
130 Pt100 3-wire in bearings NA NA NA NA NA P P P P P P P P P
194 2Z bearings greased for life at both ends S S S S S P P P P P NA NA NA NA
433 Outlet grease collector NA NA NA NA NA NA NA NA NA NA P P P P
796 Grease nipples JIS B 1575 PT 1/8 Type A NA NA NA NA NA P P P P P P P P P
797 Stainless steel SPM Nipples NA NA NA NA NA P P P P P P P P P
798 Stainless steel grease nipples NA NA NA NA NA P P P P P P P P P
Brakes
412 Built-on brake. NA NA NA NA NA NA NA NA NA NA NA NA NA NA
178 Stainless steel / acid proof bolts. S S S S S P P P P P P P P P
204 Jacking bolts for foot mounted motors NA NA NA NA NA P P P P P P P S S
209 Non-standard voltage or frequency, (special winding). R R R R R P P P P P P P P P
425 Corrosion protected stator and rotor core. S S S S S S S S S S P P P P
mounting.
P P P P P P P P P P R R NA NA
Cooling system
044 Unidirectional fan, clockwise seen from D-end. 2-pole
motors only.
045 Unidirectional fan, counter clockwise seen from D-end.
2-pole motors only.
068 Metal fan. P P P P P P P P P P P P P P
183 Separate motor cooling (fan axial, N-end). NA NA NA NA NA R R R R R R R R R
422 Separate motor cooling (fan top or side, N-end). NA NA NA NA NA NA NA NA NA NA R R R R
791 Stainless steel fan cover NA NA NA NA NA NA NA NA P P P P P P
Coupling
035 Assembly of customer supplied coupling-half. NA NA NA NA NA P P P P P P P P P
Documentation
141 Binding dimension drawing. P P P P P P P P P P P P P P
Drain holes
065 Plugged existing drain holes. NA NA NA NA NA P P P P P P P P P
448 Draining holes with metal plugs. NA NA NA NA NA P P P P P P P P P
Increased safety cast iron motors - Variant codes
1)
R = On request.

4
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
272 Ex e II acc. to ATEX directive 94/9/EC , temp. class T2 NA NA NA NA NA P P P P P P P P P
Heating elements
450 Heating element, 100-120V. P P P P P P P P P P P P P P
451 Heating element, 200-240V. P P P P P P P P P P P P P P
(B34 from B3).
P P P P P NA NA NA NA NA NA NA NA NA
(B35 from B3).
047 IM 3601 flange mounted, IEC flange, from IM 3001 (B14
from B5).
P P P P P NA NA NA NA NA NA NA NA NA
066 Modified for non-standard mounting position (please spec-
ify IM xxxx), (must be ordered for all mounting arrange-
ments exluding IM B3 (1001) and IM B5 (3001).
228 Flange FF 130. P P P P NA NA NA NA NA NA NA NA NA NA
229 Flange FT 130. P P P P NA NA NA NA NA NA NA NA NA NA
235 Flange FF 165. NA NA NA NA P NA NA NA NA NA NA NA NA NA
236 Flange FT 165. NA NA NA NA P NA NA NA NA NA NA NA NA NA
245 Flange FF 215. NA NA P P P NA NA NA NA NA NA NA NA NA
246 Flange FT 215. NA NA P P P NA NA NA NA NA NA NA NA NA
255 Flange FF 265. NA NA NA NA P NA NA NA NA NA NA NA NA NA
256 Flange FT 265. NA NA NA NA P NA NA NA NA NA NA NA NA NA
257 Flange FF 100. P NA NA NA NA NA NA NA NA NA NA NA NA NA
258 Flange FT 100. P NA NA NA NA NA NA NA NA NA NA NA NA NA
259 Flange FF 115. P P NA NA NA NA NA NA NA NA NA NA NA NA
260 Flange FT 115. P P NA NA NA NA NA NA NA NA NA NA NA NA
306 IM 1001 foot mounted, from IM 3601 (B3 from B14). P P P P P NA NA NA NA NA NA NA NA NA
309 IM 1001 foot mounted, from IM 3001 (B3 from B5). P P P P P NA NA NA NA NA NA NA NA NA
Painting
106 Paint thickness = 80 µm. S S S S S S S S S S S S S S
109 Paint thickness = 120 µm. P P P P P P P P P P P P P P
110 Paint thickness = 160 µm. P P P P P P P P P P P P P P
111 Offshore two-pack polyamide cured epoxy paint 160 µm. P P P P P P P P P P P P P P
114 Special paint colour, standard grade. P P P P P P P P P P P P P P
Protection
005 Metal protective roof, vertical motor, shaft down. P P P P P P P P P P P P P P
072 Radial seal at D-end. P P P P P P P P P P P P NA NA
073 Sealed against oil at D-end. P P P P P P P P P P P P P P
158 Degree of protection IP65. P P P P P P P P P P P P P P
211 Weather protected, IP xx W R R R R R R R R R R R R R R
403 Degree of protection IP56. P P P P P P P P P P P P P P
434 Degree of protection IP56, open deck. NA NA NA NA NA P P P P P P P P P
783 Labyrinth sealing at D-end. P P P P P P P P P P P P S S
1)
R = On request.

4
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
duty.
R R R R R P P P P P P P P P
135 Mounting of additional identiﬁcation plate, stainless. P P P P P P P P P P P P P P
139 Additional identiﬁcation plate delivered loose. P P P P P P P P P P P P P P
161 Additional rating plate delivered loose. P P P P P P P P P P P P P P
Shaft & rotor
069 Two shaft extensions as per basic catalogue. R R R R R P P P P P P P P P
material.
164 Shaft extension with closed key-way. S S S S S S S S S S R R R R
165 Shaft extension with open key-way. P P P P P R R R R R S S S S
410 Stainless steel shaft (standard or non-standard design). R R R R R R R R R R P P P P
421 VIK design (Verband der industriellen Energie- und
Kraftwirtschaft e.V.)
773 EEMUA No 132 1988 design R R R R R R R R R R R R R R
Waters).
775 Design according to SHELL DEP 33.66.05.31-Gen. Janu-
ary 1999 design.
435 PTC - thermistors (3 in series), 130ºC, in stator winding. S S S S S S S S S S S S S S
440 PTC - thermistors (3 in series, 110ºC & 3 in series,
130ºC), in stator winding.
445 Pt-100 2-wire in stator winding, 1 per phase P P P P P P P P P P P P P P
446 Pt-100 2-wire in stator winding, 2 per phase NA NA NA NA NA P P P P P P P P P
502 Pt-100 3-wire in stator winding, 1 per phase P P P P P P P P P P P P P P
503 Pt-100 3-wire in stator winding, 2 per phase NA NA NA NA NA P P P P P P P P P
Terminal box
021 Terminal box LHS (seen from D-end). NA NA NA NA NA P P P P P P P P P
137 Extended cable connection, low terminal box, “Flying
leads”.
157 Terminal box degree of protection IP65. P P P P P P P P P P P P P P
180 Terminal box RHS (seen from D-end). NA NA NA NA NA P P P P P P P P P
material
400 4 x 90 degr turnable terminal box S S S S S P P S S S S S S S
418 Separate terminal box for auxiliaries, std. material NA NA NA NA NA P P P P P P P P P
466 Terminal box at N-end. NA NA NA NA NA R R P P P P P P P
468 Cable entry from D-end. P P P P P P P P P P P P P P
469 Cable entry from N-end. P P P P P P P P P P P P P P
567 Separate terminal box material: Cast Iron NA NA NA NA NA P P P P P P P P P
568 Separate terminal box for heating elements, std. material NA NA NA NA NA P P P P P P P P P
569 Separate terminal box for brakes NA NA NA NA NA P P P P P P P P P
1)
R = On request.

4
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
730 Prepared for NPT cable glands P P P P P P P P P P P P P P
732 Standard cable gland, EEx d IIB, armoured cable. P P P P P P P P P P P P P P
733 Standard cable gland, EEx d IIB, non-armoured cable. P P P P P P P P P P P P P P
736 Standard cable gland EEx e acc. to EN-Standards S S S S S S S S S S S S S S
737 Standard cable gland EEx e with clamping device acc.
to EN-Standards
743 Painted flange for cable glands P P P P P P P P P P P P P P
744 Stainless steel flange for cable glands P P P P P P P P P P P P P P
745 Painted steel flange equipped with brass cable glands P P P P P P P P P P P P P P
brass cable glands
Testing
145 Type test report from a catalogue motor, 400V 50Hz. P P P P P P P P P P P P P P
146 Type test with report for motor from specific delivery batch. P P P P P P P P P P P P P P
147 Type test with report for motor from specific delivery batch,
customer witnessed.
148 Routine test report. P P P P P P P P P P P P P P
150 Customer witnessed testing. Specify test procedure with
other codes.
157 Terminal box degree of protection IP65. P P P P P P P P P P P P P P
221 Type test and multi-point load test with report
for motor from specific delivery batch.
P P P P P P P P P P R R R R
760 Vibration level test P P P P P P P P P P P P P P
762 Noise level test. P P P P P P P P P P P P P P
763 Noise spectrum test. P P P P P R R R R R P P P P
Y/D starting
117 Terminals for Y/D start at both speeds
(two speed windings).
118 Terminals for Y/D start at high speed
119 Terminals for Y/D start at low speed
1)
R = On request.

4
IM 3601, IM B14
Motor
size M N P S
90 115 95 140 M8
100 130 100 160 M8
112 130 110 160 M8
132 165 130 200 M10
Foot-mounted motor IM 1001, IM B3 Flange-mounted motor IM 3001, IM B5
Flanges
Sizes 90-200 Sizes 225-250
Increased safety motors, aluminum frame
Dimension drawings
For detailed drawings please check our web-site,
Tolerances:
A, B ± 0,8
ISO m6 > Ø 50mm
F, FA ISO h9
H -0.5
N ISO j6
C, CA ± 0.8
L
C B
B’
E
H
K
A
HD
GA
FD
P N
45°
S
M
M
S
45°
M000267
M000268
M000270
M000269
M000271
M000272
IM 1001, IM B3 AND IM 3001, IM B5 IM 1001, IM B3 IM 3001, IM B5
Motor
size
D
poles
GA
poles
F
poles
E
poles
L max
poles
O A B B’ C HD K H M N P S
2 4-8 2 4-8 2 4-8 2 4-8 2 4-8
90 S 24 24 27 27 8 8 50 50 282 282 30 140 100 – 56 212 10 90 165 130 200 12
90 L 24 24 27 27 8 8 50 50 307 307 30 140 125 – 56 212 10 90 165 130 200 12
100 L 28 28 31 31 8 8 60 60 349 349 35 160 140 – 63 236 12 100 215 180 250 15
112 M 28 28 31 8 8 8 60 60 361 361 35 190 140 – 70 258 12 112 215 180 250 14.5
132 38 41 41 41 10 10 80 80 447 447 50 216 140 178 89 295.5 12 132 265 230 300 14.5
160 M 42 42 45 45 12 12 110 110 602.5 602.5 50 254 210 254 108 370 15 160 300 250 350 19
160 L 42 42 45 45 12 12 110 110 643.5 643.5 50 254 210 254 108 370 15 160 300 250 350 19
180 M 48 51.5 51.5 51.5 14 14 110 110 680 680 50 279 241 279 121 405 15 180 300 250 350 19
180 L 48 51.5 51.5 51.5 14 14 110 110 700.5 700.5 50 279 241 279 121 405 15 180 300 250 350 19
200 ML 55 55 59 59 16 16 110 110 773 773 50 318 267 305 133 496.5 18 200 350 300 400 19
225 SM 55 60 59 64 16 18 110 110 835 865 60 356 286 311 149 542 18 225 400 350 450 19
250 SM 60 65 64 69 18 18 140 140 872 872 60 406 311 349 168 590 22 250 500 450 550 19
280 65 75 69 79.5 18 20 140 140 875 875 60 457 368 419 190 656 24 280 500 450 550 19

4
Increased safety motors, cast iron frame
Dimension drawings
Foot-mounted motor IM 1001, IM B3
Flange-mounted motor IM 3001, IM B5
Sizes 80-200 Sizes 225-400
Protective roof,
variant code 005
Tolerances:
A, B ± 0,8
ISO m6 > Ø 50mm
F, FA ISO h9
H -0.5
N ISO j6
C, CA ± 0.8
GA
FD
M000269
M000198
M000199
M000200
IM 3601, B14 - Available ﬂange alternatives ; see also variant codes.
Flange
size
Variant
code
Flange dimensions Motor size 80-132
P M N S 80 90 100 112 132
FT115 260 140 115 95 M8 P S NA NA NA M = Option
FT130 229 160 130 110 M8 P P S S NA NA = Not possible
FT165 236 200 165 130 M10 NA NA NA NA S
FT215 246 250 215 180 M12 NA NA P P P
FT265 256 300 265 230 M12 NA NA NA NA P
FT100 257 120 100 80 M7 S M NA NA NA
FT115 259 140 115 95 M10 M S NA NA NA
FT130 228 160 130 110 M10 M M S S NA
FT165 235 200 165 130 M12 M M M M S
FT215 245 250 215 180 M14.5 NA NA M M M
FT265 255 300 265 230 M14.5 NA NA NA NA M
IM 1001, IM B3 AND IM 3001, IM B5 IM 1001, IM B3 IM 3001, IM B5 Protective roof
Motor
size
D
poles
GA
poles
F
poles
E
poles
L max
poles
O A B B’ C HD K H M N P S DS LS
poles
2 4-8 2 4-8 2 4-8 2 4-8 2 4-8 2 4-8
80 19 19 21.5 21.5 6 6 40 40 340 340 20 125 100 125 50 235 10 80 165 130 200 12 160 360 360
90 24 24 27 27 8 8 50 50 405 405 20 140 100 125 56 260 10 90 165 130 200 12 180 430 430
100 28 28 31 31 8 8 60 60 440 440 25 160 140 – 63 280 12 100 215 180 250 14.5 195 465 465
112 28 28 31 31 8 8 60 60 440 440 25 190 140 – 70 295 12 112 215 180 250 14.5 195 465 465
132 38 38 41 41 10 10 80 80 540 540 30 216 140 178 89 340 12 132 265 230 300 14.5 260 570 570
160 42 42 45 45 12 12 110 110 711 711 45 254 210 254 108 388 14.5 160 300 250 350 18.5 328 756 756
180 48 48 51.5 51.5 14 14 110 110 706 706 50 279 241 279 121 426 14.5 180 300 250 350 18.5 359 756 756
200 55 55 59 59 16 16 110 110 774 774 70 318 267 305 133 536 18.5 200 350 300 400 18.5 414 844 844
225 55 60 59 64 16 18 110 140 841 871 80 356 286 311 149 583 18.5 225 400 350 450 18.5 462 921 951
250 60 65 64 69 18 18 140 140 875 875 90 406 311 349 168 646 24 250 500 450 550 18.5 506 965 965
280 65 75 69 79.5 18 20 140 140 1088 1088 100 457 368 419 190 759 24 280 500 450 550 18 555 1190 1190
315 SM_ 65 80 69 85 18 22 140 170 1174 1204 115 508 406 457 216 852 30 315 600 550 660 23 624 1290 1320
315 ML_ 65 90 69 95 18 25 140 170 1285 1315 115 508 457 508 216 852 30 315 600 550 660 23 624 1401 1431
355 SM_ 70 100 62.5 90 20 28 140 210 1409 1479 130 610 500 560 254 958 35 355 740 680 800 23 720 1476 1546
355 ML_ 70 100 62.5 90 20 28 140 210 1514 1584 130 610 560 630 254 958 35 355 740 680 800 23 720 1528 1703
355 LK_ 70 100 62.5 90 20 28 140 210 1764 1834 130 610 710 900 254 958 35 355 740 680 800 23 720 1633 1703
400 L_ 80 110 85 126 22 28 170 210 1851 1891 150 710 900 1000 224 1045 35 400 940 880 1000 28 810 1860 1900
400 LK_ 80 100 85 106 22 28 170 210 1851 1891 150 686 710 800 280 1045 35 400 740 680 800 24 810 1860 1900

4
Dimension drawings
Increased safety motors, cast iron frame
Terminal boxes, standard design with 6 terminals
Motor sizes 280 - 315,
Top- and side-mounted
Terminal boxes 210,370
For motor dimensions please see dimension
drawings on earlier pages.
Motor sizes 355 - 400,
Side-mounted
Terminal box 750
Top-mounted
Terminal box 750 + adapter
M000205
M000206
M000205
M000365
M000369
M000368
M000368
Terminal box according to EN: Terminal box according to VIK:
Motor size Terminal box A1 B1 H1 Motor size Terminal box A1 B1 H1
80-132 202 188 66 80-132 202 188 66
160-180 234 234 68 160-180 244 240 128
200-250 352 319 147 200-250 352 319 147
280-400 210 416 306 177 280-400 210 416 306 177
370 451 347 200 370 451 347 200
750 top-mounted 686 413 219 750 top-mounted 686 413 219
750 side-mounted 525 413 219 750 side-mounted 525 413 219

4
Increased safety motor construction
Typical exploded view of cast iron motors, frame size 315
1 Stator frame
2 Endshield, D-end
4 Endshield, N-end
6 Rotor with shaft
7 Key, D-end
8 Terminal box
9 Terminal board
13 Valve disc with labyrinth seal, D-end;
standard in 2-pole motors (V-ring in 4-8 pole)
14 Bearing, D-end
18 Seal, N-end
19 Wave spring
21 Bearing, N-end
24 Fan
25 Fan cover
27 Rating plate
28 Regreasing plate
M000220

4
ABB Oy
Motors
Postal address
P.O. Box 633
FI-65101 Vaasa
FINLAND
Visiting Address
FI-65320 Vaasa
FINLAND
Telephone
+358 10 22 11
Telefax
+358 10 22 47372
Internet
www.abb.fi
e-mail:
@fi.abb.com
0763403-0
Domicile: Helsinki
Motors
P.O. Box 633
standards:
EN 60079-0 (2004), EN 60079-1 (2004), EN 60079-7 (2003), EN 60079-15 (2005), EN 61241-0 (2006), EN
61241-1 (2004/2006).
Signed by
----------------------------------
Jouni Ikäheimo
Date February 16th
, 2007
M000221
M000222
M000209

4
Motor size 90 100 112 132
Stator Material Die-cast aluminum alloy.
Paint color shade Munsell blue 8B 4.5/3.25 / NCS 4822-B05G / RAL 5014.
Paint Powder coating based on polyester resin,
> 30 µm
Two-component polyuretan paint,
> 40 µm
Feet Material Aluminum alloy.
Loose feet, bolted to the stator.
Aluminum alloy.
Feet integrated with the stator.
Bearing end shields Material Diecast aluminum alloy.
Paint One-component polyester resin powder.
> 30 µm
Two-component polyuretan paint,
> 40 µm
Bearings D-end 2-pole 6205-2Z/C3 6306-2Z/C3 6206-2Z/C3 6208-2Z/C3
4-8 pole
N-end 2- pole 6204-2Z/C3 6205-2Z/C3 6205-2Z/C3 6206-2Z/C3
4-8 pole
Axially-locked
bearings
Inner bearing cover D-end
Bearing seal D-end V-ring.
N-end Labyrinth seal.
Lubrication Permanently lubricated bearings.
Grease for bearing temperatures -40 to +160°C.
Terminal box Material Die-cast aluminum alloy.
Surface treatment Similar to stator.
Screws Steel 5G. Galvanised and yellow chromated.
Connections Knock-out openings 4 x (M25+M20) 4 x (M25 + M20)
Terminal box Screw terminal, 6 terminals. Cable lugs, 6 terminals.
Screws M4 M5
Max Cu-area, mm2
6 10
Fan Material Metal.
Fan cover Material Steel sheet.
Impregnation Polyester vanish. Tropicalised.
Insulation class Insulation class F. Temperature rise class B, unless otherwise stated.
Winding protection Optional.
Rotor winding Material Die-cast aluminum.
Balancing method Half key balancing.
Key ways Closed key way
Drain holes Drain holes with closable plastic plugs. Closed on delivery.
External earthing bolt As standard.
Enclosure IP 55
Increased safety motors with aluminum frame in brief, basic design

4
Motor size 160 180 200 225 250 280
Stator Material Die-cast aluminum alloy. Extruded aluminum alloy.
Paint Two component poliuretan paint, > 40 µm
Integrated with the stator.
Cast iron.
Loose feet bolted to the stator.
Bearing end shields Material Flanged bearing end shields
of cast iron, other die-cast
aluminum alloy.
Cast iron.
Paint Two-component poluretan paint, > 40 µm
Bearings D-end 2-pole 6309-2Z/C3 6310-2Z/C3 6312-2Z/C3 6313-2Z/C3 6315-2Z/C3 6315-2Z/C3
4-8 pole 6316-2Z/C3
N-end 2-pole 6209-2Z/C3 6209-2Z/C3 6210-2Z/C3 6212-2Z/C3 6213-2Z/C3 6213-2Z/C3
4-8 pole 6213-2Z/C3
Axially-locked
bearings
Bearing seal D-end V-ring. Outer and inner V-rings.
N-end Labyrinth seal. Outer and inner V-rings.
Lubrication Permanently lubricated
bearings. Grease for bear.
temp. -40 to +160°C.
Valve lubrication.
Base integrated with stator.
Deep-drawn steel sheet, bolted to stator.
Surface treatment Similar to stator. Phospated. Polyester paint.
Screws Steel 5 G. Galvanised and chromated.
Connections Knock-out openings 2 x (2 x M40 + M16)
Terminal box Cable lugs, 6 terminals.
Screws M6 M10
Max Cu-area, mm2
35 70
Flange-openings 2 x FL 13.2 x M40 2 x FL21.2 x
M63
Flange-openings for
voltage code S
2 x FL 21.2 x M63
Fan Material Metal.
Fan cover Material Steel sheet. Phosphated. Polyester paint.
Winding protection Optional. PTC thermistors, 150°C
Heating elements On request 25 W 50 W
Enclosure IP55.
Cooling method IC 411.
Increased safety motors with aluminum frame in brief, basic design

4
Increased safety motors with cast iron frame in brief, basic design
Motor size 80 90 100 112 132 160 180
Paint color shade Blue, Munsell 8B 4.5/3.25 / NCS 4822 B05G / RAL 5014
Paint Two-pack epoxy paint, thickness ≥ 80 µm
Bearing end
shields
Material Cast iron EN-GJL-250 Cast iron EN-GJL-200
Paint color shade Blue, Munsell 8B 4.5/3.25 / NCS 4822 B05G / RAL 5014
Bearings D-end 2-pole 6204-2Z/C3 6205-2Z/C3 6206-2Z/C3 6206-2Z/C3 6208-2Z/C3 6309/C3 6310/C3
4-12 -pole 6309/C3 6310/C3
N-end 2-pole 6204-2Z/C3 6205-2Z/C3 6206-2Z/C3 6206-2Z/C3 6208-2Z/C3 6309/C3 6309/C3
4-12 -pole 6309/C3 6309/C3
Axially-locked
bearings
Inner bearing cover As standard, locked at D-end
Bearing seal Gamma ring as standard, radial seal optional
Lubrication Permanent grease lubrication. Regreasable bearings
as standard, lifetime
lubrication as option
Cover material Cast iron EN-GJL-250 Cast iron EN-GJL-200
Cover screws
material
Acidproof steel (INOX) Steel 5G, coated with
zinc and yellow
cromated
Fan Material Reinforced glass ﬁber laminate Zinc coated steel
Fan cover Material Steel
Paint color shade Blue, Munsell 8B 4.5/3.25 / NCS 4822 B05G
Paint Polyester powder paint, thickness ≥ 80 µm
Winding protection 3 pcs thermistors
Key ways Closed key-way
Drain holes Not included As standard open on delivery
External earthing
bolt
As standard

4
Motor size 200 225 250 280 315 355 400
Stator Material Cast iron EN-GJL-200 Cast iron EN-GJL-200
Bearing end shields Material Cast iron EN-GJL-200 Cast iron EN-GJL-200, except flange-mounted sizes
355-400 Spheroidal graphit EN-GJS-400
Bearings D-end 2-pole 6312/C3 6313/C3 6315/C3 6316/C3 6316/C3 6316M/C3 6317M/C3
4-12 -pole 6312/C3 6313/C3 6315/C3 6316/C3 6319/C3 6322/C3 6324/C3
N-end 2-pole 6310/C3 6312/C3 6313/C3 6316/C3 6316/C3 6316M/C3 6317M/C3
4-12 -pole 6310/C3 6312/C3 6313/C3 6316/C3 6316/C3 6316/C3 6319/C3
Axially-locked
bearings
Bearing seal Gamma ring as standard, radial seal
optional
V-ring as standard, radial seal optional
lifetime lubrication as option
Terminal box Frame material Cast iron EN-GJL-200
Cover material Cast iron EN-GJL-200
Cover screws ma-
terial
Steel 5G, coated with zinc and yellow chromated
2xØ60
2xØ60/80
2xØ60/80
2xØ80
Fan Material Reinforced glass fiber laminate or
aluminum
Reinforced glass fiber, aluminum or polypropylene
with metal hub
Paint Two-pack epoxy polyester paint, thickness ≥ 80 µm
Rotor winding Material Pressure die-cast aluminum Pressure die-cast aluminum or copper
Heating elements On request 50 W 2 x 50 W 2 x 65 W
Key ways Closed key way Open key way
Drain holes As standard, open on delivery
External earthing
bolt
As standard
Increased safety motors with cast iron frame in brief, basic design

4

Process performance
Non-sparking motors Ex nA
low voltage motors,
Sizes 71 - 450, 0.25 to 1000 kW
Mechanical design.............................98
Ordering information.........................93
Technical data....................................94
Rating plates......................................98
Variant codes .....................................99
Dimension drawings .......................104
Non-sparking motors in brief .........108
ABB / Cat. BU / Ex-motors / Non-sparking EN 01-2008 97
5
> Motors

98 ABB / Cat. BU / Ex-motors / Non-sparking EN 01-2008
5
Mechanical design
Motors are delivered with cable glands according to the
tables.
Terminal boxes
motor versions. The terminal box can also be placed on
either side of the motor besides on cast iron 160 to 250
motors. The terminal box is either rotatable or at least
allows cable entry from either side which gives a choice
of connection possibilities.
Cast iron motors
4x90°.
assumed to be p.v.c. -insulated and termination parts
are supplied according to the following tables.
Cast iron motors sizes 160-250 are as standard ﬁtted
with metric threads.
plug
Single core
cross-
section1)
mm²
Terminal
bolt size
6 x
Outer cable
shealth
mm
Thread Cable gland Outer
cable
shealth
mm
80-90 1xM25 (1x)M25x1.5 - 10 M5 10-16 1xM20x1.5 1xM20x1.5 8-14
100-132 2xM32 (2x)M32x1.5 - 10 M5 16-21 1xM20x1.5 1xM20x1.5 8-14
160-180 2xM40 (2x)M40x1.5 - 35 M6 18-27 2xM20x1.5 2xM20x1.5 8-14
200-250 2xM50 (2x)M50x1.5 - 70 M10 26-35 2xM20x1.5 2xM20x1.5 8-14
1)

5
Motor sizes 280 to 450 – Co-ordination of terminal boxes and cable entries
Voltage/ Ter- Top-mounted Side-mounted Max. conn-
Motor freq. minal Flange or Flange or Cable box Gland Cable ection cable
size code box adapter adapter or cable gland thread diameter area mm2
450 LA D 1200 see option 1)
- see option 1)
see option 1)
6x240
E 750 3GZF294730-944 - 3GZF294730-501 2x Ø60-80 4x240
450 LB D, E 1200 see option 1)
- see option 1)
see option 1)
6x240
450 LC E, U 1200 see option 1)
- see option 1)
see option 1)
6x240
450 LA D 1200 see option 1)
- see option 1)
see option 1)
6x240
E 750 3GZF294730-944 - 3GZF294730-501 2x Ø60-80 4x240
450 LB D, E 1200 see option 1)
- see option 1)
see option 1)
6x240
450 LC D, E 1200 see option 1)
- see option 1)
see option 1)
6x240
355 ML 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
450 LA D, E 750 3GZF294730-944 - 3GZF294730-501 2x Ø60-80 4x240
450 LB D 1200 see option 1)
- see option 1)
see option 1)
6x240
E 750 3GZF294730-944 - 3GZF294730-501 2x Ø60-80 4x240
450 LC D 1200 see option 1)
- see option 1)
see option 1)
6x240
E 750 3GZF294730-944 - 3GZF294730-501 2x Ø60-80 4x240
750 r/min (8 poles)
355 LK 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
LKA, LKB
400 LC, LKC 750 3GZF294730-944 3GZF294730-759 3GZF294730-501 2x Ø60-80 4x240
450 L_ D, E 750 3GZF294730-944 - 3GZF294730-501 2x Ø60-80 4x240
D = 380-420 VD 50 Hz, 660/690 VY 50 Hz, 440-480 VD 60 Hz
E = 500 VD 50 Hz, 575 VD 60 Hz
1)
Options - Variant code 444:
Terminal
box
Adapter Cable box
or ﬂange
Max. connection
cable area mm2
1200 3GZF294730-944 3GZF294730-301 2x Ø48-60
3GZF294730-944 3GZF294730-501 2x Ø60-80
3GZF294730-945 2x 3GZF294730-301 4x Ø48-60
3GZF294730-945 2x 3GZF294730-501 4x Ø60-80
3GZF293745-1 3x 3GZF294730-301 6x Ø48-60
3GZF293745-1 3x 3GZF294730-501 6x Ø60-80
3GZF293745-2 Flange for gable glands
Terminal Cable Max. rated current Earthing
box cross-section D-connection Y-connection
210 25 mm2
260 150 2xM10
210 35 mm2
363 210 2xM10
370 50 mm2
470 270 2xM10
370 70 mm2
640 370 2xM10
750 2 x 70 mm2
950 550 2xM10
750 2 x 95 mm2
1300 750 2xM10
1200 2 x 120 mm2
1650 950 4xM12
1200 2 x 150 mm2
2100 1200 4xM12
Cable cross-section area between the winding and the terminal board.
Earthing bolt size on stator frame M10.
Adapter and cable box for terminal box size 1200.
To be deﬁned when ordering

5
M3GP 280 - 315 M3GP 355 - 400
Flange
3GZF294730-749 (M3GP 280)
3GZF294730-753 (M3GP 315)
3GZF294730-942
3GZF293745-1
3GZF294730-945
Cable box
3GZF294730-301
Cable box
3GZF294730-501
Adapter E-D
3GZF294730-759
Inlet c e f g d
C 62 193 62 193 M8
D 100 300 80 292 M10
E 115 370 100 360 M12
Cable gland
3GZF294730-613
M3GP 355 - 450
M3GP 450 with terminal box 1200
3GZF294730-944
Adapter E-2E (optional)
3GZF293745-2
Cable box
3GZF294730-302
M000191
M000193
M000192
M000197
M000210
M000211
M000088
M000217

5
Sample order
Positions 1 to 4
3GBA/3GGP = Totally enclosed fan cooled squirrel cage motor
with cast iron frame, non-sparking
Positions 5 and 6
IEC-frame
07 = 71 13 = 132 25 = 250
08 = 80 16 = 160 28 = 280
09 = 90 18 = 180 31 = 315
10 = 100 20 = 200 35 = 355
11 = 112 22 = 225 40 = 400
Position 7 45 = 450
Speed (Pole pairs)
1 = 2 poles
2 = 4 poles
3 = 6 poles
4 = 8 poles
5 = 10 poles
Position 8 to 10
Serial number
Position 11
- (dash)
Motor size
A B C D, E, F, G
M3GP 160 MLA 3GGP 161 410- A D G 003 etc.
1 2 3 4 5 6 7 8 91011 12 13 14
A Motor type
B Motor size
C Product code
F Generation code
G Variant codes
Position 12
from D-end
Position 13
See table below
Position 14
Generation code
A, B, C...
Code letters for supplementing the product code
71-132 220-240 V∆ 440-480 VY 380-420 V∆ 440-480V∆ 415 V∆ 500 V∆ 575 V∆ 500 VY 660 V∆ 690 V∆ Other rated
380-420 VY - 660-690 VY - - - - - - - voltage,
160-450 220, 230 V∆ - 380, 400, 415 V∆ 440V∆ 415 V∆ 500 V∆ - 500 VY 660 V∆ 690 V∆ connection or
380,400,415VY 440VY 660, 690 VY - - - - - - - frequency
690 V maximum
Motor type M3GP 160 MLA
Pole number 2
Rated output 11 kW
Product code 3GBP161410-ADG

5
frequencies and temperatures on request.
Process performance Non-sparking motors Ex nA
three phase cast iron motors
IP 55. IC 411; Insulation class F. temperature rise class B
Output
kW
r/min
factor
cos ϕ
of inertia
J = 1/4
GD2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
50Hz 60 Hz
0.75 0.9 M3GP 80 MA 3GGP 081 310-••G 2861 78.2 76.7 0.86 1.62 7.3 2.5 3.7 3.8 0.0006 28 59
1.1 1.3 M3GP 80 MB 3GGP 081 320-••G 2831 82.0 82.0 0.89 2.21 5.7 3.7 3.0 3.2 0.0007 30 59
1.5 1.7 M3GP 90 SLA 3GGP 091 010-••G 2881 82.7 82.6 0.88 3 6.7 5 3.0 3.5 0.001 41 61
2.2 2.5 M3GP 90 SLC 3GGP 091 030-••G 2871 85.3 85.8 0.90 4.19 7.5 7.3 2.7 3.5 0.0014 44 61
3 3.5 M3GP 100 LA 3GGP 101 510-••G 2896 87.4 87.7 0.90 5.6 7.2 10 2.2 3.0 0.0036 58 65
4 4.6 M3GP 112 MB 3GGP 111 320-••G 2901 87.7 87.8 0.90 7.5 7.2 13 3.6 3.7 0.0043 61 65
5.5 6.3 M3GP 132 SMB 3GGP 131 220-••G 2905 87.6 87.5 0.90 10.4 7.0 18 2.4 3.3 0.009 89 71
7.5 8.6 M3GP 132 SMD 3GGP 131 240-••G 2914 89.0 89.2 0.90 13.8 7.6 25 2.8 3.6 0.012 97 71
11 12.7 M3GP 160 MLA 3GGP 161 410-••G 2936 91.5 91.4 0.87 20 7.2 36 2.9 3.3 0.039 147 71
15 17 M3GP 160 MLB 3GGP 161 420-••G 2934 91.9 91.8 0.88 28 7.5 49 3.1 3.5 0.047 156 71
18.5 21 M3GP 160 MLC 3GGP 161 430-••G 2934 92.6 92.7 0.90 33 7.5 60 2.8 3.4 0.054 167 71
22 25 M3GP 180 MLA 3GGP 181 410-••G 2938 92.8 92.9 0.90 39 6.9 72 2.5 3.1 0.077 194 71
30 35 M3GP 200 MLA 3GGP 201 410-••G 2946 94.2 94.3 0.88 54 7.4 97 3.0 3.2 0.15 275 74
37 43 M3GP 200 MLC 3GGP 201 430-••G 2948 94.3 94.2 0.89 65 7.5 120 2.8 3.2 0.19 305 75
45 52 M3GP 225 SMB 3GGP 221 220-••G 2968 94.8 94.7 0.87 79 7.2 145 2.7 3.0 0.26 365 76
55 63 M3GP 250 SMA 3GGP 251 210-••G 2970 94.7 94.5 0.88 96 7.7 177 2.4 3.1 0.49 425 75
75 90 M3GP 280 SMA 3GGP 281 210-••G 2978 94.8 94.3 0.88 131 7.6 240 2.1 3.0 0.8 625 77
90 105 M3GP 280 SMB 3GGP 281 220-••G 2976 95.1 94.8 0.90 152 7.4 289 2.1 2.9 0.9 665 77
110 125 M3GP 315 SMA 3GGP 311 210-••G 2982 95.1 94.4 0.86 194 7.6 352 2.0 3.0 1.2 880 78
132 155 M3GP 315 SMB 3GGP 311 220-••G 2982 95.5 95.0 0.88 228 7.4 423 2.2 3.0 1.4 940 78
160 185 M3GP 315 SMC 3GGP 311 230-••G 2981 96.1 95.6 0.89 269 7.5 513 2.3 3.0 1.7 1025 78
200 230 M3GP 315 MLA 3GGP 311 410-••G 2980 96.3 95.9 0.90 336 7.7 641 2.6 3.0 2.1 1190 78
250 290 2)
M3GP 355 SMA 3GGP 351 210-••G 2984 96.4 95.9 0.89 425 7.7 800 2.1 3.3 3 1600 83
315 362 2)
M3GP 355 SMB 3GGP 351 220-••G 2980 96.6 96.3 0.89 535 7.0 1009 2.1 3.0 3.4 1680 83
355 410 2)
M3GP 355 SMC 3GGP 351 230-••G 2984 96.8 96.5 0.88 604 7.2 1136 2.2 3.0 3.6 1750 83
400 450 2)
M3GP 355 MLA 3GGP 351 410-••G 2982 96.9 96.7 0.88 680 7.1 1281 2.3 2.9 4.1 2000 83
450 510 2)
M3GP 355 MLB 3GGP 351 420-••G 2983 97.1 97.0 0.90 750 7.9 1441 2.2 2.9 4.3 2080 83
500 2)
M3GP 355 LKA 3GGP 351 810-••G 2982 97.1 97.0 0.90 830 7.5 1601 2.1 3.5 4.8 2320 83
560 630 3)
M3GP 400 LA 3GGP 401 510-••G 2988 97.2 97.0 0.89 940 7.8 1790 2.1 3.4 7.9 2950 82
560 630 3)
M3GP 400 LKA 3GGP 401 810-••G 2988 97.2 97.0 0.89 940 7.8 1790 2.1 3.4 7.9 2950 82
560 2)
M3GP 355 LKB 3GGP 351 820-••G 2982 97.2 97.1 0.90 930 8.0 1793 2.3 3.6 5.2 2460 83
630 710 3)
M3GP 400 LKB 3GGP 401 820-••G 2987 97.4 97.3 0.89 1055 7.8 2014 2.2 3.4 8.2 3050 82
630 710 3)
M3GP 400 LB 3GGP 401 520-••G 2987 97.4 97.3 0.89 1055 7.8 2014 2.2 3.4 8.2 3050 82
710 780 3)
M3GP 400 LKC 3GGP 401 830-••G 2987 97.5 97.4 0.89 1185 7.8 2270 2.6 3.4 9.3 3300 82
710 780 3)
M3GP 400 LC 3GGP 401 530-••G 2987 97.5 97.4 0.89 1185 7.8 2270 2.6 3.4 9.3 3300 82
800 900 3)
M3GP 450 LA 3GGP 451 510-••G 2990 97.3 97.2 0.88 1345 7.8 2555 1.3 3.2 12.5 4000 85
900 1000 3)
M3GP 450 LB 3GGP 451 520-••G 2990 97.4 97.3 0.88 1515 7.8 2874 1.5 3.1 14 4200 85
1000 1)3)6)
M3GP 450 LC 3GGP 451 530-••G 2990 97.6 97.5 0.89 965 7.8 3194 1.6 3.2 15.5 4400 85
9.2 10.6 M3GP 132 SME 3GGP 131 250-••G 2875 86.2 86.6 0.91 17.1 6.1 30.6 2.2 2.9 0.012 97 77
22 25 M3GP 160 MLD 3GGP 161 440-••G 2929 91.7 91.6 0.90 39 7.4 72 2.8 3.4 0.059 173 77
30 34 M3GP 180 MLB 3GGP 181 420-••G 2944 93.0 92.9 0.88 54 7.5 97 2.8 3.5 0.092 210 78
37 43 4)
M3GP 180 MLC 3GGP 181 430-••G 2947 93.9 93.9 0.89 65 7.9 120 2.9 3.6 0.114 229 78
45 50 5)
M3GP 200 MLE 3GGP 201 450-••G 2944 93.9 94.0 0.88 79 7.3 146 2.9 3.1 0.22 310 79
55 63 M3GP 225 SMC 3GGP 221 230-••G 2965 94.5 94.2 0.88 96 7.1 177 2.6 3.0 0.29 385 80
67 73 4)5)
M3GP 225 SMD 3GGP 221 240-••G 2966 94.6 94.1 0.86 120 7.4 216 2.8 3.2 0.31 395 78
75 84 M3GP 250 SMB 3GGP 251 220-••G 2969 95.2 95.1 0.89 129 7.9 241 2.6 3.2 0.57 465 80
90 96 1)4)5)
M3GP 250 SMC 3GGP 251 230-••G 2965 95.0 94.9 0.90 153 7.7 290 2.6 3.1 0.59 475 80
110 125 M3GP 280 SMC 3GGP 281 230-••G 2978 95.7 95.3 0.90 185 7.9 353 2.4 3.0 1.15 725 77

5
1)
2)
-3dB(A) sound pressure level reduction with unidirectional fan construction.
Direction of rotation must be stated when ordering. see variant codes 044
and 045.
3)
Unidirectional fan construction as standard. Direction of rotation must be
stated when ordering. see variant codes 044 and 045
4)
The output exceeds one step higher output than the basic with rated output
acc. to CENELEC
5)
For 400-415 V 50 Hz ( 380 V 50 Hz voltage code B )
6)
Current at 690 VD 50 Hz (voltage code U), lowest possible voltage 500 VD
50 Hz (voltage code E)
Output
kW
r/min
factor
cos ϕ
of inertia
J = 1/4
GD2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
50Hz 60 Hz
0.55 0.66 M3GP 80 MA 3GGP 082 310-••G 1421 77.2 76.4 0.76 1.4 4.9 3.7 2.3 2.7 0.001 29 59
0.75 0.9 M3GP 80 MB 3GGP 082 320-••G 1413 78.3 78.4 0.79 1.8 5.1 5.1 2.4 2.7 0.0012 29 59
1.1 1.3 M3GP 90 SLA 3GGP 092 010-••G 1435 80.8 80.3 0.81 2.48 5.9 7.3 2.8 3.5 0.002 42 54
1.5 1.7 M3GP 90 SLC 3GGP 092 030-••G 1431 81.8 81.8 0.81 3.31 6.4 10 2.9 3.4 0.003 44 54
2.2 2.5 M3GP 100 LA 3GGP 102 510-••G 1441 86.4 87.0 0.86 4.4 7.0 14.5 2.7 3.3 0.0075 58 52
3 3.5 M3GP 100 LB 3GGP 102 520-••G 1442 86.2 86.7 0.83 6.1 7.0 20 2.7 3.4 0.0081 60 52
4 4.6 M3GP 112 MC 3GGP 112 330-••G 1436 85.7 86.0 0.81 8.4 6.9 27 2.9 3.7 0.0093 63 52
5.5 6.3 M3GP 132 SMB 3GGP 132 220-••G 1448 87.6 87.9 0.81 11.4 6.7 36 3.1 3.3 0.02 93 60
7.5 8.6 M3GP 132 SMD 3GGP 132 240-••G 1447 88.4 88.7 0.81 15.4 6.6 50 3.1 3.4 0.023 99 60
11 12.7 M3GP 160 MLC 3GGP 162 430-••G 1470 91.6 91.6 0.82 22.5 7.7 71 3.1 3.6 0.09 166 62
15 17 M3GP 160 MLE 3GGP 162 450-••G 1467 92.3 92.3 0.83 30 7.6 98 3.1 3.6 0.121 189 62
18.5 21 M3GP 180 MLA 3GGP 182 410-••G 1474 92.7 92.8 0.82 36 7.3 120 2.7 3.2 0.176 206 62
22 25 M3GP 180 MLB 3GGP 182 420-••G 1471 92.8 92.9 0.82 42 7.1 143 2.6 3.0 0.191 214 62
30 35 M3GP 200 MLB 3GGP 202 420-••G 1475 93.7 93.8 0.84 56 7.4 194 3.3 3.0 0.34 305 61
37 43 M3GP 225 SMB 3GGP 222 220-••G 1480 93.8 93.6 0.84 69 7.7 239 3.2 2.9 0.42 355 67
45 52 M3GP 225 SMC 3GGP 222 230-••G 1477 94.6 94.6 0.86 81 7.4 291 3.2 2.7 0.49 390 67
55 63 M3GP 250 SMA 3GGP 252 210-••G 1479 94.7 94.8 0.83 101 7.2 355 2.5 3.1 0.72 415 66
75 88 M3GP 280 SMA 3GGP 282 210-••G 1484 94.9 94.8 0.85 135 6.9 483 2.5 2.8 1.25 625 68
90 105 M3GP 280 SMB 3GGP 282 220-••G 1483 95.3 95.3 0.86 159 7.2 580 2.5 2.7 1.5 665 68
110 125 M3GP 315 SMA 3GGP 312 210-••G 1487 95.6 95.4 0.86 193 7.2 706 2.0 2.5 2.3 900 70
132 150 M3GP 315 SMB 3GGP 312 220-••G 1487 95.8 95.7 0.86 232 7.1 848 2.3 2.7 2.6 960 70
160 185 M3GP 315 SMC 3GGP 312 230-••G 1487 96.0 95.9 0.85 287 7.2 1028 2.4 2.9 2.9 1000 70
200 230 M3GP 315 MLA 3GGP 312 410-••G 1486 96.2 96.2 0.86 351 7.2 1285 2.5 2.9 3.5 1160 74
250 288 M3GP 355 SMA 3GGP 352 210-••G 1488 96.5 96.4 0.86 438 7.1 1604 2.3 2.7 5.9 1610 74
315 362 M3GP 355 SMB 3GGP 352 220-••G 1488 96.7 96.6 0.86 550 7.3 2022 2.3 2.8 6.9 1780 74
350 385 5)
M3GP 355 SMC 3GGP 352 230-••G 1487 96.7 96.5 0.86 610 6.9 2248 2.4 2.7 7.2 1820 78
400 450 5)
M3GP 355 MLA 3GGP 352 410-••G 1489 96.9 96.7 0.85 700 6.8 2565 2.3 2.6 8.4 2140 78
450 490 5)
M3GP 355 MLB 3GGP 352 420-••G 1490 96.9 96.7 0.86 784 6.9 2884 2.3 2.9 8.4 2140 78
500 575 M3GP 355 LKA 3GGP 352 810-••G 1490 97.0 96.9 0.86 875 6.8 3204 2.0 3.0 10 2500 78
560 630 5)
M3GP 400 LA 3GGP 402 510-••G 1491 97.1 97.0 0.85 980 7.4 3587 2.4 3.0 15 3200 78
560 630 5)
M3GP 400 LKA 3GGP 402 810-••G 1491 97.1 97.0 0.85 980 7.4 3587 2.4 3.0 15 3200 78
630 710 5)
M3GP 400 LKB 3GGP 402 820-••G 1491 97.1 97.0 0.87 1085 7.6 4035 2.2 3.1 16 3300 78
630 710 5)
M3GP 400 LB 3GGP 402 520-••G 1491 97.1 97.0 0.87 1085 7.6 4035 2.2 3.1 16 3300 78
680 740 5)
M3GP 400 LKC 3GGP 402 830-••G 1492 97.2 97.1 0.85 1190 7.9 4352 2.5 3.3 17 3400 78
680 740 5)
M3GP 400 LC 3GGP 402 530-••G 1492 97.2 97.1 0.85 1190 7.9 4352 2.5 3.3 17 3400 78
800 900 M3GP 450 LA 3GGP 452 510-••G 1492 97.0 96.9 0.86 1385 7.0 5120 1.3 2.8 23 4050 85
900 1000 M3GP 450 LB 3GGP 452 520-••G 1492 97.1 97.0 0.86 1555 7.0 5760 1.3 2.8 25 4350 85
1000 1100 1)
M3GP 450 LC 3GGP 452 530-••G 1491 97.2 97.1 0.86 1725 6.8 6405 1.3 2.7 30 4700 85
9.2 10.6 1)
M3GP 132 SME 3GGP 132 250-••G 1422 86.4 87.8 0.84 18.5 5.5 62 2.5 2.7 0.023 99 60
18.5 21 M3GP 160 MLF 3GGP 162 460-••G 1469 92.5 92.8 0.83 36.5 8.0 120 3.2 3.6 0.121 189 68
22 25 4)
M3GP 160 MLG 3GGP 162 470-••G 1466 92.1 92.2 0.81 44.5 8.2 143 3.3 3.6 0.121 189 68
30 34 1)
M3GP 180 MLC 3GGP 182 430-••G 1473 92.5 92.5 0.81 59 7.8 194 3.1 3.4 0.239 233 66
37 43 M3GP 200 MLC 3GGP 202 430-••G 1475 93.5 93.5 0.82 70 7.5 239 3.5 3.2 0.34 305 73
55 61 5)
M3GP 225 SMD 3GGP 222 240-••G 1476 94.2 94.1 0.85 100 7.6 356 3.4 2.8 0.49 390 74
60 67 4)5)
M3GP 225 SME 3GGP 222 250-••G 1479 94.2 94.0 0.84 110 8.0 387 3.6 3.0 0.55 410 74
75 82 5)
M3GP 250 SMB 3GGP 252 220-••G 1476 94.8 95.0 0.86 133 7.6 485 2.8 3.2 0.88 470 73
86 98 4)5)
M3GP 250 SMC 3GGP 252 230-••G 1477 95.0 95.1 0.85 155 7.8 556 2.9 3.5 0.98 495 74
110 125 M3GP 280 SMC 3GGP 282 230-••G 1485 95.7 95.7 0.86 195 7.6 707 3.0 3.0 1.85 725 68

5
1)
2)
3)
Nominal power lower than CENELEC + 1.
Output
kW
r/min
factor
cos ϕ
of inertia
J = 1/4
GD2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
50Hz 60 Hz
0.37 0.44 M3GP 80 MA 3GGP 083 310-••G 953 67.2 66.3 0.62 1.32 4.8 3.7 3.4 3.6 0.0022 29 50
0.55 0.66 M3GP 80 MB 3GGP 083 320-••G 938 67.9 66.4 0.68 1.79 4.3 5.6 2.8 2.9 0.0022 29 50
0.75 0.9 M3GP 90 SLA 3GGP 093 010-••G 942 74.0 73.1 0.69 2.17 4.5 7.6 2.8 3.2 0.0036 41 44
1.1 1.3 M3GP 90 SLC 3GGP 093 030-••G 940 75.6 74.5 0.67 3.25 4.6 11 3.1 3.4 0.0037 43 44
1.5 1.7 M3GP 100 LA 3GGP 103 510-••G 951 81.2 80.9 0.74 3.7 4.2 15 2.3 2.9 0.012 57 54
2.2 2.5 M3GP 112 MB 3GGP 113 320-••G 950 81.8 82.0 0.76 5.2 5.9 22 2.2 2.8 0.014 60 54
3 3.5 M3GP 132 SMB 3GGP 133 220-••G 961 83.2 82.2 0.77 6.9 6.1 30 2.1 3.0 0.032 93 57
4 4.6 M3GP 132 SMC 3GGP 133 230-••G 967 85.6 85.3 0.74 9.3 6.6 39.5 2.3 3.4 0.034 95 57
5.5 6.3 M3GP 132 SMD 3GGP 133 240-••G 958 85.5 85.6 0.76 12.5 6.7 55 2.2 3.0 0.036 97 57
7.5 8.6 M3GP 160 MLA 3GGP 163 410-••G 965 89.0 89.7 0.81 15.5 6.5 74 1.9 3.0 0.088 160 57
11 12.5 M3GP 160 MLB 3GGP 163 420-••G 965 89.6 90.3 0.80 23 7.1 109 2.1 3.3 0.106 173 65
15 17 M3GP 180 MLB 3GGP 183 420-••G 972 91.4 91.6 0.81 31 7.0 147 1.9 3.3 0.221 233 58
18.5 21 M3GP 200 MLA 3GGP 203 410-••G 983 91.6 91.7 0.81 37 7.1 180 3.2 3.1 0.37 265 66
22 25 M3GP 200 MLB 3GGP 203 420-••G 983 91.9 91.9 0.81 43 7.5 214 3.2 3.2 0.43 285 61
30 35 M3GP 225 SMB 3GGP 223 220-••G 985 93.0 93.0 0.81 58 7.4 291 3.4 3.0 0.64 350 61
37 43 M3GP 250 SMA 3GGP 253 210-••G 987 93.6 93.6 0.81 71 7.2 358 3.2 2.9 1.16 420 66
45 55 M3GP 280 SMA 3GGP 283 210-••G 990 94.4 94.3 0.84 82 7.0 434 2.5 2.5 1.85 605 66
55 63 M3GP 280 SMB 3GGP 283 220-••G 990 94.6 94.6 0.84 101 7.0 531 2.7 2.6 2.2 645 66
75 86 M3GP 315 SMA 3GGP 313 210-••G 992 95.0 94.7 0.82 141 7.4 722 2.4 2.8 3.2 830 70
90 105 M3GP 315 SMB 3GGP 313 220-••G 992 95.5 95.3 0.84 163 7.5 866 2.4 2.8 4.1 930 70
110 125 M3GP 315 SMC 3GGP 313 230-••G 991 95.6 95.5 0.83 202 7.4 1060 2.5 2.9 4.9 1000 70
132 150 M3GP 315 MLA 3GGP 313 410-••G 991 95.8 95.7 0.83 240 7.5 1272 2.7 3.0 5.8 1150 68
160 195 M3GP 355 SMA 3GGP 353 210-••G 993 96.0 95.8 0.83 293 7.0 1539 2.0 2.6 7.9 1520 75
200 230 M3GP 355 SMB 3GGP 353 220-••G 993 96.2 96.1 0.84 357 7.2 1923 2.2 2.7 9.7 1680 75
250 300 M3GP 355 SMC 3GGP 353 230-••G 993 96.5 96.3 0.83 450 7.4 2404 2.6 2.9 11.3 1820 75
315 360 M3GP 355 MLB 3GGP 353 420-••G 992 96.4 96.3 0.83 570 7.0 3032 2.5 2.7 13.5 2180 75
355 400 M3GP 355 LKA 3GGP 353 810-••G 993 96.5 96.3 0.83 640 6.8 3414 2.3 2.7 15.5 2500 78
400 450 2)
M3GP 400 LA 3GGP 403 510-••G 993 96.7 96.6 0.82 730 7.1 3847 2.3 2.7 17 2900 76
400 450 2)
M3GP 400 LKA 3GGP 403 810-••G 993 96.7 96.6 0.82 730 7.1 3847 2.3 2.7 17 2900 76
450 510 2)
M3GP 400 LB 3GGP 403 520-••G 994 96.9 96.7 0.82 818 7.4 4323 2.4 2.8 20.5 3150 76
450 510 2)
M3GP 400 LKB 3GGP 403 820-••G 994 96.9 96.7 0.82 818 7.4 4323 2.4 2.8 20.5 3150 76
500 560 2)
M3GP 400 LC 3GGP 403 530-••G 993 96.9 96.8 0.83 900 7.2 4808 2.5 2.7 22 3300 76
500 560 2)
M3GP 400 LKC 3GGP 403 830-••G 993 96.9 96.8 0.83 900 7.2 4808 2.5 2.7 22 3300 76
560 630 2)
M3GP 400 LD 3GGP 403 540-••G 993 96.9 96.8 0.85 985 7.4 5385 2.4 3.0 24 3400 77
560 630 2)
M3GP 400 LKD 3GGP 403 840-••G 993 96.9 96.8 0.85 985 7.4 5385 2.4 3.0 24 3400 77
630 710 M3GP 450 LA 3GGP 453 510-••G 994 97.0 97.0 0.84 1115 6.5 6052 1.1 2.5 31 4150 81
710 800 M3GP 450 LB 3GGP 453 520-••G 995 97.1 97.1 0.85 1240 7.0 6814 1.3 2.5 37 4500 81
800 900 1)
M3GP 450 LC 3GGP 453 530-••G 995 97.1 97.1 0.84 1415 7.2 7678 1.3 2.7 41 4800 81
14 16.1 1)3)
M3GP 160 MLC 3GGP 163 430-••G 969 89.3 89.3 0.75 31 7.9 138 2.8 3.9 0.121 188 64
30 35 M3GP 200 MLC 3GGP 203 430-••G 983 91.9 91.8 0.81 60 7.5 292 3.5 3.4 0.49 305 65
45 52 M3GP 250 SMB 3GGP 253 220-••G 986 93.9 93.9 0.82 85 7.2 436 3.3 2.8 1.49 465 65
75 86 M3GP 280 SMC 3GGP 283 230-••G 990 95.1 95.2 0.84 137 7.3 723 2.8 2.7 2.85 725 66
18.5 21 M3GP 180 MLC 3GGP 183 430-••G 975 90.4 90.1 0.74 41 7.2 181 2.0 3.2 0.221 233 61
37 43 M3GP 225 SMC 3GGP 223 230-••G 983 93.0 93.1 0.83 70 7.1 359 3.0 2.8 0.75 380 64

5
Values above are given for 400 V 50 Hz; data for other vol-
tages, frequencies and temperatures on request.
1)
2)
Output
kW
r/min
factor
cos ϕ
of inertia
J = 1/4
GD2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
50Hz 60 Hz
0.18 0.22 M3GP 80 MA 3GGP 084 310-••G 720 54.0 49.0 0.48 1.08 3.3 2.4 3.7 4.0 0.0022 29 36
0.25 0.3 M3GP 80 MB 3GGP 084 320-••G 705 58.0 54.6 0.58 1.15 3.2 3.4 2.6 2.8 0.0022 29 36
0.37 0.44 M3GP 90 SLA 3GGP 094 010-••G 696 65.2 63.8 0.63 1.34 3.0 5.1 2.0 2.2 0.0036 41 36
0.55 0.66 M3GP 90 SLC 3GGP 094 030-••G 695 66.6 64.8 0.61 2.05 3.1 7.6 2.2 2.4 0.0037 43 36
0.75 0.9 M3GP 100 LA 3GGP 104 510-••G 720 74.7 72.4 0.59 2.6 3.8 10 2.0 2.9 0.012 57 54
1.1 1.3 M3GP 100 LB 3GGP 104 520-••G 717 75.2 73.0 0.57 3.9 3.7 15 2.1 2.9 0.012 57 54
1.5 1.7 M3GP 112 MC 3GGP 114 330-••G 713 75.7 73.8 0.59 5 3.5 20 2.0 2.7 0.014 61 54
2.2 2.5 M3GP 132 SMC 3GGP 134 230-••G 720 79.6 78.6 0.65 6.3 4.7 29 2.0 2.9 0.034 95 59
3 3.5 M3GP 132 SMD 3GGP 134 240-••G 710 80.2 80.4 0.70 8 4.1 40 1.7 2.3 0.036 97 59
4 4.6 M3GP 160 MLA 3GGP 164 410-••G 717 83.7 83.8 0.71 10.1 5.2 53 1.8 2.8 0.071 146 59
5.5 6.3 M3GP 160 MLB 3GGP 164 420-••G 715 84.7 85.2 0.71 13.9 5.2 73 1.9 2.8 0.09 160 53
7.5 8.6 M3GP 160 MLC 3GGP 164 430-••G 718 86.9 87.6 0.70 18.4 5.7 100 2.1 3.1 0.121 188 55
11 12.7 M3GP 180 MLB 3GGP 184 420-••G 724 90.3 90.4 0.73 24.5 5.7 145 1.7 2.7 0.239 227 63
15 17 M3GP 200 MLA 3GGP 204 410-••G 734 90.7 90.8 0.79 31 7.0 195 2.4 3.2 0.45 280 56
18.5 21 M3GP 225 SMA 3GGP 224 210-••G 734 90.8 90.8 0.74 41 6.1 241 2.2 3.0 0.61 335 55
22 25 M3GP 225 SMB 3GGP 224 220-••G 732 91.0 91.3 0.77 46 6.5 287 2.2 2.9 0.68 350 56
30 35 M3GP 250 SMA 3GGP 254 210-••G 735 92.3 92.4 0.79 61 6.7 390 2.0 2.9 1.25 420 56
37 43 M3GP 280 SMA 3GGP 284 210-••G 741 93.4 93.3 0.78 74 7.3 477 1.7 3.0 1.85 605 65
45 55 M3GP 280 SMB 3GGP 284 220-••G 741 94.1 93.8 0.78 90 7.6 580 1.8 3.1 2.2 645 65
55 63 M3GP 315 SMA 3GGP 314 210-••G 742 94.1 94.0 0.81 104 7.1 708 1.6 2.7 3.2 830 62
75 85 M3GP 315 SMB 3GGP 314 220-••G 741 94.5 94.4 0.82 141 7.1 968 1.7 2.7 4.1 930 62
90 105 M3GP 315 SMC 3GGP 314 230-••G 741 94.8 94.7 0.82 167 7.4 1161 1.8 2.7 4.9 1000 64
110 125 M3GP 315 MLA 3GGP 314 410-••G 740 95.0 95.0 0.83 203 7.3 1420 1.8 2.7 5.8 1150 72
132 155 M3GP 355 SMA 3GGP 354 210-••G 744 95.7 95.6 0.80 250 7.5 1694 1.5 2.6 7.9 1520 69
160 185 M3GP 355 SMB 3GGP 354 220-••G 744 95.7 95.6 0.80 305 7.6 2054 1.6 2.6 9.7 1680 69
200 230 M3GP 355 SMC 3GGP 354 230-••G 743 95.7 95.6 0.80 378 7.4 2570 1.6 2.6 11.3 1820 69
250 275 2)
M3GP 355 MLB 3GGP 354 420-••G 743 95.9 95.8 0.80 476 7.5 3213 1.6 2.7 13.5 2180 72
315 360 2)
M3GP 400 LA 3GGP 404 510-••G 744 96.4 96.3 0.81 582 7.0 4043 1.2 2.6 17 2900 71
315 360 2)
M3GP 400 LKA 3GGP 404 810-••G 744 96.4 96.3 0.81 582 7.0 4043 1.2 2.6 17 2900 71
355 400 2)
M3GP 400 LKB 3GGP 404 820-••G 743 96.5 96.5 0.83 640 6.8 4563 1.2 2.5 21 3200 71
355 400 2)
M3GP 400 LB 3GGP 404 520-••G 743 96.5 96.5 0.83 640 6.8 4563 1.2 2.5 21 3200 71
400 420 2)
M3GP 400 LC 3GGP 404 530-••G 744 96.6 96.5 0.82 735 7.4 5134 1.3 2.7 24 3400 71
400 420 2)
M3GP 400 LKC 3GGP 404 830-••G 744 96.6 96.5 0.82 735 7.4 5134 1.3 2.7 24 3400 71
450 500 M3GP 450 LA 3GGP 454 510-••G 744 96.3 96.4 0.83 812 6.0 5776 1.0 2.5 26 3750 82
500 560 M3GP 450 LB 3GGP 454 520-••G 744 96.4 96.4 0.83 900 6.4 6418 1.0 2.6 29 4000 82
560 630 M3GP 450 LC 3GGP 454 530-••G 744 96.6 96.5 0.82 1020 7.0 7188 1.2 2.9 35 4350 82
630 710 1)
M3GP 450 LD 3GGP 454 540-••G 745 96.7 96.6 0.81 1160 7.6 8075 1.3 3.2 41 4800 82
18.5 21 M3GP 200 MLB 3GGP 204 420-••G 734 90.6 90.8 0.80 37.5 6.9 241 2.2 3.2 0.54 300 57
30 34 1)
M3GP 225 SMC 3GGP 224 230-••G 731 90.6 91.0 0.77 63 6.3 392 2.3 3.0 0.75 375 59
37 43 M3GP 250 SMB 3GGP 254 220-••G 737 93.0 92.9 0.78 75 7.5 479 2.3 3.4 1.52 465 59
55 65 M3GP 280 SMC 3GGP 284 230-••G 741 94.4 94.3 0.80 105 7.9 709 1.9 3.1 2.85 725 65

5
Rating plates
- apparatus group
- temperature class
For motor sizes 71 to 132 the rating plate gives one
current value for the voltage area. That is the highest
current that can occur within the voltage area with the
given output.
For motor sizes 160 to 450 the rating plate is in table
form giving values for speed, current and power factor
for six voltages.
M3GP 80-450
M000228
r/min
Duty
3 Motor M3GP 180 MLA 2 B3
V
Nmax
r/minHz
Ins.cl. F IP 55
cosA
No.3299777
194 kg
Prod.code 3GGP181300-ADA
6310/C3 6310/C3
kW
ExnA II T3
S1
PH-20341 / 2000
690Y 50 22 2938 22,5 0,9
400D 50 22 2938 39 0,9
LCIE 06 ATEX 600x
IEC 60034-1
Manual
0081 3G
ABB Oy,Motors
Vaasa,Finland
660Y 50 22 2928 23,5 0,9
380D 50 22 2928 41 0,9
415D 50 22 2944 38 0,89
440D 60 25 3526 40 0,9

5
Process performance Non-sparking motors - Variant codes
1)
R = On request.
NA = Not applicable
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400 450
Balancing
052 Vibration acc. to Grade A (IEC 60034-14). S S S S S S S S S S S S S S S
417 Vibration acc. to Grade B (IEC 60034-14). P P P P P P P P P P P P P P P
424 Full key balancing. P P P P P P P P P P P P P P P
036 Transport lock for bearings. NA NA NA NA NA M M M M M P P P P P
037 Roller bearing at D-end. NA NA NA NA NA M M M M M M M NA NA NA
040 Heat resistant grease. NA NA NA NA NA S S S S S S S S S S
041 Bearings regreasable via grease nipples. NA NA NA NA NA S S S S S S S S S S
043 SPM nipples. NA NA NA NA NA S S S S S S S S S S
from bearing.
NA NA NA NA NA P P P P P P P P P P
107 Pt100 2-wire in bearings. NA NA NA NA NA P P P P P P P P P P
130 Pt100 3-wire in bearings. NA NA NA NA NA P P P P P P P P P P
194 2Z bearings greased for life at both ends. S S S S S M M M M M NA NA NA NA NA
433 Outlet grease collector. NA NA NA NA NA NA NA NA NA NA P P P P P
796 Grease nipples JIS B 1575 PT 1/8 Type A. NA NA NA NA NA P P P P P P P P P P
797 Stainless steel SPM nipples. NA NA NA NA NA M M M M M M M P P P
798 Stainless steel grease nipples. NA NA NA NA NA M M M M M M M P P P
Brakes
412 Built-on brake. NA NA NA NA NA R R R R R R R R R R
142 “Manilla connection” NA NA NA NA NA R R R R R R R R R R
178 Stainless steel / acid proof bolts. P P P P P M M M M M M M P P P
204 Jacking bolts for foot mounted motors NA NA NA NA NA P P P P P P P S S S
209 Non-standard voltage or frequency, (special winding). P P P P P P P P P P P P P P P
R R R R R P P P P P P P P P P
398 Motor designed for ambient temperature -20°C to -40°C. R R R R R P P P P P P P P P P
399 Motor designed for ambient temperature -40°C to -55°C. R R R R R P P P P P P P P P P
425 Corrosion protected stator and rotor core. S S S S S S S S S S P P P P P
786 Special design shaft upwards (V3, V36, V6) for
outdoor mounting.
R R R R R P P P P P NA NA NA NA NA
Cooling system
Rotation clockwise seen from D-end.
NA NA NA NA NA NA NA NA NA NA P P P S S
NA NA NA NA NA NA NA NA NA NA P P P S S
068 Metal fan. P P P P P M M M M M M M P P P
075 Cooling method IC418 (without fan). R R R R R R R R R R R R R NA NA
183 Separate motor cooling (fan axial, N-end). NA NA NA NA NA P P P P P P P P P P
422 Separate motor cooling (fan top or side, N-end). NA NA NA NA NA NA NA NA NA NA P P P P P
791 Stainless steel fan cover. NA NA NA NA NA NA NA NA P P P P P P P

5
1)
R = On request.
NA = Not applicable
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400 450
Coupling
035 Assembly of customer supplied coupling-half. R R R R R P P P P P P P P P P
Documentation
141 Binding dimension drawing. P P P P P M M M M M M M M M M
Drain holes
065 Plugged existing drain holes. P P P P P M M M M M M M P P P
448 Draining holes with metal plugs. NA NA NA NA NA P P P P P P P P P P
Earthing Bolt
067 External earthing bolt. M M M M M S S S S S S S S S S
407 Ex N design, fulfilling BS5000/16, certificate provided. NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA
449 Ex n design, according to Australian Standard AS
2380.9
NA NA NA NA NA M M M M M M M NA NA NA
452 DIP/Ex tD acc. to ATEX directive 94/9/EC,
T= 125°C, cat. 3D, IP55.
M M M M M M M M M M M M P P P
T= 125°C, cat. 2D, IP65.
M M M M M M M M M M M M P P NA
456 Ex nA design, fulfilling IEC 60079-15, with certificate. M M M M M M M M M M M M M M M
480 Ex nA II acc. to ATEX directive 94/9/EC, temp. class T3. S S S S S S S S S S S S S S S
804 DIP/Ex tD, IEC 61241, T125 °C, IP55 (zone 22). M M M M M M M M M M M M P P P
805 DIP/Ex tD, IEC 61241, T125 °C, IP65 (zone 21). M M M M M M M M M M M M P P NA
806 DIP/Ex tD, IEC 61241, T125 °C, IP65 (zone 22). M M M M M M M M M M M M P P NA
807 CSA design, Class I, Div 2 Group A, B, C, D T3. NA NA NA NA NA P P P P P P P P P P
814 Ex tD (DIP) motors, temperature class T 150C. M M M M M M M M M M M M P P P
Heating elements
450 Heating element, 100-120V. P P P P P M M M M M M M P P P
451 Heating element, 200-240V. P P P P P M M M M M M M P P P
Insulation system
014 Winding insulation class H. NA NA NA NA NA P P P P P P P P P P
supply.
406 Winding for supply >690<=1000 Volts. NA NA NA NA NA NA NA NA NA NA P P P P P
008 IM 2101 foot/flange mounted, IEC flange, from IM
1001 (B34 from B3).
P P P NA NA NA NA NA NA NA NA NA NA NA NA
1001 (B35 from B3).
P P P P P M M M M M M M P P P
(B14 from B5).
P P P P P NA NA NA NA NA NA NA NA NA NA
066 Modified for non-standard mounting position (please
specify IM xxxx), (must be ordered for all mount-
ing arrangements exluding IM B3 (1001) and IM B5
(3001).
P P P P P M M M M M M M M P P
228 Flange FF 130. P P P P NA NA NA NA NA NA NA NA NA NA NA
305 Additional lifting lugs. NA NA NA NA NA NA NA NA NA NA P P P P P
Noise reduction
055 Noise reducing cover. NA NA NA NA NA NA NA NA NA NA P P P P P
Painting
106 Paint thickness = 80 µm. S S S S S S S S S S S S S S S
109 Paint thickness = 120 µm. NA NA NA NA NA M M M M M M M P P P

5
1)
R = On request.
NA = Not applicable
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400 450
110 Paint thickness = 160 µm. NA NA NA NA NA M M M M M M M P P P
111 Offshore two-pack polyamide cured epoxy paint 160 µm. P P P P P M M M M M P P P P P
114 Special paint colour, standard grade. P P P P P M M M M M M M P P P
115 Offshore zink primer painting. P P P P P P P P P P P P P P P
179 Special paint specification. R R R R R R R R R R R R R R R
Protection
005 Metal protective roof, vertical motor, shaft down. P P P P P M M M M M M M M M M
072 Radial seal at D-end. P P P P P M M M M M P P P P P
073 Sealed against oil at D-end. NA NA NA NA NA P P P P P P P P P P
076 Draining holes with plugs. Felt plugs. P P P P P NA NA NA NA NA NA NA NA NA NA
157 Terminal box degree of protection IP65. M M M M M M M M M M M M P P NA
158 Degree of protection IP65. P P P P P M M M M M M M P P NA
211 Weather protected, IP xx W R R R R R R R R R R R R R R R
403 Degree of protection IP56. P P P P P M M M M M M M P P P
404 Degree of protection IP56, without fan and fan cover NA NA NA NA NA P P P P P P P NA NA NA
434 Degree of protection IP56, open deck. R R R R R P P P P P P P P P NA
783 Labyrinth sealing at D-end. NA NA NA NA NA P P P P P P P S S S
002 Restamping voltage, frequency and output, continu-
ous duty.
intermittent duty.
R R R R R M M M M M R R R R R
098 Stainless rating plate. S S S S S S S S S S S S S S S
135 Mounting of additional identification plate, stainless. P P P P P M M M M M M M P P P
139 Additional identification plate delivered loose. P P P P P M M M M M M M P P P
161 Additional rating plate delivered loose. P P P P P M M M M M M M P P P
163 Frequency converter rating plate. Rating data accord-
ing to quotation.
Shaft & rotor
069 Two shaft extensions as per basic catalogue. NA NA NA NA NA P P P P P P P P P P
material.
164 Shaft extension with closed key-way. R R R R R S S S S S R R R R R
165 Shaft extension with open key-way. S S S S S R R R R R S S S S S
410 Stainless steel shaft (standard or non-standard
design).
NA NA NA NA NA R R R R R P P P P P
152 Classified shaft material. NA NA NA NA NA R R R R R R R R R R
421 VIK design (Verband der Industriellen Energie- und
P P P P P P P P P P P P P P R
758 Saudi Aramco design. NA NA NA NA NA P P P P P P P P NA NA
773 EEMUA No 132 1988 design. NA NA NA NA NA P P P R R R R R R R
Waters).
R R R R R P P P P P P P P P R
P P P P P M M M M M M M P P NA
778 GOST Export/Import Certificate (Russia). P P P P P M M M M M M M P P P
779 SASO Export/Import Certificate (Saudi Arabia). NA NA NA NA NA M M M M M M M P P P
782 Fulfilling CQST Certification requirements (China). P P P P P M M M M M M M P P P

5
1)
R = On request.
NA = Not applicable
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400 450
120 KTY 84-130 (1 per phase) in stator winding P P P P P P P P P P P P P P P
435 PTC -thermistors (3 in series), 130°C, in stator winding. P P P P P M M M M M M M P P P
436 PTC -thermistors (3 in series), 150°C, in stator winding. S S S S S S S S S S S S S S S
438 PTC -thermistors (3 in series), 190°C, in stator winding. NA NA NA NA NA P P P P P P P P P P
439 PTC -thermistors (2x3 in series), 150°C, in stator
winding.
441 PTC - thermistors (3 in series, 130°C & 3 in series,
150°C), in stator winding.
P P P P P M M M M M M M P P NA
445 Pt-100 2-wire in stator winding, 1 per phase NA NA NA NA NA P P P P P P P P P P
Terminal box
021 Terminal box LHS (seen from D-end). NA NA NA NA NA P P P P P P P P P NA
022 Cable entry LHS (seen from D-end). P P P P P M M M M M M M P P P
leads”.
NA NA NA NA NA P P P P P P P P P NA
157 Terminal box degree of protection IP65. P P P P P M M M M M M M P P NA
180 Terminal box RHS (seen from D-end). P P P P P P P P P P P P P P NA
187 Cable glands of non-standard design. NA NA NA NA NA R R R R R R R R R R
material.
400 4 x 90 degr turnable terminal box S S S S S M M S S S S S S S NA
402 Terminal box adapted for Al cables. NA NA NA NA NA NA NA NA NA NA S S S S S
413 Extended cable connection, no terminal box. NA NA NA NA NA NA NA NA NA NA P P P P NA
418 Separate terminal box for auxiliaries, std. Material. NA NA NA NA NA P P P P P P P P P P
447 Top mounted separate terminal box for monitoring
equipment.
NA NA NA NA NA NA NA NA NA NA M M P NA NA
466 Terminal box at N-end. NA NA NA NA NA R R R R R P P P P NA
468 Cable entry from D-end. P P P P P M M M M M P P P P NA
469 Cable entry from N-end. P P P P P M M M M M P P P P NA
567 Separate terminal box material: Cast Iron. NA NA NA NA NA P P P P P P P P P P
568 Separate terminal box for heating elements, std.
material.
569 Separate terminal box for brakes. NA NA NA NA NA P P P P P P P P P P
729 Cable flanges without holes/ Blank gland plates. P P P P P P P P P P P P P P P
730 Prepared for NPT cable glands. P P P P P P P P P P P P P P P
732 Standard cable gland, Ex d IIB, armoured cable. NA NA NA NA NA M M M M M M M P P P
733 Standard cable gland, Ex d IIB, non-armoured cable. NA NA NA NA NA M M M M M M M P P P
736 Standard cable gland Ex e acc. to EN-standards. P P P P P S S S S S S S S S S
737 Standard cable gland Ex e with clamping device acc.
to EN-standards.
741 Motor equipped with E x e terminal box (EN 50019) NA NA NA NA NA M M M M M M M P P P
743 Painted flange for cable glands. NA NA NA NA NA M M M M M M M P P P
744 Stainless steel flange for cable glands. NA NA NA NA NA M M M M M M M P P P
745 Painted steel flange equipped with brass cable glands. P P P P P M M M M M M M P P P
brass cable glands.

5
1)
R = On request.
NA = Not applicable
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400 450
Testing
145 Type test report from a catalogue motor, 400V 50Hz. P P P P P M M M M M M M P P P
batch.
148 Routine test report. P P P P P M M M M M M M P P P
with other codes.
P P P P P P P P P P P P P P P
221 Type test and multi-point load test with report for mo-
tor from specific delivery batch.
P P P P P P P P P P P P P P R
222 Torque/speed curve, type test and multi-point load
test with report for motor from specific delivery batch.
760 Vibration level test P P P P P M M M M M M M P P P
761 Vibration spectrum test. P P P P P P P P P P P P P P P
762 Noise level test. P P P P P M M M M M M M P P P
763 Noise spectrum test. P P P P P P P P P P P P P P P
182 Pulse sensor mounted as specified. NA NA NA NA NA P P P P P P P P P P
429 Separate motor cooling (fan top, N-end) and 1024
pulse tacho (Leine & Linde 861) mounted.
NA NA NA NA NA NA NA NA NA NA P P P P P
470 Prepared for hollow shaft pulse tacho (L&L equiva-
lent).
472 1024 pulse tacho (L&L 861). NA NA NA NA NA P P P P P P P P P P
473 2048 pulse tacho (L&L 861). NA NA NA NA NA P P P P P P P P P P
474 Separate motor cooling (fan axial, N-end) and pre-
pared for hollow shaft tacho (L&L equivalent).
476 Separate motor cooling (fan axial, N-end) and 1024
pulse tacho (L&L 861).
NA NA NA NA NA R R R R R R R R R R
477 Separate motor cooling (fan axial, N-end) and 2048
pulse tacho (L&L 861).
NA NA NA NA NA R R R R R R R R R R
478 Separate motor cooling (fan top, N-end) and pre-
pared for hollow shaft tacho (L&L equivalent).
NA NA NA NA NA NA NA P P P P P P P P
479 Mounting of other type of pulse tacho with shaft
extension, tacho not included.
NA NA NA NA NA R R R R R P P P P P
486 Separate motor cooling (fan top, N-end) and pre-
pared for DC-tacho.
NA NA NA NA NA NA NA P P P P P P P P
pulse tacho (Leine & Linde 861) mounted
NA NA NA NA NA NA NA NA NA NA P P P P P
680 2048 pulse tacho, Ex d, tD, L&L 841910001 NA NA NA NA NA R R R R R R R R R R
701 Insulated bearing at N-end. NA NA NA NA NA NA NA NA NA NA M M P P P
704 EMC cable gland. NA NA NA NA NA M M M M M M M P P P
747 1024 pulse tacho, Ex d, tD, L&L 841910002 NA NA NA NA NA R R R R R R R R R R
Y/D starting
windings).
NA NA NA NA NA R R R R R P P R R R
windings).
119 Terminals for Y/D start at low speed (two speed
windings).

5
Sizes 71-200 Sizes 225-400
Non-sparking motors, cast iron frame
Dimension drawings
Tolerances:
A, B ± 0,8
ISO m6 > Ø 50mm
F, FA ISO h9
H -0.5
N ISO j6
C, CA ± 0.8
Protective roof,
variant code 005
L
C B
B’
E
H
K
A
HD
GA
FD
P N
45°
S
M
M
S
45°
M000267
M000268
M000270
M000269
M000271
M000272
M000230
M000231
Motor
size
D GA F E L
max
poles poles poles poles poles poles
2 4-8 2 4-8 2 4-8 2 4-8 2 4-8 2 4-8
80 19 19 21.5 21.5 6 6 40 40 340 340 20 125 100 125 50 235 10 80 165 130 200 12 160 360 360
90 24 24 27 27 8 8 50 50 405 405 20 140 100 125 56 260 10 90 165 130 200 12 180 430 430
100 28 28 31 31 8 8 60 60 440 440 25 160 140 – 63 280 12 100 215 180 250 14.5 195 465 465
112 28 28 31 31 8 8 60 60 440 440 25 190 140 – 70 295 12 112 215 180 250 14.5 195 465 465
132 38 38 41 41 10 10 80 80 540 540 30 216 140 178 89 340 12 132 265 230 300 14.5 260 570 570
160 42 42 45 45 12 12 110 110 711 711 45 254 210 254 108 388 14.5 160 300 250 350 18.5 328 756 756
180 48 48 51.5 51.5 14 14 110 110 706 706 50 279 241 279 121 426 14.5 180 300 250 350 18.5 359 756 756
200 55 55 59 59 16 16 110 110 774 774 70 318 267 305 133 536 18.5 200 350 300 400 18.5 414 844 844
225 55 60 59 64 16 18 110 140 841 871 80 356 286 311 149 583 18.5 225 400 350 450 18.5 462 921 951
250 60 65 64 69 18 18 140 140 875 875 90 406 311 349 168 646 24 250 500 450 550 18.5 506 965 965
280 65 75 69 79.5 18 20 140 140 1088 1088 100 457 368 419 190 759 24 280 500 450 550 18 555 1190 1190
315 SM_ 65 80 69 85 18 22 140 170 1174 1204 115 508 406 457 216 852 30 315 600 550 660 23 624 1290 1320
315 ML_ 65 90 69 95 18 25 140 170 1285 1315 115 508 457 508 216 852 30 315 600 550 660 23 624 1401 1431
355 SM_ 70 100 62.5 90 20 28 140 210 1409 1479 130 610 500 560 254 958 35 355 740 680 800 23 720 1476 1546
355 ML_ 70 100 62.5 90 20 28 140 210 1514 1584 130 610 560 630 254 958 35 355 740 680 800 23 720 1528 1703
355 LK_ 70 100 62.5 90 20 28 140 210 1764 1834 130 610 710 900 254 958 35 355 740 680 800 23 720 1633 1703
400 L_ 80 110 85 126 22 28 170 210 1851 1891 150 710 900 1000 224 1045 35 400 940 880 1000 28 810 1860 1900
400 LK_ 80 100 85 106 22 28 170 210 1851 1891 150 686 710 800 280 1045 35 400 740 680 800 24 810 1860 1900
450 80 120 85 127 22 32 170 210 2147 2187 180 800 1000 1120 250 1169 42 450 1080 1000 1150 28 On request
IM 3601, IM B14 - Available ﬂange alternatives, see also variant codes.
Flange
size
Variant
code
Flange dimensions Motor sizes 80-132
P M N S 80 90 100 112 132
FF100 258 120 100 80 M6 S NA NA NA NA S = Standard
FF115 260 140 115 95 M8 M S NA NA NA M = Modiﬁcation
FF130 229 160 130 110 M8 M M S S NA NA = Not possible
FF165 236 200 165 130 M10 NA NA NA NA S
FF215 246 250 215 180 M12 NA NA M M M
FF265 256 300 265 230 M12 NA NA NA NA M
FT100 257 120 100 80 M7 S M NA NA NA
FT115 259 140 115 95 M10 M S NA NA NA
FT130 228 160 130 110 M10 M M S S NA
FT165 235 200 165 130 M12 M M M M S
FT215 245 250 215 180 M14.5 NA NA M M M
FT265 255 300 265 230 M14.5 NA NA NA NA M

5
M000205
M000206
M000205
Dimension drawings
Terminal boxes, standard design with 6 terminals
Top- and side-mounted Top-mounted Side-mounted
Terminal boxes 210, 370 Terminal box 750 + adapter Terminal box 750
For motor dimensions please see dimension
drawings on earlier pages or on our web-site
www.abb.com/motors&generators.
Motor sizes 450
Top-mounted
Terminal box 1200
M000331
80-132 202 188 66
160-180 234 234 68
200-250 352 319 147
280-400 210 416 306 177
370 451 347 200
750 top-mounted 686 413 219
750 side-mounted 525 413 219
1200 1250 578 285
1195 578 285
1000 578 285
M000365
M000369
M000368
M000368

5
Non-sparking motor construction
1 Stator frame
2 Endshield, D-end
4 Endshield, N-end
6 Rotor with shaft
7 Key, D-end
8 Terminal box
9 Terminal board
14 Bearing, D-end
18 Seal, N-end
19 Wave spring
21 Bearing, N-end
24 Fan
25 Fan cover
27 Rating plate
28 Regreasing plate
M000220

5
ABB Oy
Motors
Postal address
P.O. Box 633
FI-65101 Vaasa
FINLAND
Visiting Address
FI-65320 Vaasa
FINLAND
Telephone
+358 10 22 11
Telefax
+358 10 22 47372
Internet
www.abb.fi
e-mail:
@fi.abb.com
0763403-0
Domicile: Helsinki
Motors
P.O. Box 633
standards:
EN 60079-0 (2004), EN 60079-1 (2004), EN 60079-7 (2003), EN 60079-15 (2005), EN 61241-0 (2006), EN
61241-1 (2004/2006).
Signed by
----------------------------------
Jouni Ikäheimo
Date February 16th
, 2007
M000209
M000355
M000232

5
Process performance Non-sparking motors
with cast iron frame in brief, basic design
Motor size 80 90 100 112 132 160 180
Paint colour shade Blue, Munsell 8B 4.5/3.25 / NCS 4822 B05G
Paint Two-pack epoxy paint, thickness > 80 µm.
4-8 pole
4-8 pole
Axially locked bearings Inner bearing cover As standard, locked at D-end
Bearing seal Gamma-ring as std, radial seal on request
Lubrication Permanent grease lubrication. Regreasable bearings
as std, lifetime lubrica-
tion as option
Rating plate Material Stainless steel 0.80 Cr 18 Ni9 Stainless steel
Cover material Cast ironEN-GJL-150 Cast iron EN-GJL-200
Screws Steel 5G, coated with zinc and yellow chromated
Fan Material Reinforced glass ﬁber laminate or aluminum
Key ways Open key way Closed key-way
Heating elements Optional 25 W 25 W 50 W
Drain holes Optional As standard, open on
delivery

5
Process performance Non-sparking motors
with cast iron frame in brief, basic design
Motor size 200 225 250 280 315 355 400 450
Stator Material Cast iron EN-GJL-200 / GG 20 / GRS 200
Bearing end shields Material Cast iron EN-GJL-200 / GG 20 /
GRS 200
Cast iron EN-GJL-200/GG20/GRS 200, EN-GJL-250/
GG25/GRS 250, EN-GJS-400/GG40/GRS 400
Bearings D-end 2-pole 6312/C3 6313/C3 6315/C3 6316/C3 6316/C3 6316M/C3 6317/C3 6317/C3
4-8 pole 6312/C3 6313/C3 6315/C3 6316/C3 6319/C3 6322/C3 6324/C3 6324/C3
N-end 2-pole 6310/C3 6312/C3 6313/C3 6316/C3 6319/C3 6316M/C3 6317/C3 6317/C3
4-8 pole 6310/C3 6312/C3 6313/C3 6316/C3 6316/C3 6316/C3 6319/C3 6319/C3
Bearing seal Gamma-ring as standard, radial
seal on request
V-ring as standard, radial seal on request
Lubrication Regreasable bearings as stand-
ard, lifetime lubrication as option
SPM-nipples As standard Optional As standard
Terminal box Frame material Cast iron EN-GJL-200/GG
20/GRS 200
Cast iron EN-GJL-150 /GG15 / GRS 150
Cover material Cast iron EN-GJL-200/GG
20/GRS 200
Cover screws material Steel 5G, coated with zinc and yellow chromated
Connections Cable entries 2xM50x1.5 2xM63x1.5 2xØ60/80
2xØ60
2xØ80
2xØ60/80
2xØ80
2xØ60/80
Fan Material Reinforced glass ﬁber laminate
or aluminum
Reinforced glass ﬁber, aluminum or polypropylene with
metal hub
Paint Two-pack polyester paint, thick-
ness > 80 µm
Two-pack epoxy polyester paint, thickness > 80 µm.
Heating elements Optional 50 W 2 x 50 W 2 x 65 W

5

General purpose
Non-sparking motors Ex nA
low voltage motors,
Sizes 71 - 280, 0.25 to 75 kW
Mechanical design...........................120
Ordering information.......................113
Technical data..................................114
Rating plates....................................119
Variant codes ...................................120
Dimension drawings .......................125
Non-sparking motors in brief .........128
6
> Motors

6
Mechanical design
Cast iron motors
The terminal boxes are 4x90° turnable as standard.
Motors are as standard ﬁtted with metric threads. Cable
glands are not supplied.
Terminal boxes
motor versions. The terminal box is either rotatable or at
least allows cable entry from either side which gives a
choice of connection possibilities.
Aluminum motors
In sizes 90 to 180 the terminal box is made of alumi-
num, the bottom section is integrated with the stator and
provided with two openings on both sides. Cable glands
are not supplied.
assumed to be p.v.c. -insulated and termination parts
are supplied according to the following tables.
Aluminum motors sizes 90-180 and all cast iron motors
sizes are as standard ﬁtted with metric threads.
Motor size Opening Metric cable
entry
Cable diameter mm,
min-max
Max.connection
cable area mm2
Terminal
bolt size
Terminal screw
size
90-100 Knockout opening 2x(2xM25+M20) 2x(2xD11-16) 6 M4
112-132 Knockout opening 2x(M25+M20) 2x(D11-16+D9-13) 10 M5
160-180 Knockout opening 2x(2xM40+M16) 2x(2xD19-27+D5-9) 35 M6
200 1)
Knockout opening 1x(2xM40+M16) 1x(2xD19-27+D5-9) 35 M6
200-250 2)
2 x FL 13 1x(2xM40+M16) 1x(2xD32-42+D5-9) 70 M10
280 2 x FL 21 1x(2xM63+M16) 1x(2xD32-42+D5-9) 70 M10
1)
M2AA
2)
M2AA 200 excluded
Motor size Main cable entries Max. supply
cable area
mm2
Terminal
bolt size
6 x
Auxiliary cable entries (heaters, thermistors etc.)
Thread Metal plug Outer cable
sheath, mm
Thread Metal plug Outer cable
sheath, mm
71 1 x M20 x 1.5 1 x M20 x 1.5 10 - 14 4 M4 1 x M16 x 1.5 1 x M16 x 1.5 6 - 10
80 - 90 1 x M25 x 1.5 1 x M25 x 1.5 14 - 18 4 M4 1 x M16 x 1.5 1 x M16 x 1.5 6 - 10
100 - 112 1 x M32 x 1.5 1 x M32 x 1.5 20 - 25 6 M5 1 x M16 x 1.5 1 x M16 x 1.5 6 - 10
132 1 x M32 x 1.5 1 x M32 x 1.5 20 - 25 6 M5 1 x M16 x 1.5 1 x M16 x 1.5 6 - 10
160 - 180 2 x M40 x 1.5 2 x M40 x 1.5 22 - 32 25 M6 2 x M16 x 1.5 2 x M16 x 1.5 6 - 10
200 - 225 2 x M50 x 1.5 2 x M50 x 1.5 32 - 38 70 M8 2 x M16 x 1.5 2 x M16 x 1.5 6 - 10
250 2 x M63 x 1.5 2 x M63 x 1.5 37 - 44 150 M10 2 x M16 x 1.5 2 x M16 x 1.5 6 - 10

6
Sample order
Positions 1 to 4
with aluminum frame, non-sparking
3GGP = Totally enclosed fan cooled squirrel cage motor
with cast iron frame, non-sparking
Positions 5 and 6
IEC-frame
07 = 71 16 = 160
08 = 80 18 = 180
09 = 90 20 = 200
10 = 100 22 = 225
11 = 112 25 = 250
13 = 132 28 = 280
Position 7
Speed (Pole pairs)
1 = 2 poles
2 = 4 poles
3 = 6 poles
4 = 8 poles
5 = 10 poles
Position 8 to 10
Serial number
Position 11
- (dash)
Motor size
A B C D, E, F, G
M3AA 250 SMA 3GAA 251 001- A D C 003 etc.
1 2 3 4 5 6 7 8 91011 12 13 14
A Motor type
B Motor size
C Product code
F Generation code
G Variant codes
Position 12
from D-end
Position 13
See table below
Position 14
Generation code
A, B, C...
Code letters for supplementing the product code - cast iron motors
Direct start or, with '-connection, also Y/'-start
Motor S D
size 50Hz 60 Hz 50 Hz 60 Hz
71-132 220-240 V' 440-480 VY 380-420 V' 440-480V'
380-420 VY - 660-690 VY -
160-250 220, 230 V' - 380, 400, 415 V' 440V'
380,400,415VY 440VY 660, 690 VY -
Motor type M3AA 250 SMA
Pole number 2
Rated output 55 kW
Product code 3GAA251001-ADC
Other rated
voltage,
connection
or frequency,
690 V
maximum
Code letters for supplementing the product code - aluminum motors
size 50 Hz 60 Hz 50 Hz 60 Hz 50 Hz 50 Hz 50 Hz 50 Hz 50 Hz
56-100 220-240 V' 440-480 VY 380-420 V' 440-480 V' - 500 V'1)
500 VY 660 V'1
) 690 V'1
)
380-420 VY 660-690 VY -
112-132 220-240 V' - 380-420 V' 440-480 V' 415 V' 500 V' 500 VY 660 V' 690 V'
380-420 VY 440-480 VY 660-690 VY -
M2AA 160-250 230 V' - 400 V' - - 500V' - - -
400 VY - 690 VY -
M3AA 160-280 220, 230 V' - 380,400,415V' 440 V' 415 V' 500 V' 500 VY 660 V' 690 V'
380,400,415 VY 440 VY 660, 690 VY -
1
) On request.
Note: By Frame sizes 90-100 max. 500 V.

6
General purpose Non-sparking motors Ex nA
three phase aluminum motors
1)
Note: When ordering, following variant codes should be added;
Frame sizes 90-100: 094 Ex n design.
Frame sizes 112-280: 480 Ex nA, fulfilling EN 50021
Frame sizes 112-280: 456 Ex nA design, fulfilling IEC 60079-15, with certificate.
M000194
Output
kW
r/min
Effi-
ciency
Power
factor
cos M
Current Torque Moment of
inertia
J=1/4GD2
Weight
kg
Sound
pressure
level LP
dB(A)FL
100%
FL
75%
IN
Is
TN
Ts
Tmax
50 Hz 60 Hz A IN
Nm TN
TN
3000 r/min = 2 poles 400 V 50 Hz Basic design
1.5 1.75 M3AAN 90 S 3GAA 091 001-••E 2870 80.1 76.2 0.82 3.35 5.5 5 2.4 3.0 0.0019 13 63
2.2 2.5 M3AAN 90 L 3GAA 091 002-••E 2880 83.6 79.0 0.87 4.37 7.0 7.5 2.7 3.0 0.0024 16 63
3 3.5 M3AAN 100 L 3GAA 101 001-••E 2900 86.0 84.1 0.88 5.95 7.5 10 2.7 3.6 0.0041 21 65
4 4.6 M3AAN 112 M 3GAA 111 001-••B 2850 86.0 86.2 0.91 7.4 7.5 13.4 2.8 3.0 0.01 25 63
5.5 6.4 M3AAN 132 SA 3GAA 131 001-••B 2855 86.0 86.6 0.88 10.5 7.8 18.4 3.2 3.4 0.014 37 75
7.5 8.6 M3AAN 132 SB 3GAA 131 002-••B 2860 88.0 86.2 0.89 13.9 8.5 25.1 3.4 3.6 0.016 42 73
11 13 M2AA 160 MA 3GAA 161 111-••A 2915 88.4 88.9 0.89 20.5 6.1 36 2.1 2.5 0.039 73 73
11 12.5 M3AA 160 MA 3GAA 161 101-••C 2930 91.0 91.2 0.88 20 6.2 36 2.1 2.8 0.039 73 69
15 17.5 M2AA 160 M 3GAA 161 112-••A 2900 89.5 89.9 0.90 27 6.1 49.4 2.4 2.6 0.047 84 75
15 17.5 M3AA 160 M 3GAA 161 102-••C 2920 91.3 91.7 0.90 26.5 6.4 49 2.3 2.7 0.047 84 69
18.5 21 M2AA 160 L 3GAA 161 113-••A 2915 90.2 90.5 0.91 32.5 6.8 60 2.6 3.0 0.053 94 73
18.5 21 M3AA 160 L 3GAA 161 103-••C 2920 92.4 93.1 0.91 32 7.2 61 2.6 2.9 0.053 94 69
22 25.5 M2AA 180 M 3GAA 181 111-••A 2925 91.2 91.3 0.89 39 7.9 72 2.8 3.2 0.06 108 75
22 25 M3AA 180 M 3GAA 181 101-••C 2930 92.8 93.3 0.89 38.5 7.2 71 2.7 3.0 0.077 119 69
30 35 M2AA 200 LA 3GAA 201 011-••A 2945 92.0 92.0 0.88 53 7.9 97 3.0 3.7 0.094 139 75
30 35 M3AA 200 MLA 3GAA 201 001-••C 2955 93.2 93.2 0.88 53 8.5 97 2.9 3.1 0.15 175 72
37 42 M2AA 200 L 3GAA 201 012-••A 2945 92.8 92.9 0.89 65 8.2 120 3.1 3.6 0.115 170 75
37 43 M3AA 200 MLB 3GAA 201 002-••C 2950 93.6 93.7 0.89 64 7.2 120 2.3 2.9 0.18 200 72
45 52 M2AA 225 M 3GAA 221 011-••A 2940 93.0 93.0 0.88 80 7.7 146 2.8 3.0 0.21 209 75
45 52 M3AA 225 SMB 3GAA 221 001-••C 2960 94.1 93.9 0.88 79 7.7 145 2.5 2.9 0.26 235 74
55 63 M2AA 250 M 3GAA 251 011-••A 2960 93.5 93.8 0.90 95 7.3 177 2.8 3.0 0.31 277 74
55 63 M3AA 250 SMA 3GAA 251 001-••C 2970 94.2 93.8 0.89 95 7.9 177 2.4 3.0 0.49 285 75
75 86 M3AA 280 SMA 3GAA 281 001-••C 2970 94.7 94.4 0.90 127 8.2 241 2.7 3.2 0.57 375 75
2.7 3 1)
M3AAN 90 LB 3GAA 091 003-••E 2860 80.7 83.5 0.86 5.7 7.0 9 2.6 3.0 0.0027 18 63
4 4.6 1)
M3AAN 100 LB 3GAA 101 002-••E 2900 85.0 84.3 0.86 8.1 7.5 13 2.7 3.6 0.005 25 68
5.5 6.4 1)
M3AAN 112 MB 3GAA 111 002-••B 2855 86.5 87.1 0.93 9.9 7.3 18.4 2.7 2.9 0.012 33 66
9.2 10.6 1)
M3AAN 132 SBB 3GAA 131 004-••B 2825 86.0 88.2 0.93 16.6 7.3 31.1 3.2 3.5 0.022 57 74
11 12.6 1)
M3AAN 132 SC 3GAA 131 003-••B 2835 87.0 87.4 0.93 19.6 8.0 37 3.2 3.3 0.022 57 73
45 52 M3AA 200 MLC 3GAA 201 003-••C 2950 94.1 94.5 0.89 78 8.2 146 3.0 3.2 0.19 205 72
55 63 M3AA 225 SMC 3GAA 221 002-••C 2960 94.5 94.6 0.89 95 7.3 177 2.8 3.0 0.29 260 74
75 86 M3AA 250 SMB 3GAA 251 002-••C 2970 94.7 94.4 0.90 127 8.2 241 2.7 3.2 0.57 330 75

6
1)
Output
kW
r/min
Efﬁ-
ciency
Power
factor
cos M
inertia
J=1/4GD2
Weight
kg
Sound
pressure
level LP
dB(A)FL
100%
FL
75%
IN
Is
TN
Ts
Tmax
50 Hz 60 Hz A IN
Nm TN
TN
1.1 1.3 M3AAN 90 S 3GAA 092 001-••E 1410 77.5 76.4 0.81 2.59 5.0 7.5 2.2 2.7 0.0032 13 50
1.5 1.75 M3AAN 90 L 3GAA 092 002-••E 1420 80.3 78.1 0.79 3.45 5.0 10 2.4 2.9 0.0043 16 50
2.2 2.5 M3AAN 100 LA 3GAA 102 001-••E 1430 83.0 82.7 0.81 4.8 5.5 15 2.4 2.9 0.0069 21 64
3 3.5 M3AAN 100 LB 3GAA 102 002-••E 1430 85.0 83.9 0.81 6.48 5.5 20 2.5 2.9 0.0082 24 66
4 4.6 M3AAN 112 M 3GAA 112 001-••B 1435 84.5 83.9 0.80 8.6 7.0 26.6 2.9 3.1 0.015 27 60
5.5 6.4 M3AAN 132 S 3GAA 132 001-••B 1450 87.0 87.7 0.83 11.1 7.3 36.2 2.2 3.0 0.031 40 66
7.5 8.6 M3AAN 132 M 3GAA 132 002-••B 1450 88.0 88.6 0.83 14.8 7.9 49.4 2.5 3.2 0.038 48 66
11 13 M2AA 160 M 3GAA 162 111-••A 1460 89.1 89.8 0.81 22 6.5 72 2.7 2.6 0.067 75 62
11 12.5 M3AA 160 M 3GAA 162 101-••C 1460 92.0 92.7 0.81 21.5 7.8 72 3.3 3.2 0.067 75 62
15 17.5 M2AA 160 L 3GAA 162 112-••A 1460 90.4 91.0 0.82 29 7.1 98 2.7 3.3 0.088 92 62
15 18 M3AA 160 L 3GAA 162 102-••C 1460 91.8 92.5 0.82 29 8.1 98 3.0 3.6 0.091 94 62
18.5 21 M2AA 180 M 3GAA 182 111-••A 1460 91.1 91.5 0.81 36.5 7.6 121 3.1 3.5 0.102 110 64
18.5 22 M3AA 180 M 3GAA 182 101-••C 1470 92.3 92.9 0.84 35 7.0 120 2.9 2.9 0.161 124 62
22 25.5 M2AA 180 L 3GAA 182 112-••A 1460 91.8 92.3 0.82 42 7.9 143 3.0 3.8 0.127 128 64
22 26 M3AA 180 L 3GAA 182 102-••C 1470 93.1 93.9 0.85 40 7.1 143 3.1 3.3 0.191 141 63
30 35 M2AA 200 L 3GAA 202 011-••A 1470 92.0 92.1 0.80 59 7.8 195 3.0 3.4 0.225 177 67
30 35 M3AA 200 MLB 3GAA 202 001-••C 1475 93.4 94.0 0.84 55 7.5 194 2.5 2.8 0.29 180 63
37 43 M2AA 225 S 3GAA 222 011-••A 1475 92.8 93.0 0.85 68 6.8 240 3.0 3.1 0.35 216 68
37 42 M3AA 225 SMA 3GAA 222 001-••C 1480 93.6 93.8 0.84 68 7.6 239 3.1 3.3 0.37 215 66
45 52 M2AA 225 M 3GAA 222 012-••A 1475 93.0 93.1 0.84 84 8.1 291 3.5 3.2 0.41 237 68
45 52 M3AA 225 SMB 3GAA 222 002-••C 1480 94.2 94.4 0.83 83 7.6 291 2.8 3.0 0.42 230 66
55 63 M2AA 250 M 3GAA 252 011-••A 1475 93.7 94.3 0.84 98 6.8 356 2.5 2.6 0.5 286 66
55 63 M3AA 250 SMA 3GAA 252 001-••C 1480 94.6 94.9 0.86 98 7.6 355 3.1 3.0 0.72 275 67
72 80 M3AA 280 SMA 3GAA 282 001-••C 1475 94.6 95.0 0.88 126 7.4 466 3.2 3.1 0.88 380 67
1.85 2.2 1)
M3AAN 90 L 3GAA 092 003-••E 1390 79.5 78.1 0.80 4.4 4.5 13 2.2 2.4 0.0043 16 50
2.2 2.5 1)
M3AAN 90 LB 3GAA 092 004-••E 1390 80.3 81.0 0.83 4.85 4.5 15 2.2 2.4 0.0048 17 50
4 4.6 1)
M3AAN 100 LC 3GAA 102 003-••E 1420 81.0 81.7 0.82 8.65 5.5 27 2.5 2.8 0.009 25 60
5.5 6.4 1)
M3AAN 112 MB 3GAA 112 002-••B 1425 84.5 83.5 0.83 11.4 7.1 36.9 2.8 3.1 0.018 34 60
9.2 10.6 1)
M3AAN 132 MBA 3GAA 132 004-••B 1450 88.0 88.6 0.85 17.8 7.3 60 2.0 2.8 0.048 59 63
11 12.6 1)
M3AAN 132 MB 3GAA 132 003-••B 1450 88.0 89.4 0.86 21 8.3 72 2.5 2.7 0.048 59 66
55 63 M3AA 225 SMC 3GAA 222 003-••C 1480 94.6 95.0 0.84 100 7.5 356 3.5 3.0 0.49 265 66
72 80 M3AA 250 SMB 3GAA 252 002-••C 1475 94.6 95.0 0.88 126 7.4 466 3.2 3.1 0.88 335 67

6
1)
Output
kW
r/min
Efﬁ-
ciency
Power
factor
cos M
inertia
J=1/4GD2
Weight
kg
Sound
pressure
level LP
dB(A)FL
100%
FL
75%
IN
Is
TN
Ts
Tmax
50 Hz 60 Hz A IN
Nm TN
TN
0.75 0.9 M3AAN 90 S 3GAA 093 001-••E 930 71.5 70.7 0.67 2.36 4.0 7.5 1.9 2.3 0.0032 13 44
1.1 1.3 M3AAN 90 L 3GAA 093 002-••E 930 74.4 72.5 0.69 3.25 4.0 11 2.1 2.4 0.0043 16 44
1.5 1.75 M3AAN 100 L 3GAA 103 001-••E 950 80.0 77.0 0.71 3.92 4.5 15 1.9 2.3 0.0082 23 49
2.2 2.5 M3AAN 112 M 3GAA 113 001-••B 940 80.5 79.3 0.74 5.4 5.6 22.3 2.1 2.7 0.015 27 66
3 3.5 M3AAN 132 S 3GAA 133 001-••B 960 84.5 82.7 0.75 6.9 6.1 29.8 2.0 2.6 0.031 39 57
4 4.6 M3AAN 132 MA 3GAA 133 002-••B 960 85.5 83.1 0.78 8.7 7.1 39.7 2.0 2.8 0.038 46 61
5.5 6.4 M3AAN 132 MB 3GAA 133 003-••B 955 86.0 85.0 0.78 11.9 6.9 55 2.2 2.8 0.045 54 57
7.5 8.6 M3AA 160 M 3GAA 163 101-••C 970 89.3 90.4 0.79 15.4 6.6 74 1.9 2.6 0.089 88 59
11 12.5 M3AA 160 L 3GAA 163 102-••C 970 89.8 90.5 0.78 23 6.9 109 2.1 3.4 0.107 102 59
15 17 M3AA 180 L 3GAA 183 101-••C 970 90.8 91.5 0.78 31 6.8 147 2.0 3.3 0.217 151 59
18.5 21 M3AA 200 MLA 3GAA 203 001-••C 985 91.1 91.7 0.81 36 7.0 180 2.7 2.5 0.37 165 63
22 25 M3AA 200 MLB 3GAA 203 002-••C 980 91.7 92.2 0.81 43 6.8 214 2.9 3.0 0.43 185 63
30 34 M3AA 225 SMB 3GAA 223 001-••C 985 92.8 93.0 0.83 56 7.4 290 3.2 2.8 0.64 225 63
37 42 M3AA 250 SMA 3GAA 253 001-••C 985 93.4 93.7 0.83 69 7.2 358 3.2 2.9 1.16 280 63
45 52 1)
M3AA 280 SMA 3GAA 283 001-••C 985 93.4 93.7 0.84 83 7.2 436 3.2 2.8 1.49 375 63
1.3 1.5 1)
M3AAN 90 LB 3GAA 093 003-••E 910 69.0 69.0 0.71 3.85 4.0 13.5 1.9 2.2 0.0048 18 44
2.2 2.5 1)
M3AAN 100 LC 3GAA 103 002-••E 940 77.0 72.8 0.71 5.9 4.5 22 1.9 2.3 0.009 26 49
3 3.5 1)
M3AAN 112 MB 3GAA 113 002-••B 935 80.0 79.9 0.76 7.2 5.5 30.6 2.0 2.7 0.018 33 55
37 42 M3AA 225 SMC 3GAA 223 002-••C 985 93.0 93.6 0.83 69 7.3 360 3.6 2.8 0.75 252 63
45 52 1)
M3AA 250 SMB 3GAA 253 002-••C 985 93.4 93.7 0.84 83 7.2 436 3.2 2.8 1.49 320 63

6
1)
Output
kW
r/min
Efﬁ-
ciency
Power
factor
cos M
inertia
J=1/4GD2
Weight
kg
Sound
pressure
level LP
dB(A)FL
100%
FL
75%
IN
Is
TN
Ts
Tmax
50 Hz 60 Hz A IN
Nm TN
TN
0.37 0.45 M3AAN 90 S 3GAA 094 001-••E 700 61.5 43.4 0.56 1.6 3.0 5 1.9 2.4 0.0032 13 43
0.55 0.65 M3AAN 90 L 3GAA 094 002-••E 690 62.9 56.4 0.57 2.35 3.0 7.5 1.7 2.1 0.0043 16 43
0.75 0.9 M3AAN 100 LA 3GAA 104 001-••E 700 72.0 63.6 0.59 2.55 3.5 10 2.1 2.7 0.0069 20 46
1.1 1.3 M3AAN 100 LB 3GAA 104 002-••E 700 73.0 68.8 0.64 3.35 3.5 15 2.1 2.7 0.0082 23 46
1.5 1.7 M3AAN 112 M 3GAA 114 001-••B 695 74.5 75.9 0.65 4.5 4.1 20.6 1.9 2.4 0.016 28 52
2.2 2.5 M3AAN 132 S 3GAA 134 001-••B 720 80.5 77.8 0.67 5.9 5.3 29.2 1.6 2.5 0.038 46 56
3 3.5 M3AAN 132 M 3GAA 134 002-••B 720 82.0 79.2 0.68 7.8 5.5 39.8 1.8 2.5 0.045 53 56
4 4.6 M3AA 160 MA 3GAA 164 101-••C 715 84.1 84.7 0.69 10 5.1 53 2.1 2.6 0.072 75 59
5.5 6.3 M3AA 160 M 3GAA 164 102-••C 710 84.7 85.6 0.70 13.4 5.5 74 2.4 2.6 0.091 88 59
7.5 8.6 M3AA 160 L 3GAA 164 103-••C 715 86.3 87.3 0.70 18.1 5.4 100 2.4 2.7 0.131 118 59
11 13 M3AA 180 L 3GAA 184 101-••C 720 89.6 90.3 0.76 23.5 5.7 146 2.1 2.5 0.224 147 59
15 17 M3AA 200 MLA 3GAA 204 001-••C 740 91.1 91.6 0.82 29 7.5 196 3.0 3.2 0.45 175 60
18.5 21 M3AA 225 SMA 3GAA 224 001-••C 730 91.1 91.6 0.79 37 6.8 242 2.8 3.1 0.61 210 63
22 25 M3AA 225 SMB 3GAA 224 002-••C 730 91.5 92.2 0.77 45 6.4 287 2.4 2.6 0.68 225 63
30 34 M3AA 250 SMA 3GAA 254 001-••C 735 92.8 93.1 0.79 59 7.3 389 2.2 2.6 1.25 280 63
37 42 M3AA 280 SMA 3GAA 284 001-••C 735 93.0 93.3 0.81 74 7.4 478 2.9 3.1 1.52 375 63
0.75 0.9 1)
M3AAN 90 LB 3GAA 094 003-••E 680 64.0 60.0 0.65 2.65 3.0 10 1.8 2.0 0.0048 18 43
2 2.3 1)
M3AAN 112 MB 3GAA 114 002-••B 685 73.5 68.4 0.67 5.9 4.4 27.9 1.9 2.2 0.018 33 52
1.5 1.75 1)
M3AAN 100 LC 3GAA 104 003-••E 685 71.0 65.9 0.66 4.7 3.5 21 1.8 2.2 0.009 26 46
3.8 4.4 1)
M3AAN 132 MB 3GAA 134 003-••B 710 80.5 78.3 0.69 9.9 5.2 51 1.8 2.3 0.049 59 56
18.5 21 M3AA 200 MLB 3GAA 204 002-••C 735 91.4 91.8 0.81 36 7.3 241 2.6 3.1 0.54 200 60
37 42 M3AA 250 SMB 3GAA 254 002-••C 735 93.0 93.3 0.81 74 7.4 478 2.9 3.1 1.52 320 63

6
Output
kW
r/min
Efﬁciency at Po-
wer
factor
cos M
inertia
J = 1/4 GD2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.37 M2GP 71 MA 3GGP 071 310-••A 2807 71.4 69.4 0.81 0.88 4.9 1.25 2.5 2.6 0.0003 10 56
0.55 M2GP 71 MB 3GGP 071 320-••A 2789 74.2 73.6 0.82 1.26 5.0 1.9 2.5 2.6 0.00037 11 56
0.75 M2GP 80 MA 3GGP 081 310-••A 2840 76.1 76.6 0.85 1.7 6.1 2.52 2.2 3.0 0.00091 16 57
1.1 M2GP 80 MB 3GGP 081 320-••A 2855 79.0 78.9 0.85 2.4 7.0 3.68 2.2 2.2 0.00107 17 58
1.5 M2GP 90 SA 3GGP 091 110-••A 2850 79.9 79.9 0.87 3.15 7.0 5.03 2.2 2.5 0.00135 21 61
2.2 M2GP 90 LA 3GGP 091 510-••A 2850 82.3 82.6 0.86 4.53 7.0 7.37 2.2 3.5 0.00163 24 61
3 M2GP 100 LA 3GGP 101 510-••A 2860 83.8 84.0 0.88 5.93 7.0 10.02 2.2 3.0 0.00402 33 65
4 M2GP 112 MA 3GGP 111 310-••A 2900 85.7 85.3 0.90 7.55 7.0 13.17 2.2 3.2 0.00671 42 67
5.5 M2GP 132 SA 3GGP 131 110-••A 2907 87.6 87.8 0.87 10.4 7.4 18 1.8 2.7 0.01241 58 70
7.5 M2GP 132 SB 3GGP 131 120-••A 2920 89.0 90.5 0.90 13.6 7.0 24.53 2.2 3.5 0.01491 63 70
11 M2GP 160 MA 3GGP 161 310-••A 2930 90.5 90.6 0.89 19.82 7.2 35.9 3.0 3.4 0.0436 112 72
15 M2GP 160 MB 3GGP 161 320-••A 2920 90.7 90.8 0.89 27.03 6.9 49.1 2.7 3.5 0.0551 122 72
18.5 M2GP 160 LA 3GGP 161 510-••A 2918 91.6 91.9 0.90 33 7.5 61 2.8 3.5 0.06549 142 72
30 M2GP 200 LA 3GGP 201 510-••A 2951 92.3 92.0 0.90 53 7.2 97 2.3 3.1 0.14821 235 79
37 M2GP 200 LB 3GGP 201 520-••A 2951 92.8 92.8 0.90 65 7.0 120 2.2 3.1 0.16822 254 79
45 M2GP 225 MA 3GGP 221 310-••A 2970 93.5 93.0 0.89 78.81 7.9 145 2.3 3.0 0.29345 328 81
55 M2GP 250 MA 3GGP 251 310-••A 2960 93.3 92.8 0.90 95 8.2 177 2.6 3.5 0.3784 390 81
0.25 M2GP 71 MA 3GGP 072 310-••A 1373 67.1 65.0 0.73 0.74 4.0 1.7 2.2 2.6 0.00053 11 43
0.37 M2GP 71 MB 3GGP 072 320-••A 1398 71.8 71.7 0.76 1.01 4.1 2.5 2.2 2.6 0.00066 11 45
0.55 M2GP 80 MA 3GGP 082 310-••A 1422 74.7 72.7 0.73 1.4 5.0 3.7 2.5 2.8 0.00145 16 46
0.75 M2GP 80 MB 3GGP 082 320-••A 1405 75.6 76.3 0.76 1.87 4.7 5.1 2.5 2.6 0.00174 17 46
1.1 M2GP 90 SA 3GGP 092 110-••A 1400 78.5 78.8 0.79 2.65 6.0 7.5 2.3 2.4 0.00254 21 52
1.5 M2GP 90 LA 3GGP 092 510-••A 1390 79.5 80.1 0.80 3.5 6.0 10.31 2.3 2.6 0.00317 25 52
2.2 M2GP 100 LA 3GGP 102 510-••A 1419 82.3 83.1 0.81 5.12 5.6 14.8 2.8 3.4 0.00679 32 53
3 M2GP 100 LB 3GGP 102 520-••A 1420 83.6 83.3 0.83 6.3 6.5 20.18 2.3 2.8 0.00862 36 53
4 M2GP 112 MA 3GGP 112 310-••A 1430 85.7 85.3 0.82 8.29 6.5 26.71 2.3 2.8 0.01306 45 56
5.5 M2GP 132 SA 3GGP 132 110-••A 1430 86.6 87.7 0.85 10.9 6.5 36.73 2.3 2.9 0.02673 60 59
7.5 M2GP 132 MA 3GGP 132 310-••A 1440 89.0 88.8 0.85 14.4 6.5 49.74 2.3 2.7 0.03432 73 59
11 M2GP 160 MA 3GGP 162 310-••A 1460 89.8 90.2 0.85 21 6.9 72 2.3 3.2 0.06543 116 66
15 M2GP 160 LA 3GGP 162 510-••A 1460 90.6 91.3 0.86 27.97 6.6 98 2.3 3.0 0.09349 137 66
18.5 M2GP 180 MA 3GGP 182 310-••A 1470 91.7 91.7 0.86 34.12 7.5 120 2.5 3.5 0.16049 170 66
22 M2GP 180 LA 3GGP 182 510-••A 1470 92.3 92.5 0.88 39.44 7.7 143 2.5 3.5 0.18046 186 66
30 M2GP 200 LA 3GGP 202 510-••A 1470 92.9 93.0 0.88 53.37 7.5 195 2.3 3.2 0.2819 254 71
37 M2GP 225 SA 3GGP 222 110-••A 1480 92.9 92.5 0.85 67.85 7.6 239 2.3 3.2 0.37 308 73
45 M2GP 225 MA 3GGP 222 310-••A 1480 93.5 93.3 0.86 81 7.4 290 2.3 3.1 0.42 335 73
55 M2GP 250 MA 3GGP 252 310-••A 1479 94.4 94.5 0.88 96 7.1 355 2.6 3.0 0.78 450 76
0.18 M2GP 71 MA 3GGP 073 310-••A 901 57.0 52.3 0.66 0.64 3.0 1.9 2.1 2.3 0.00056 10 42
0.25 M2GP 71 MB 3GGP 073 320-••A 887 61.8 60.2 0.66 0.87 3.0 2.7 2.2 2.3 0.00074 11 42
0.37 M2GP 80 MA 3GGP 083 310-••A 942 64.7 64.9 0.67 1.16 3.3 3.8 1.8 2.4 0.00159 17 45
0.55 M2GP 80 MB 3GGP 083 320-••A 927 66.6 66.7 0.69 1.72 3.3 5.7 1.7 2.2 0.00196 18 45
0.75 M2GP 90 SA 3GGP 093 110-••A 920 72.3 71.5 0.73 2.12 5.0 7.79 2.0 2.3 0.00292 21 48
1.1 M2GP 90 LA 3GGP 093 510-••A 920 74.2 74.3 0.75 2.94 5.0 11.42 2.0 2.6 0.00379 25 48
1.5 M2GP 100 LA 3GGP 103 510-••A 940 77.1 76.4 0.78 3.78 5.5 15.24 2.0 2.4 0.00999 32 51
2.2 M2GP 112 MA 3GGP 113 310-••A 940 80.9 82.0 0.77 5.23 5.5 22.35 2.0 2.3 0.03116 40 54
3 M2GP 132 SA 3GGP 133 110-••A 960 83.3 84.2 0.79 6.73 6.5 29.84 2.0 2.4 0.03116 55 56
4 M2GP 132 MA 3GGP 133 310-••A 960 84.7 84.9 0.78 8.93 6.5 39.79 2.0 2.9 0.04074 65 56
5.5 M2GP 132 MB 3GGP 133 320-••A 960 86.6 86.2 0.80 11.7 6.5 54 2.0 3.0 0.05332 75 56
7.5 M2GP 160 MA 3GGP 163 310-••A 970 88.4 88.5 0.78 15.77 6.2 74 2.0 2.4 0.09231 119 61
11 M2GP 160 LA 3GGP 163 510-••A 970 88.9 89.2 0.78 23 6.4 108 2.2 2.5 0.1297 140 62
15 M2GP 180 LA 3GGP 183 510-••A 980 90.5 90.6 0.82 29.67 6.5 146 2.3 3.1 0.2418 180 61
18.5 M2GP 200 LA 3GGP 203 510-••A 980 91.2 91.2 0.82 36.06 6.6 180 2.2 3.0 0.34174 231 64
22 M2GP 200 LB 3GGP 203 520-••A 980 91.8 92.1 0.83 42.32 6.4 214 2.2 2.9 0.46837 254 64
37 M2GP 250 MA 3GGP 253 310-••A 980 92.1 92.2 0.88 66.5 6.6 361 2.2 2.7 0.97 382 68

6
Rating plates
- apparatus group
- temperature class
given output. Aluminum motors, frame sizes 90 to 100,
are self-certiﬁed.
For motor sizes 160 to 280 the rating plate is in table
form giving values for speed, current and power factor
for six voltages.
M3AAN 90-100 M2AA/M3AA 160-280
M2GP 160-250
M2AA/M3AA 112-132
M000225M000224
M000352
M000226
M000353
M2GP 71-132

6
General purpose Non-sparking aluminum motors -
Variant codes
1)
R = On request.
NA = Not applicable
Code 1)
/ Variant 90 100 112 132 160 180 200 225 250 280
Balancing
052 Vibration acc. to Grade A (IEC 60034-14). S S S S S S S S S S
417 Vibration acc. to Grade B (IEC 60034-14). P P P P R R R R R R
423 Balanced without key P P R R R R R R R R
424 Full key balancing. P P P P P P P P P P
036 Transport lock for bearings. M M M M M M M M M M
037 Roller bearing at D-end. M M P P M M M M M M
040 Heat resistant grease. M M M P S S S S S S
041 Bearings regreasable via grease nipples. M M P P M M S S S S
043 SPM nipples. NA NA NA NA M M M M M M
from bearing.
P P P P M M M M M M
107 Pt100 2-wire in bearings NA NA NA NA NA NA R R R R
188 63-series bearings M M M M S S S S S S
194 2Z bearings greased for life at both ends S S S S S S R R R R
796 Grease nipples JIS B 1575 PT 1/8 Type A NA NA M M M M M M M M
797 Stainless steel SPM Nipples NA NA NA NA P P P P P P
798 Stainless steel grease nipples NA NA NA NA P P P P P P
142 “Manilla connection” P P P P P P P P P P
178 Stainless steel / acid proof bolts. M M M M M M M M M M
209 Non-standard voltage or frequency, (special wind-
ing).
P P P P P P P P P P
217 Cast iron D-end shield (on aluminium motor). M M M M R R R R R S
232 Cast iron N-end shield (on aluminium motor). NA NA NA NA R R R R R R
425 Corrosion protected stator and rotor core. P P P P P P P P P P
Cooling system
068 Metal fan. M M M M M M M M M M
075 Cooling method IC418 (without fan). P P P P NA NA NA NA NA NA
183 Separate motor cooling (fan axial, N-end). M M M P NA NA NA NA NA NA
Documentation
141 Binding dimension drawing. M M M M M M M M M M
Drain holes
065 Plugged existing drain holes. M M M M S S S S S S
Earthing Bolt
067 External earthing bolt. M M M M S S S S S S
094 Ex n design. M M M M NA NA NA NA NA NA
T= 125 °C, cat. 3D, IP55
M M M M M M M M M M
T= 125 °C, cat. 2D, IP65
P P P P NA NA NA NA NA NA
456 Ex nA design, fulﬁlling IEC 60079-15, with certiﬁcate. NA NA NA NA M M M M M M

6
1)
R = On request.
NA = Not applicable
Code 1)
/ Variant 90 100 112 132 160 180 200 225 250 280
480 Ex nA II acc. to ATEX directive 94/9/EC, temp. class
T3
NA NA NA NA M M M M M M
Heating elements
450 Heating element, 100-120V. M M M M M M M M M M
451 Heating element, 200-240V. M M M M M M M M M M
Insulation system
014 Winding insulation class H. P P P P NA NA NA NA NA NA
supply.
P P P P P P P P P P
(B5 from B3).
M M M NA NA NA M M M M
1001 (B34 from B3).
M M M M M NA NA NA NA NA
1001 (B35 from B3).
M M M M M M M M M M
(B14 from B5).
M M M M M NA NA NA NA NA
(B5 from B14).
M M M M NA NA NA NA NA NA
specify IM xxxx), (must be ordered for all mount-
ing arrangements exluding IM B3 (1001) and IM B5
(3001).
091 (IM 2001) foot/ﬂange mounted, DIN A-ﬂange, from
IM 1001 (B35 from B3).
(B14 from B3).
200 Flange ring holder. M M M M NA NA NA NA NA NA
229 Flange FT 130. M M M NA NA NA NA NA NA NA
235 Flange FF 165. M M M NA NA NA NA NA NA NA
236 Flange FT 165. NA NA NA M NA NA NA NA NA NA
243 Flange ring FF 215. P M M M NA NA NA NA NA NA
244 Flange ring FT 215. NA M M M NA NA NA NA NA NA
245 Flange FF 215. NA M M NA NA NA NA NA NA NA
253 Flange ring FF 265. NA NA NA M NA NA NA NA NA NA
254 Flange ring FT 265. NA NA NA M NA NA NA NA NA NA
255 Flange FF 265. NA NA NA M NA NA NA NA NA NA
260 Flange FT 115. M M NA NA NA NA NA NA NA NA

6
1)
R = On request.
NA = Not applicable
Code 1)
/ Variant 90 100 112 132 160 180 200 225 250 280
3601 (B34 from B14).
3601 (B35 from B14).
3001 (B34 from B5).
3001 (B35 from B5).
(B14 from B34).
(B5 from B34).
2101 (B35 from B34).
316 IM 1001 foot mounted, from IM 2001 (B3 from B35). M M M M NA NA NA NA NA NA
(B14 from B35).
(B5 from B35).
2001 (B34 from B35).
Painting
114 Special paint colour, standard grade. M M M M M M M M M M
179 Special paint specification. P P P P R R R R R R
Protection
005 Metal protective roof, vertical motor, shaft down. M M M M M M M M M M
072 Radial seal at D-end. M M M M M M M M M M
158 Degree of protection IP65. M M M P NA NA NA NA NA NA
211 Weather protected, IP xx W P P P P NA NA NA NA NA NA
403 Degree of protection IP56. M M P P M M NA NA NA NA
404 Degree of protection IP56, without fan and fan cover P P P P NA NA NA NA NA NA
784 Gamma-seal at D-end. M M NA NA M M M M M M
ous duty.
M M M M M M M M M M
003 Individual serial number. M M M M S S S S S S
004 Additional text on std rating plate (max 12 digits on
free text line)
NA NA M M NA NA NA NA NA NA
intermittent duty.
M M M M R R R R R R
098 Stainless rating plate. M M M M NA NA NA NA NA NA
135 Mounting of additional identification plate, stainless. M M M M NA NA NA NA NA NA
138 Mounting of additional identification plate, aluminium. M M M M M M M M M M
139 Additional identification plate delivered loose. M M M M M M M M M M
160 Additional rating plate affixed. M M M M M M M M M M
161 Additional rating plate delivered loose. M M M M M M M M M M
162 Rating plate fixed to stator. M M M M S S S S S S
163 Frequency converter rating plate. Rating data ac-
cording to quotation.

6
1)
R = On request.
NA = Not applicable
Code 1)
/ Variant 90 100 112 132 160 180 200 225 250 280
198 Aluminium rating plate. M M M M S S S S S S
Shaft & rotor
069 Two shaft extensions as per basic catalogue. P P P P R R R R R R
material.
P P P P R R R R R R
131 Motor delivered with half key (Key not exceeding
shaft diameter)
164 Shaft extension with closed key-way. S S S S S S S S S S
165 Shaft extension with open key-way. P P NA NA NA NA NA NA NA NA
design).
M M M M M M M M M M
M M M M M M M M M M
M M P P NA NA NA NA NA NA
125 Bimetal detectors, break type (NCC), (2x3 in series),
M M P P M M M M M M
M M P P M M M M M M
321 Bimetal detectors, closing type (NO), (3 in parallel),
325 Bimetal detectors, closing type (NO), (2x3 in paral-
lel), 150°C, in stator winding.
327 Bimetal detectors, closing type (NO), (3 in parallel,
130°C & 3 in parallel, 150°C), in stator winding.
435 PTC - thermistors (3 in series), 130°C, in stator
winding.
M M M M M M M M M M
winding.
M M M M M M S S S S
winding.
439 PTC - thermistors (2x3 in series), 150°C, in stator
winding.
M M M P M M M M M M
M M P M M M M M M M
445 Pt-100 2-wire in stator winding, 1 per phase NA NA NA NA M M M M M M
446 Pt-100 2-wire in stator winding, 2 per phase NA NA NA NA M M M M M M
Terminal box
015 Motor supplied in D connection. M M NA NA M M M M M M
016 9 terminals in terminal box P P P P NA NA NA NA NA NA
017 Motor supplied in Y connection. M M NA NA M M M M M M

6
Code 1)
/ Variant 90 100 112 132 160 180 200 225 250 280
018 D connection in terminal box (reconnection from Y),
single phase Steinmetz.
019 Larger than standard terminal box NA NA NA NA R R R R R NA
021 Terminal box LHS (seen from D-end). P P NA NA NA NA P P P P
022 Cable entry LHS (seen from D-end). NA NA NA NA P P P P P P
136 Extended cable connection, standard terminal box. M M NA NA R R R R R R
leads”.
180 Terminal box RHS (seen from D-end). P P P NA NA NA P P P P
187 Cable glands of non-standard design. NA NA NA NA R R R R R R
230 Standard metal cable glands. M M M M M M M M M M
375 Standard plastic cable gland M M M M NA NA NA NA NA NA
376 Two standard plastic cable glands M M M M NA NA NA NA NA NA
418 Separate terminal box for auxiliaries, std. material NA NA NA NA M M M M M M
731 Two standard metal cable glands. M M M M M M M M M M
Testing
140 Test confirmation M M M M M M M M M M
145 Type test report from a catalogue motor, 400V 50Hz. M M M M M M M M M M
batch.
M M M M M M M M M M
batch, customer witnessed.
M M M M M M M M M M
148 Routine test report. M M M M M M M M M M
149 Test according to separate test specification. M M M M R R R R R R
153 Reduced test for classification society. M M M M M M M M M M
221 Type test and multi-point load test with report for mo-
tor from specific delivery batch.
M M M M M M M M M M
M M M M M M M M M M
760 Vibration level test M M M M M M M M M M
761 Vibration spectrum test. NA NA NA NA R R R R R R
762 Noise level test. M M M M M M M M M M
763 Noise spectrum test. NA NA NA NA R R R R R R
764 Complete test with ABB frequency converter. NA NA NA NA R R R R R R
182 Pulse sensor mounted as specified. NA NA NA NA R R R R R R
470 Prepared for hollow shaft pulse tacho (L&L equiva-
lent).
472 1024 pulse tacho (L&L 861). NA NA NA NA R R R R R R
473 2048 pulse tacho (L&L 861). NA NA NA NA R R R R R R
570 Prepared for hollow shaft pulse tacho (L&L 503). NA NA NA NA M M M M M M
704 EMC cable gland. P P P P M M M M M M
Y/D starting
windings).
1)
R = On request.
NA = Not applicable

6
Code 1)
/ Variant 71 80 90 100 112 132 160 180 200 225 250
037 Roller bearing at D-end. NA NA NA NA NA NA M M M M M
040 Heat resistant grease. S S S S S S S S S S S
194 2Z bearings greased for life at both ends S S S S S S M M M M M
797 Stainless steel SPM Nipples NA NA NA NA NA NA M M M M M
798 Stainless steel grease nipples NA NA NA NA NA NA M M M M M
178 Stainless steel / acid proof bolts. M M M M M M M M M M M
Cooling system
068 Metal fan. M M M M M M M M M M M
Documentation
141 Binding dimension drawing. M M M M M M M M M M M
Drain holes
065 Plugged existing drain holes. M M M M M M M M M M M
Earthing Bolt
067 External earthing bolt. S S S S S S S S S S S
452 DIP/Ex tD acc. to ATEX directive 94/9/EC , T= 125 ºC, cat. 3D, IP55 M M M M M M M M M M M
453 DIP/Ex tD acc. to ATEX directive 94/9/EC , T= 125 ºC, cat. 2D, IP65 R R R R R R R R R R R
454 DIP/Ex tD acc. to ATEX directive 94/9/EC , T= 125 ºC, cat. 3D, IP65 M M M M M M M M M M M
456 Ex nA design, fulfilling IEC 60079-15, with certificate. R R R R R R R R R R R
480 Ex nA II acc. to ATEX directive 94/9/EC, temp. class T3 S S S S S S R R R R R
804 DIP/Ex tD, IEC 61241, T125 ºC, IP55 (zone 22) M M M M M M M M M M M
805 DIP/Ex tD, IEC 61241, T125 ºC, IP65 (zone 21) R R R R R R R R R R R
806 DIP/Ex tD, IEC 61241, T125 ºC, IP65 (zone 22) M M M M M M M M M M M
814 Ex tD (DIP) motors, temperature class T 150C M M M M M M M M M M M
Heating elements
450 Heating element, 100-120V. M M M M M M M M M M M
451 Heating element, 200-240V. M M M M M M M M M M M
008 IM 2101 foot/flange mounted, IEC flange, from IM 1001 (B34 from B3). M M M M M NA NA NA NA NA NA
009 IM 2001 foot/flange mounted, IEC flange, from IM 1001 (B35 from B3). M M M M M M M M M M M
047 IM 3601 flange mounted, IEC flange, from IM 3001 (B14 from B5). M M M M M M NA NA NA NA NA
066 Modified for non-standard mounting position (please specify IM xxxx),
(must be ordered for all mounting arrangements exluding IM B3 (1001)
and IM B5 (3001).
M M M M M M M M M M M
Painting
111 Offshore two-pack polyamide cured epoxy paint 160 µm. M M M M M M M M M M M
114 Special paint colour, standard grade. M M M M M M M M M M M
General purpose Non-sparking cast iron motors -
Variant codes
1)
R = On request.
NA = Not applicable

6
Code 1)
/ Variant 71 80 90 100 112 132 160 180 200 225 250
Protection
005 Metal protective roof, vertical motor, shaft down. M M M M M M R R R R R
157 Terminal box degree of protection IP65. R R R R R R R R R R R
158 Degree of protection IP65. M M M M M M R R R R R
403 Degree of protection IP56. M M M M M M R R R R R
404 Degree of protection IP56, without fan and fan cover NA NA NA NA NA NA P P P P P
002 Restamping voltage, frequency and output, continuous duty. M M M M M M R R R R R
135 Mounting of additional identification plate, stainless. M M M M M M M M M M M
139 Additional identification plate delivered loose. M M M M M M M M M M M
161 Additional rating plate delivered loose. M M M M M M M M M M M
421 VIK design (Verband der Industriellen Energie- und Kraftwirtschaft e.V.). M M M M M M R R R R R
775 Design according to SHELL DEP 33.66.05.31-Gen. January 1999 design. M M M M M M R R R R R
435 PTC - thermistors (3 in series), 130ºC, in stator winding. M M M M M M M M M M M
436 PTC - thermistors (3 in series), 150ºC, in stator winding. S S S S S S S S S S S
439 PTC - thermistors (2x3 in series), 150ºC, in stator winding. M M M M M M M M M M M
441 PTC - thermistors (3 in series, 130ºC & 3 in series, 150ºC),
in stator winding.
NA NA NA NA NA NA NA NA NA NA NA
Terminal box
400 4 x 90 degr turnable terminal box S S S S S S S S S S S
468 Cable entry from D-end. M M M M M M M M M M M
469 Cable entry from N-end. M M M M M M M M M M M
736 Standard cable gland EEx e acc. to EN-Standards S S S S S S S S S S S
Testing
140 Test confirmation M M M M M M M M M M M
145 Type test report from a catalogue motor, 400V 50Hz. M M M M M M M M M M M
148 Routine test report. M M M M M M M M M M M
1)
R = On request.
NA = Not applicable

6
IM 3601, IM B14
Motor
size M N P S T
90 115 95 140 M8 3
100 130 100 160 M8 3.5
112 130 110 160 M8 3.5
132 165 130 200 M10 3.5
Motor D GA F E L max
size poles poles poles poles poles A B B' C HD K H M N P S
2 4-8 2 4-8 2 4-8 2 4-8 2 4-8
M3AAN 90 S 24 24 27 27 8 8 50 50 282 282 140 100 – 56 212 10 90 165 130 200 12
90 L 24 24 27 27 8 8 50 50 307 307 140 125 – 56 212 10 90 165 130 200 12
100 28 28 31 31 8 8 60 60 349 349 160 140 – 63 236 12 100 215 180 250 15
112 28 28 31 31 8 8 60 60 361 361 190 140 – 70 258 12 112 215 180 250 14.5
132 38 41 41 41 10 10 80 80 447 447 216 140 178 89 295.5 12 132 265 230 300 14.5
M2AA 160 42 42 45 45 12 12 110 110 602.5 602.5 254 210 254 108 370 15 160 300 250 350 19
180 M 48 48 51.5 51.5 14 14 110 110 602.5 602.5 279 241 279 121 390 15 180 300 250 350 19
180 L 48 48 51.5 51.5 14 14 110 110 643.5 643.5 279 241 279 121 390 15 180 300 250 350 19
200 LA 55 55 59 59 16 16 110 110 711.5 711.5 318 267 305 133 425 18 200 350 300 400 19
200 L 2-4 55 55 59 59 16 16 110 110 732 732 318 267 305 133 425 18 200 350 300 400 19
225 M 55 65 59 64 16 18 110 140 773 843 356 286 1)
311 149 525.5 18 225 400 350 450 19
225 S – 60 – 64 – 18 – 140 – 803 356 286 311 1)
149 525.5 18 225 400 350 450 19
250 M 60 65 64 69 18 18 140 140 866 866 406 311 1)
349 168 571 22 250 500 450 550 19
M3AA 160 M/MA 2-8, 42 42 45 45 12 12 110 110 602.5 602.5 254 210 254 108 370 15 160 300 250 350 19
L 2-6, LB 2-4
160 L 8, LB 6-8 42 42 45 45 12 12 110 110 643.5 643.5 254 210 254 108 370 15 160 300 250 350 19
180 M2-4,L6-8,LB2 48 48 51.5 51.5 14 14 110 110 680 680 279 241 279 121 405 15 180 300 250 350 19
180 L 4, LB 4-8 48 48 51.5 51.5 14 14 110 110 700.5 700.5 279 241 279 121 405 15 180 300 250 350 19
200 MLD-2,-C 4 55 55 59 59 16 16 110 110 814 814 318 267 305 133 533 18 200 350 300 400 19
200 all exc. above 55 55 59 59 16 16 110 110 774 774 318 267 305 133 533 18 200 350 300 400 19
225 SMB, -C 55 55 59 59 16 16 110 110 836 836 356 286 311 149 578 18 225 400 350 450 19
225 SMA,-B,-C 60 60 64 64 18 18 140 140 866 891 356 286 311 149 578 18 225 400 350 450 19
225 SMD 55 60 59 64 16 18 110 140 861 891 356 286 311 149 578 18 225 400 350 450 19
250 SMA,-B 60 65 64 69 18 18 140 140 875 875 406 311 349 168 626 22 250 500 450 550 19
250 SMC 60 65 64 69 18 18 140 140 900 900 406 311 349 168 626 22 250 500 450 550 19
280 SMA 65 75 69 79.5 18 20 140 140 875 875 457 368 419 190 656 24 280 500 450 550 19
280 SMB 65 75 69 79.5 18 20 140 140 900 900 457 368 419 190 656 24 280 500 450 550 19
280 SMB 65 75 69 79.5 18 20 140 140 900 900 457 368 419 190 656 24 280 500 450 550 19
Non-sparking motors, aluminum frame
Dimension drawings
Sizes 90-200 Sizes 225-250
Tolerances:
A, B ± 0,8
ISO m6 > Ø 50mm
F, FA ISO h9
H -0.5
N ISO j6
C, CA ± 0.8
L
C B
B’
E
H
K
A
HD
GA
FD
P N
45°
S
M
M
S
45°
M000267
M000268
M000270
M000269
M000271
M000272

6
IM 3601, IM B14
Motor Flange
size size P M N S T
71 C105 105 85 70 M6 2.5
71 C140 140 115 95 M8 3
80 C120 120 100 80 M6 3
80 C160 160 130 110 M8 3.5
90 C140 140 115 95 M8 3
90 C160 160 130 110 M8 3.5
100, 112 C160 160 130 110 M8 3.5
100, 112 C200 200 165 130 M10 3.5
Dimension drawings
Tolerances:
A, B ± 0,8
ISO m6 > Ø 50mm
F, FA ISO h9
H -0.5
N ISO j6
C, CA ± 0.8
M000354
IM 1001. IM B3 AND IM 3001. IM B5 IM 1001. IM B3 IM 3001. IM B5
Motor
size
D
poles
GA
poles
F
poles
E
poles
L max
poles
A B BB C HD K H M N P S
2 4-8 2 4-8 2 4-8 2 4-8 2 4-8
71 14 14 16 16 5 5 30 30 255 255 112 90 115 45 200 7 71 130 110 160 10
80 19 19 21.5 21.5 6 6 40 40 285 285 125 100 135 50 230 10 80 165 130 200 12
90 S 24 24 27 27 8 8 50 50 310 310 140 100 140 56 250 10 90 165 130 200 12
90 L 24 24 27 27 8 8 50 50 335 335 140 125 165 56 250 10 90 165 130 200 12
100 28 28 31 31 8 8 60 60 380 380 160 140 180 63 285 12 100 215 180 250 15
112 28 28 31 31 8 8 60 60 395 395 190 140 190 70 310 12 112 215 180 250 15
132 S 38 38 41 41 10 10 80 80 465 465 216 140 205 89 350 12 132 265 230 300 15
132 M 38 38 41 41 10 10 80 80 505 505 216 178 240 89 350 12 132 265 230 300 15
160M 42 42 45 45 12 12 110 110 605 605 254 210 265 108 425 15 160 300 250 350 19
160L 42 42 45 45 12 12 110 110 650 650 254 254 310 108 425 15 160 300 250 350 19
180M 48 48 51.5 51.5 14 14 110 110 680 680 279 241 315 121 465 15 180 300 250 350 19
180L 48 48 51.5 51.5 14 14 110 110 720 720 279 279 350 121 465 15 180 300 250 350 19
200 55 55 59 59 16 16 110 110 775 775 318 305 380 133 510 19 200 350 300 400 19
225S - 60 - 64 - 18 - 140 - 825 356 286 380 149 560 19 225 400 350 450 19
225M 55 60 59 64 16 18 110 140 820 850 356 311 405 149 560 19 225 400 350 450 19
250 60 65 64 69 18 18 140 140 930 930 406 349 455 168 645 24 250 500 450 550 19

6
ABB Oy
Motors
Postal address
P.O. Box 633
FI-65101 Vaasa
FINLAND
Visiting Address
FI-65320 Vaasa
FINLAND
Telephone
+358 10 22 11
Telefax
+358 10 22 47372
Internet
www.abb.fi
e-mail:
@fi.abb.com
0763403-0
Domicile: Helsinki
Motors
P.O. Box 633
standards:
EN 60079-0 (2004), EN 60079-1 (2004), EN 60079-7 (2003), EN 60079-15 (2005), EN 61241-0 (2006), EN
61241-1 (2004/2006).
Signed by
----------------------------------
Jouni Ikäheimo
Date February 16th
, 2007
M000209
M000356
M000223

6
Non-sparking motors with aluminum frame in brief, basic design
Motor size M3AAN
90 100 112 132
Surface treatment Munsell blue 8B 4.5/3.25 / NCS 4822-B05G.
Powder coating based on polyster resin,
t 30 Pm.
Polyester powder paint t 50 Pm.
Loose feet, bolted to the stator.
Aluminum alloy
Surface treatment Munsell blue 8B 4.5/3.25 / NCS 4822-B05G.
One-component polyester resin powder,
t 30 Pm.
Polyester powder paint t 50 Pm.
Bearings D-end 2-pole 6205-2Z/C3 6306-2Z/C3 6206-2Z/C3 6208-2Z/C3
4-8 pole
N-end 2-pole 6204-2Z/C3 6205-2Z/C3 6205-2Z/C3 6206-2Z/C3
4-8 pole
Axially-locked
bearings
Inner bearing cover D-end D-end 1)
1)
Foot motor - a spring washer at N-end presses the rotor against D-end.
Flange motor - inner bearing cover and spring washer at N-end.
N-end Labyrinth seal.
Lubrication Permanently lubricated bearings. Grease for bearing temperatures -40 to +160°C.
Terminal box Material Die-cast aluminum alloy. Die-cast aluminum alloy, base integ-
rated with stator.
Surface treatment Similar to stator. Phosphated, polyester paint.
Connections Knock-out openings 2 x (M25 + M20)
Terminal box Screw terminal. 6 terminals. Cable lugs. 6 terminals.
Screws M4 M5
Max Cu-area, mm2 6 10
Fan Material Polypropylene. Reinforced with 20% glass ﬁbre.
Fan cover Material Steel sheet. Polypropylene.
Winding protection Optional.
Key ways Closed key way.
Heating elements 25 W
Enclosure IP 55.

6
Motor size M3AA
160 180 200 225 250 280
Stator Material Diecast aluminum alloy. Extruded aluminum alloy.
Paint colour shade Munsell blue 8B 4.5/3.25 / NCS 4822 B05G
Paint Polyester powder paint t 50 Pm.
Feet Material Aluminum alloy, integrated
with stator.
Aluminum alloy, bolted to the stator.
Frame size 250, 2-pole, cast iron.
Cast iron
Bearing end shields Material Die-cast alu-
minum alloy.
Flanged bearing end shields of cast iron,
other die-cast aluminum alloy
Cast iron
Paint colour shade Munsell blue 8B 4.5/3.25 / NCS 4822 B05G
Bearings D-end 2-pole 6309-2Z/C3 6310-2Z/C3 6312/C3 6313/C3 6315/C3 6315/C3
4-8 -pole 6316/C3
N-end 2-pole 6209-2Z/C3 6209-2Z/C3 6210/C3 6212/C3 6213/C3 6213/C3
4-8 pole 6213/C3
Axially-locked bea-
rings
Lubrication Permanently lubricated shiel-
ded bearings. Grease temp.
range -40 to 160°C.
Valve lubrication. Grease for bearing temperatures -40 to
+150°C.
Surface treatment Similar to stator. Phosphated. Polyester paint.
Screws Steel 5G. Galvanised.
Connections Knock-out openings 2 x (2 x M40 + M16) 2 x FL21
Flange-openings 2 x FL 13.2 x M40 2 x M63
1 X M16
Flange-openings 2 x FL 21.2 x M63 (voltage code S)
Terminal box Cable lugs. 6 terminals.
Screws M6 M10
Max Cu-area, mm2
35 70
Stator winding Material Copper.
Impregnation Polyester varnish. Tropicalised.
Stator winding tem-
perature sensors
Optional PTC-thermistors, 150°C
Rotor winding Diecast aluminum.
Key ways Closed keyway.
Heating elements 25 W 50 W
Enclosure IP 55.

6
Motor size M2AA
160 180 200 225 250
Paint colour shade Munsell blue 8B 4.5/3.25 / NCS 4822-B05G.
Feet Material Aluminum alloy,
Integrated with
the stator.
Cast iron bolted to the stator.
Bearing end shields Material Die-cast alumi-
num alloy.
Flanged bearing end shields of cast iron, others diecast aluminum.
Bearings D-end 2-8 pole 6309-2Z/C3 6310-2Z/C3 6312/C3 6313/C3 6315/C3
N-end 2-8 pole 6209-2Z/C3 6209-2Z/C3 6209-2Z/C3 6210/C3 6212/C3
Axially-locked bearings Inner bearing cover D-end
Lubrication Permanently lubricated bearings. Grease for bear.
temp. -40 to +160°C.
Valve lubrication. Grease
temp. range -40 to 150°C.
Terminal box Material Die-cast aluminum alloy, base integrated with stator. Deep-drawn steel sheet,
bolted to stator.
Connections Knock-out openings 2 x (2 x M40 + M16)
Flange-openings 2 x FL 13.2 x M40
Flange-openings 2 x FL 21.2 x M63 (for voltage
code S)
Screws M6 M10
Max Cu-area, mm2
35 70
Fan cover Material Steel sheet. Phosphated. Polyester paint.
Impregnation Polyester varnish.Tropicalised.
Stator winding temp.
sensors
Optional PTC-thermistors, 150°C
Rotor winding Material Diecast aluminum.
Key ways Closed keyway.
Drain holes Drain holes with closable plastic plugs, Closed on delivery.
Enclosure IP 55.

6
General purpose Non-sparking motors with cast iron frame in brief,
basic design
Motor size 71 80 90 100 112 132
Stator Material Cast iron HT150 GB/T 9439
Paint Two-pack 821 acid polyurethane enamel, thickness t 80 µm.
Bearing end shields Material Cast iron HT150 GB/T 9439
Bearings D-end 6202 WC3 6204 DDU C3 6205 DDU C3 6206 DDU C3 6207 DDU C3 6208 DDU C3
N-end 6202 WC3 6204 DDU C3 6205 DDU C3 6206 DDU C3 6206 DDU C3 6207 DDU C3
Axially-locked bearings Inner bearing cover Stop ring locked at D-end
Bearing seal Gamma ring as standard, radial seal on request
Lubrication Permanent grease lubrication.
SPM-nipples –
Rating plate Material Stainless steel 0.80 Cr 18 Ni9
Terminal box Frame material Cast iron HT150 GB/T 9439
Cover material Cast iron HT150 GB/T 9439
Screws Steel 8.8, zinc-plated and passivated
Connections Cable entries 1xM20x1.5 +
1xM16x1.5
1xM25x1.5 + 1xM16x1.5 1xM32x1.5 + 1xM16x1.5
Fan Material Reinforced glass ﬁber
Winding protection 3 PTC thermistors 150°C as standard
Key ways Open key way
Heating elements Optional 10 W 20 W 30 W 40 W

6
General purpose Non-sparking motors with cast iron frame in brief,
basic design
Motor size 160 180 200 225 250
Stator Material Cast iron HT150 GB/T 9439
Bearing end shields Material Cast iron HT150 GB/T 9439 Cast iron HT200 GB/T
9439 except vertical
mounted
Bearings D-end 6309/C3 6310/C3 6312/C3 6313/C3 6314/C3
N-end 6209/C3 6210/C3 6212/C3 6213/C3 6214/C3
Axially-locked bearings Inner bearing cover Inner bearing cover locked at D-end
Bearing seal Gamma-ring as standard, radial seal on request
Lubrication Regreasable bearings as standard, lifetime lubrication as option
Rating plate Material Stainless steel 0.80 Crt8Ni9
Terminal box Frame material Cast iron HT150 GB/T 9439 Cast iron HT200 GB/T
9439
Cover material Cast iron HT150 GB/T 9439 Cast iron HT200 GB/T
9439
Screws Steel 8.8, zinc-plated and passivated
Connections Cable entries 2xM40x1.5 + 1xM16x1.5 2xM50x1.5 + 1xM16x1.5 2xM63x1.5 + 1xM16x1.5
Fan Material Reinforced glass ﬁber
Winding protection 3 PTC thermistors 150°C as standard
Key ways Closed key-way
Enclosure IP 55, higher protection as standard

Dust ignition proof motors /
Protection by enclosure
low voltage motors,
Sizes 71 - 400, 0.25 to 710 kW
Mechanical design..............................144
Ordering information..........................147
Technical data..................................... 148
Rating plates........................................164
Variant codes.......................................165
Dimension drawings...........................185
Dust ignition proof motors in brief....190
ABB / Cat. BU / Ex-motors / Dust ignition protection EN 01-2008 143
> Motors
7

144 ABB / Cat. BU / Ex-motors / Dust ignition protection EN 01-2008
7
Terminal boxes
The terminal boxes of the dust ignition proof motors
comply with the requirements of the standards for this
type and have the same IP protection as the motors.
Furthermore they prevent all ignition sources such as
sparks, excessive overheating etc., and are equipped
with no self-loosening terminals.
motor versions. The terminal box is either rotatable or
at least allows cable entry from either side which gives
a choice of connection possibilities.
Aluminum motors
In sizes 71 to 180 the terminal box is made of
aluminum, the bottom section is integrated with the
stator and provided with two openings on both sides.
Cable glands are not supplied.
Cast iron motors
4x90°.
In sizes 80-132 the motors are provided with cast iron
terminal boxes with tapped cable entry holes on one
side. Cable glands can be provided on request, see
variant codes. In frame sizes 160-250 the terminal box
has two main metric cable entries; both are equipped
with cable glands of closed type. In frame sizes 280-400
the terminal box is equipped with cable glands, if metric,
or cable glands as standard.
Cable entries and cable glands
Cast iron motors up to size 132 are delivered without
cable glands but are delivered with threaded cable
entries suitable for the following cable gland sizes.
In cast iron motor sizes 160 to 400 the terminal box
is equipped with cable glands or cable boxes as
standard.
Aluminum motors are delivered without cable glands
and knock-out openings as standard.
Cable glands for dust ignition proof motors are a very
important equipment. To ensure that they are correctly
dimensioned according to the cables used, we
recommend that the installator of the motors supplies
them.
Motors for dust ignition protection (DIP/Ex tD)
Motor size Opening Metric cable
entry
Cable diameter mm,
min-max
Max.connection
cable area mm2
Terminal
bolt size
Terminal screw
size
90-100 Knockout opening 2x(2xM25+M20) 2x(2xD11-16) 6 M4
112-132 Knockout opening 2x(M25+M20) 2x(D11-16+D9-13) 10 M5
160-180 Knockout opening 2x(2xM40+M16) 2x(2xD19-27+D5-9) 35 M6
200 1)
Knockout opening 1x(2xM40+M16) 1x(2xD19-27+D5-9) 35 M6
200-250 2)
2 x FL 13 1x(2xM40+M16) 1x(2xD32-42+D5-9) 70 M10
200-250 3)
2 x FL 21 1x(2xM63+M16) 1x(2xD32-42+D5-9) 70 M10
280 2 x FL 21 1x(2xM63+M16) 1x(2xD32-42+D5-9) 70 M10
1)
M2AA
2)
M3AA/M2AA; M2AA 200 excluded. M3AAD with voltage code D.
3)
M3AAD with voltage code S.
plug
Single core
cross-section1)
mm²
Terminal
bolt size
6 x
Outer cable
shealth mm
Thread Cable gland Outer cable
shealth
mm
80-90 1xM25 (1x)M25x1.5 - 10 M5 10-16 1xM20x1.5 1xM20x1.5 8-14
100-132 2xM32 (2x)M32x1.5 - 10 M5 16-21 1xM20x1.5 1xM20x1.5 8-14
160-180 2xM40 (2x)M40x1.5 - 35 M6 18-27 2xM20x1.5 2xM20x1.5 8-14
200-250 2xM50 (2x)M50x1.5 - 70 M10 26-35 2xM20x1.5 2xM20x1.5 8-14
1)

7
Motor
sizes
Voltage/
freq.
code
Ter-
minal
box
Top-mounted
Flange or adapter
Side-mounted
Flange or adapter
Cable box
or cable gland
Gland
thread
Cable
diameter
Max.conn
cable
area mm2
355 ML 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
750 r/min (8 poles)
355 LK 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
LKA, LKB
400 LC, LKC 750 3GZF294730-944 3GZF294730-759 3GZF294730-301 2x Ø48-60 4x240
D = 380-420 VD 50 Hz, 660/690 VY 50 Hz, 440-480 VD 60 Hz
E = 500 VD 50 Hz, 575 VD 60 Hz
Cast iron motor sizes 280-400 – Co-ordination of terminal boxes and cable entries

M3GP 280 - 315 M3GP 355 - 400
Flange
3GZF294730-749 (M3GP 280)
3GZF294730-753 (M3GP 315)
3GZF294730-942
3GZF294730-944
3GZF294730-945
Cable box
3GZF294730-301
Cable box
3GZF294730-501
Adapter E-D
3GZF294730-759
Inlet c e f g d
C 62 193 62 193 M8
D 100 300 80 292 M10
E 115 370 100 360 M12
Cable gland
3GZF294730-613
7
M000191
M000193
M000192
M000210
M000211
M000088

7
Code letters for supplementing the product code - cast iron motors
71-132 220-240 V' 440-480 VY 380-420 V' 440-480V' 415 V' 500 V' 575 V' 500 VY 660 V' 690 V' Other rated
380-420 VY - 660-690 VY - - - - - - - voltage,
160-355 220, 230 V' - 380, 400, 415 V' 440V' 415 V' 500 V' - 500 VY 660 V' 690 V' connection or
380,400,415VY 440VY 660, 690 VY - - - - - - - frequency,
690 V maximum
Sample order
Positions 1 to 4
with aluminum frame, dust ignition proof
3GBA/3GGP = Totally enclosed fan cooled squirrel cage motor
with cast iron frame, dust ignition proof
Positions 5 and 6
IEC-frame
07 = 71 13 = 132 25 = 250
08 = 80 16 = 160 28 = 280
09 = 90 18 = 180 31 = 315
10 = 100 20 = 200 35 = 355
11 = 112 22 = 225
Position 7
Speed (Pole pairs)
1 = 2 poles
2 = 4 poles
3 = 6 poles
4 = 8 poles
5 = 10 poles
Position 8 to 10
Serial number
Position 11
- (dash)
Motor size
A B C D, E, F, G
M3GP 160 MLA 3GGP 161 410- A D G 003 etc.
1 2 3 4 5 6 7 8 91011 12 13 14
A Motor type
B Motor size
C Product code
F Generation code
G Variant codes
Position 12
from D-end
Position 13
See table below
Position 14
Generation code
A, B, C...
Motor type M3GP 160 MLA
Pole number 2
Rated output 11 kW
Product code 3GBP161410-ADG
Other rated
voltage,
connection
or frequency,
690 V
maximum
Code letters for supplementing the product code - aluminum motors
size 50 Hz 60 Hz 50 Hz 60 Hz 50 Hz 50 Hz 50 Hz 50 Hz 50 Hz
56-100 220-240 V' 440-480 VY 380-420 V' 440-480 V' - 500 V'1)
500 VY 660 V'1
) 690 V'1
)
380-420 VY 660-690 VY -
112-132 220-240 V' - 380-420 V' 440-480 V' 415 V' 500 V' 500 VY 660 V' 690 V'
380-420 VY 440-480 VY 660-690 VY -
M2AA 160-250 230 V' - 400 V' - - 500V' - - -
400 VY - 690 VY -
M3AA 160-280 220, 230 V' - 380,400,415V' 440 V' 415 V' 500 V' 500 VY 660 V' 690 V'
380,400,415 VY 440 VY 660, 690 VY -
1
) On request.
NOTE: By frame sizes 90-100 and Category 2 for frame sizes 112-280 max. 500 V.

7
1)
Note: When ordering motors, the following variant codes have to be added:
acc. to ATEX 453 ‘DIP/Ex tD acc. to ATEX directive 94/9/EC, T=125°C, cat. 2D, IP65’
acc. to IEC 805 ‘DIP/Ex tD, IEC 61241, T125°C, IP55 (zone 21)’
The two bullets in the product code indicate choice of mounting arrangement, voltage and frequency (see ordering information.
Motors are certiﬁed for the voltages 380-415 VD/660-690 VY 50 Hz and 440 V 60 Hz acc. to IEC 60034-1. Data for other voltages < 690 V on request.
Dust ignition proof motors 56-280
Technical data for Category 2 D - T = 125°C - IP 65 - aluminum motors
IC 411; Insulation class F. temperature rise class B
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J = 1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.37 M2VAD 71 A 3GVA 071 001-••C 2840 77.1 76.5 0.72 1 5.5 1.25 3.8 3.9 0.0004 5.5 58
0.55 M2VAD 71 B 3GVA 071 002-••C 2830 79.2 78.2 0.76 1.35 5.7 1.86 3.6 3.7 0.00045 6.5 58
0.75 M2VAD 80 A 3GVA 081 001-••B 2870 81.2 79.3 0.75 1.8 6.2 2.49 2.9 3.6 0.000722 9 60
1.1 M2VAD 80 B 3GVA 081 002-••B 2850 81.4 79.5 0.78 2.5 6.1 3.69 2.3 3.5 0.000763 11 60
1.5 M3AAD 90 S 3GAA 091 001-••E 2870 80.1 76.2 0.82 3.35 5.5 5 2.4 3.0 0.0019 13 63
2.2 M3AAD 90 L 3GAA 091 002-••E 2880 83.6 79.0 0.87 4.37 7.0 7.5 2.7 3.0 0.0024 16 63
3 M3AAD 100 L 3GAA 101 001-••E 2900 86.0 84.1 0.88 5.95 7.5 10 2.7 3.6 0.0041 21 65
4 M3AAD 112 M 3GAA 111 001-••B 2850 86.0 86.2 0.91 7.4 7.5 13.4 2.8 3.0 0.01 25 63
5.5 M3AAD 132 SA 3GAA 131 001-••B 2855 86.0 86.6 0.88 10.5 7.8 18.4 3.2 3.4 0.014 37 75
7.5 M3AAD 132 SB 3GAA 131 002-••B 2860 88.0 86.2 0.89 13.9 8.5 25.1 3.4 3.6 0.016 42 73
11 M2AA 160 MA 3GAA 161 111-••A 2915 88.4 88.9 0.89 20.5 6.1 36 2.1 2.5 0.039 73 73
11 M3AA 160 MA 3GAA 161 101-••C 2930 91.0 91.2 0.88 20 6.2 36 2.1 2.8 0.039 73 69
15 M2AA 160 M 3GAA 161 112-••A 2900 89.5 89.9 0.90 27 6.1 49.4 2.4 2.6 0.047 84 75
15 M3AA 160 M 3GAA 161 102-••C 2920 91.3 91.7 0.90 26.5 6.4 49 2.3 2.7 0.047 84 69
18.5 M2AA 160 L 3GAA 161 113-••A 2915 90.4 90.7 0.91 32.5 6.8 61 2.6 3.0 0.053 94 73
18.5 M3AA 160 L 3GAA 161 103-••C 2920 92.4 93.1 0.91 32 7.2 61 2.6 2.9 0.053 94 69
22 M2AA 180 M 3GAA 181 111-••A 2925 91.5 91.7 0.89 39 8.0 72 2.8 3.2 0.06 108 75
22 M3AA 180 M 3GAA 181 101-••C 2930 92.8 93.3 0.89 38.5 7.2 71 2.7 3.0 0.077 119 69
30 M2AA 200 LA 3GAA 201 011-••A 2945 92.0 92.0 0.88 53 7.9 97 3.0 3.7 0.094 139 75
30 M3AA 200 MLA 3GAA 201 001-••C 2955 93.2 93.2 0.88 53 8.5 97 2.9 3.1 0.15 175 72
37 M2AA 200 L 3GAA 201 012-••A 2945 92.8 92.9 0.89 65 8.2 120 3.1 3.6 0.115 170 75
37 M3AA 200 MLB 3GAA 201 002-••C 2950 93.6 93.7 0.89 64 7.2 120 2.3 2.9 0.18 200 72
45 M2AA 225 M 3GAA 221 011-••A 2940 93.0 93.0 0.88 80 7.7 146 2.8 3.0 0.21 209 75
45 M3AA 225 SMB 3GAA 221 001-••C 2960 94.1 93.9 0.88 79 7.7 145 2.5 2.9 0.26 235 74
55 M2AA 250 M 3GAA 251 011-••A 2960 93.5 93.8 0.90 95 7.3 177 2.8 3.0 0.31 277 74
55 M3AA 250 SMA 3GAA 251 001-••C 2970 94.2 93.8 0.89 95 7.9 177 2.4 3.0 0.49 285 75
75 M3AA 280 SMA 3GAA 281 001-••C 2970 94.7 94.4 0.90 127 8.2 241 2.7 3.2 0.57 375 75
0.68 M2VAD 71 BB 3GVA 071 003-••C 2800 78.9 77.4 0.82 1.59 5.2 2.33 3.2 3.3 0.00045 6.5 58
0.75 M2VAD 71 BC 3GVA 071 004-••C 2800 78.5 77.9 0.85 1.7 5.1 2.57 3.1 3.2 0.00045 6.5 58
1.5 M2VAD 80 C 3GVA 081 003-••B 2840 82.4 82.2 0.83 3.16 5.5 5.13 2.8 3.1 0.001093 11.5 60
2.7 1)
M3AAD 90 LB 3GAA 091 003-••E 2860 80.7 83.5 0.86 5.7 7.0 9 2.6 3.0 0.0027 18 68
4 1)
M3AAD 100 LB 3GAA 101 002-••E 2900 85.0 84.3 0.86 8.1 7.5 13 2.7 3.6 0.005 25 68
5.5 1)
M3AAD 112 MB 3GAA 111 002-••B 2855 86.5 87.1 0.93 9.9 7.3 18.4 2.7 2.9 0.012 33 66
9.2 1)
M3AAD 132 SBB 3GAA 131 004-••B 2825 86.0 88.2 0.93 16.6 7.3 31.1 3.2 3.5 0.022 57 74
11 1)
M3AAD 132 SC 3GAA 131 003-••B 2835 87.0 87.4 0.93 19.6 8.0 37 3.2 3.3 0.022 57 73
45 M3AA 200 MLC 3GAA 201 003-••C 2950 94.1 94.5 0.89 78 8.2 146 3.0 3.2 0.19 205 72
55 M3AA 225 SMC 3GAA 221 002-••C 2960 94.5 94.6 0.89 95 7.3 177 2.8 3.0 0.29 260 74
75 M3AA 250 SMB 3GAA 251 002-••C 2970 95.0 94.9 0.90 127 8.6 241 2.7 3.3 0.57 375 75

7
1)
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J = 1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.25 M2VAD 71 A 3GVA 072 001-••C 1410 70.4 69.1 0.71 0.74 4.3 1.71 2.7 2.9 0.00066 5.5 45
0.37 M2VAD 71 B 3GVA 072 002-••C 1420 74.6 72.1 0.69 1.05 4.4 2.51 2.6 2.8 0.00089 6.5 45
0.55 M2VAD 80 A 3GVA 082 001-••B 1390 75.3 73.1 0.76 1.4 4.6 3.75 2.6 2.9 0.001257 9 50
0.75 M2VAD 80 B 3GVA 082 002-••B 1410 78.2 75.6 0.74 1.9 4.7 5.08 3.5 3.9 0.001565 10.5 50
1.1 M3AAD 90 S 3GAA 092 001-••E 1410 77.5 76.4 0.81 2.59 5.0 7.5 2.2 2.7 0.0032 13 50
1.5 M3AAD 90 L 3GAA 092 002-••E 1420 80.3 78.1 0.79 3.45 5.0 10 2.4 2.9 0.0043 16 50
2.2 M3AAD 100 LA 3GAA 102 001-••E 1430 83.0 82.7 0.81 4.8 5.5 15 2.4 2.9 0.0069 21 64
3 M3AAD 100 LB 3GAA 102 002-••E 1430 85.0 83.9 0.81 6.48 5.5 20 2.5 2.9 0.0082 24 66
4 M3AAD 112 M 3GAA 112 001-••B 1435 84.5 83.9 0.80 8.6 7.0 26.6 2.9 3.1 0.015 27 60
5.5 M3AAD 132 S 3GAA 132 001-••B 1450 87.0 87.7 0.83 11.1 7.3 36.2 2.2 3.0 0.031 40 66
7.5 M3AAD 132 M 3GAA 132 002-••B 1450 88.0 88.6 0.83 14.8 7.9 49.4 2.5 3.2 0.038 48 66
11 M2AA 160 M 3GAA 162 111-••A 1460 89.1 89.8 0.81 22 6.5 72 2.7 2.6 0.067 75 62
11 M3AA 160 M 3GAA 162 101-••C 1460 92.0 92.7 0.81 21.5 7.8 72 3.3 3.2 0.091 94 62
15 M2AA 160 L 3GAA 162 112-••A 1460 90.4 91.0 0.82 29 7.1 98 2.7 3.3 0.088 92 62
15 M3AA 160 L 3GAA 162 102-••C 1460 91.8 92.5 0.82 29 8.1 98 3.0 3.6 0.102 103 62
18.5 M2AA 180 M 3GAA 182 111-••A 1460 91.1 91.5 0.81 36.5 7.6 121 3.1 3.5 0.102 110 64
18.5 M3AA 180 M 3GAA 182 101-••C 1470 92.3 92.9 0.84 35 7.0 120 2.9 2.9 0.161 124 62
22 M2AA 180 L 3GAA 182 112-••A 1460 91.8 92.3 0.82 42 7.9 143 3.0 3.8 0.127 128 64
22 M3AA 180 L 3GAA 182 102-••C 1470 93.1 93.9 0.85 40 7.1 143 3.1 3.3 0.225 161 63
30 M2AA 200 L 3GAA 202 011-••A 1470 92.0 92.1 0.80 59 7.8 195 3.0 3.4 0.225 177 67
30 M3AA 200 MLB 3GAA 202 001-••C 1475 93.4 94.0 0.84 55 7.5 194 2.5 2.8 0.34 205 63
37 M2AA 225 S 3GAA 222 011-••A 1475 92.8 93.0 0.85 68 6.8 240 3.0 3.1 0.35 216 68
37 M3AA 225 SMA 3GAA 222 001-••C 1480 93.6 93.8 0.84 68 7.6 239 3.1 3.3 0.37 215 66
45 M2AA 225 M 3GAA 222 012-••A 1475 93.0 93.1 0.84 84 8.1 291 3.5 3.2 0.41 237 68
45 M3AA 225 SMB 3GAA 222 002-••C 1480 94.2 94.4 0.83 83 7.6 291 2.8 3.0 0.42 230 66
55 M2AA 250 M 3GAA 252 011-••A 1475 93.7 94.3 0.84 98 6.8 356 2.5 2.6 0.5 286 66
55 M3AA 250 SMA 3GAA 252 001-••C 1480 94.6 94.9 0.86 98 7.6 355 3.1 3.0 0.72 275 67
72 M3AA 280 SMA 3GAA 282 001-••C 1475 94.6 95.0 0.88 126 7.4 466 3.2 3.1 0.88 380 67
0.45 M2VAD 71 BB 3GVA 072 003-••C 1390 75.5 75.3 0.76 1.15 4.1 3.11 2.1 2.3 0.00089 6.5 45
0.55 M2VAD 71 C 3GVA 072 004-••C 1410 77.3 76.9 0.73 1.45 4.8 3.74 2.7 2.9 0.0011 7 45
0.95 M2VAD 80 C 3GVA 082 003-••B 1410 78.9 77.9 0.75 2.35 4.3 6.44 2.9 3.3 0.001948 11 50
1.1 M2VAD 80 C 3GVA 082 004-••B 1390 74.7 76.6 0.77 2.8 4.3 7.8 3.1 2.3 0.001948 11 50
1.85 1)
M3AAD 90 L 3GAA 092 003-••E 1390 79.5 78.1 0.80 4.4 4.5 13 2.2 2.4 0.0043 16 50
2.2 1)
M3AAD 90 LB 3GAA 092 004-••E 1390 80.3 81.0 0.83 4.85 4.5 15 2.2 2.4 0.0048 17 50
4 1)
M3AAD 100 LC 3GAA 102 003-••E 1420 81.0 81.7 0.82 8.65 5.5 27 2.5 2.8 0.009 25 60
5.5 1)
M3AAD 112 MB 3GAA 112 002-••B 1425 84.5 83.5 0.83 11.4 7.1 36.9 2.8 3.1 0.018 34 60
9.2 1)
M3AAD 132 MBA 3GAA 132 004-••B 1450 88.0 88.6 0.85 17.8 7.3 60 2.0 2.8 0.048 59 63
11 1)
M3AAD 132 MB 3GAA 132 003-••B 1450 88.0 89.4 0.86 21 8.3 72 2.5 2.7 0.048 59 66
55 M3AA 225 SMC 3GAA 222 003-••C 1480 94.6 95.0 0.84 100 7.5 356 3.5 3.0 0.49 265 66

7
1)
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J = 1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
72 M3AA 250 SMB 3GAA 252 002-••C 1475 94.6 95.0 0.88 126 7.4 466 3.2 3.1 0.88 335 67
0.18 M2VAD 71 A 3GVA 073 001-••C 920 61.1 57.7 0.69 0.64 2.9 1.88 2.1 2.2 0.00063 5.5 42
0.25 M2VAD 71 B 3GVA 073 002-••C 920 64.9 62.3 0.65 0.86 3.2 2.61 2.5 2.7 0.00081 6.5 42
0.37 M2VAD 80 A 3GVA 083 001-••B 925 72.9 70.8 0.72 1.04 3.8 3.82 3.1 3.4 0.001842 9 47
0.55 M2VAD 80 B 3GVA 083 002-••B 925 73.3 71.9 0.71 1.55 3.4 5.68 2.9 3.1 0.002176 10 47
0.75 M3AAD 90 S 3GAA 093 001-••E 930 71.5 70.7 0.67 2.36 4.0 7.5 1.9 2.3 0.0032 13 44
1.1 M3AAD 90 L 3GAA 093 002-••E 930 74.4 72.5 0.69 3.25 4.0 11 2.1 2.4 0.0043 16 44
1.5 M3AAD 100 L 3GAA 103 001-••E 950 80.0 77.0 0.71 3.92 4.5 15 1.9 2.3 0.0082 23 49
2.2 M3AAD 112 M 3GAA 113 001-••B 940 80.5 79.3 0.74 5.4 5.6 22.3 2.1 2.7 0.015 27 66
3 M3AAD 132 S 3GAA 133 001-••B 960 84.5 82.7 0.75 6.9 6.1 29.8 2.0 2.6 0.031 39 57
4 M3AAD 132 MA 3GAA 133 002-••B 960 85.5 83.1 0.78 8.7 7.1 39.7 2.0 2.8 0.038 46 61
5.5 M3AAD 132 MB 3GAA 133 003-••B 955 86.0 85.0 0.78 11.9 6.9 55 2.2 2.8 0.045 54 57
7.5 M3AA 160 M 3GAA 163 101-••C 970 89.3 90.4 0.79 15.4 6.6 74 1.9 2.6 0.089 88 59
11 M3AA 160 L 3GAA 163 102-••C 970 89.8 90.5 0.78 23 6.9 109 2.1 3.4 0.107 102 59
15 M3AA 180 L 3GAA 183 101-••C 970 90.8 91.5 0.78 31 6.8 147 2.0 3.3 0.217 151 59
18.5 M3AA 200 MLA 3GAA 203 001-••C 985 91.1 91.7 0.81 36 7.0 180 2.7 2.5 0.37 165 63
22 M3AA 200 MLB 3GAA 203 002-••C 980 91.7 92.2 0.81 43 6.8 214 2.9 3.0 0.43 185 63
30 M3AA 225 SMB 3GAA 223 001-••C 985 92.8 93.0 0.83 56 7.4 290 3.2 2.8 0.64 225 63
37 M3AA 250 SMA 3GAA 253 001-••C 985 93.4 93.7 0.83 69 7.2 358 3.2 2.9 1.16 280 63
45 1)
M3AA 280 SMA 3GAA 283 001-••C 985 93.4 93.7 0.84 83 7.2 436 3.2 2.8 1.49 375 63
0.32 M2VAD 71 C 3GVA 073 003-••C 920 64.8 61.6 0.63 1.15 3.2 3.33 2.6 2.8 0.0011 7 42
0.37 M2VAD 71 C 3GVA 073 004-••C 900 60.1 60.4 0.70 1.2 2.6 4.1 2.2 2.0 0.0011 7 42
0.75 M2VAD 80 C 3GVA 083 003-••B 920 67.9 70.5 0.76 2.1 3.4 8.1 2.4 2.2 0.002576 10 47
1.3 1)
M3AAD 90 LB 3GAA 093 003-••E 910 69.0 69.0 0.71 3.85 4.0 13.5 1.9 2.2 0.0048 18 44
2.2 1)
M3AAD 100 LC 3GAA 103 002-••E 940 77.0 72.8 0.71 5.9 4.5 22 1.9 2.3 0.009 26 49
3 1)
M3AAD 112 MB 3GAA 113 002-••B 935 80.0 79.9 0.76 7.2 5.5 30.6 2.0 2.7 0.018 33 55
6.5 1)
M3AAD 132 MC 3GAA 133 004-••B 960 85.0 84.5 0.75 14.8 6.6 64 2.0 2.7 0.049 59 61
37 M3AA 225 SMC 3GAA 223 002-••C 985 93.0 93.6 0.83 69 7.3 360 3.6 2.8 0.75 252 63
45 1)
M3AA 250 SMB 3GAA 253 002-••C 985 93.4 93.7 0.84 83 7.2 436 3.2 2.8 1.49 320 63

7
1)
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J = 1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.09 M2VAD 71 A 3GVA 074 001-••C 690 45.8 37.5 0.57 0.52 2.2 1.25 2.3 2.3 0.00063 5.5 40
0.12 M2VAD 71 B 3GVA 074 002-••C 690 46.4 38.1 0.55 0.69 2.2 1.67 2.5 2.5 0.00081 6.5 40
0.18 M2VAD 80 A 3GVA 084 001-••B 700 59.9 54.5 0.6 0.75 3.1 2.46 3.2 3.6 0.001842 9 45
0.25 M2VAD 80 B 3GVA 084 002-••B 700 70.7 67.4 0.62 0.85 3.1 3.52 2.9 3.1 0.002176 10 45
0.37 M3AAD 90 S 3GAA 094 001-••E 700 61.5 43.4 0.56 1.6 3 5 1.9 2.4 0.0032 13 43
0.55 M3AAD 90 L 3GAA 094 002-••E 690 62.9 56.4 0.57 2.35 3 7.5 1.7 2.1 0.0043 16 43
0.75 M3AAD 100 LA 3GAA 104 001-••E 700 72 63.6 0.59 2.55 3.5 10 2.1 2.7 0.0069 20 46
1.1 M3AAD 100 LB 3GAA 104 002-••E 700 73 68.8 0.64 3.35 3.5 15 2.1 2.7 0.0082 23 46
1.5 M3AAD 112 M 3GAA 114 001-••B 695 74.5 75.9 0.65 4.5 4.1 20.6 1.9 2.4 0.016 28 52
2.2 M3AAD 132 S 3GAA 134 001-••B 720 80.5 77.8 0.67 5.9 5.3 29.2 1.6 2.5 0.038 46 56
3 M3AAD 132 M 3GAA 134 002-••B 720 82 79.2 0.68 7.8 5.5 39.8 1.8 2.5 0.045 53 56
4 M3AA 160 MA 3GAA 164 101-••C 715 84.1 84.7 0.69 10 5.1 53 2.1 2.6 0.072 75 59
5.5 M3AA 160 M 3GAA 164 102-••C 710 84.7 85.6 0.7 13.4 5.5 74 2.4 2.6 0.091 88 59
7.5 M3AA 160 L 3GAA 164 103-••C 715 86.3 87.3 0.7 18.1 5.4 100 2.4 2.7 0.131 118 59
11 M3AA 180 L 3GAA 184 101-••C 720 89.6 90.3 0.76 23.5 5.7 146 2.1 2.5 0.224 147 59
15 M3AA 200 MLA 3GAA 204 001-••C 740 91.1 91.6 0.82 29 7.5 196 3 3.2 0.45 175 60
18.5 M3AA 225 SMA 3GAA 224 001-••C 730 91.1 91.6 0.79 37 6.8 242 2.8 3.1 0.61 210 63
22 M3AA 225 SMB 3GAA 224 002-••C 730 91.5 92.2 0.77 45 6.4 287 2.4 2.6 0.68 225 63
30 M3AA 250 SMA 3GAA 254 001-••C 735 92.8 93.1 0.79 59 7.3 389 2.2 2.6 1.25 280 63
37 M3AA 280 SMA 3GAA 284 001-••C 735 93 93.3 0.81 74 7.4 478 2.9 3.1 1.52 375 63
0.18 M2VAD 71 C 3GVA 074 003-••C 680 51.3 49.9 0.61 0.8 2.2 2.6 2.5 2.2 0.0011 7 40
0.37 M2VAD 80 C 3GVA 084 003-••B 690 64.6 65.3 0.69 1.2 3 5.3 2.3 2.1 0.002576 11 45
0.75 1)
M3AAD 90 LB 3GAA 094 003-••E 680 64 60 0.65 2.65 3 10 1.8 2 0.0048 18 43
2 1)
M3AAD 112 MB 3GAA 114 002-••B 685 73.5 68.4 0.67 5.9 4.4 27.9 1.9 2.2 0.018 33 52
3.8 1)
M3AAD 132 MB 3GAA 134 003-••B 710 80.5 78.3 0.69 9.9 5.2 51 1.8 2.3 0.049 59 56
18.5 M3AA 200 MLB 3GAA 204 002-••C 735 91.4 91.8 0.81 36 7.3 241 2.6 3.1 0.54 200 60
37 M3AA 250 SMB 3GAA 254 002-••C 735 93 93.3 0.81 74 7.4 479 2 2.6 1.52 320 63

7
Technical data for Category 2 D - T = 125°C - IP 65
- cast iron frame
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J=1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.75 M3GP 80 MA 3GGP 081 310-••G 2861 78.2 76.7 0.86 1.62 7.3 2.5 3.7 3.8 0.0006 28 59
1.1 M3GP 80 MB 3GGP 081 320-••G 2831 82.0 82.0 0.89 2.21 5.7 3.7 3.0 3.2 0.0007 30 59
1.5 M3GP 90 SLA 3GGP 091 010-••G 2881 82.7 82.6 0.88 3 6.7 5 3.0 3.5 0.001 50 61
2.2 M3GP 90 SLC 3GGP 091 030-••G 2871 85.3 85.8 0.90 4.19 7.5 7.3 2.7 3.5 0.0014 44 61
3 M3GP 100 LA 3GGP 101 510-••G 2896 87.4 87.7 0.90 5.6 7.2 10 2.2 3.0 0.0036 58 65
4 M3GP 112 MB 3GGP 111 320-••G 2901 87.7 87.8 0.90 7.5 7.2 13 3.6 3.7 0.0043 61 65
5.5 M3GP 132 SMB 3GGP 131 220-••G 2905 87.6 87.5 0.90 10.4 6.7 18 2.4 3.3 0.009 89 71
7.5 M3GP 132 SMD 3GGP 131 240-••G 2914 89.0 89.2 0.90 13.8 7.6 25 2.8 3.6 0.012 97 71
11 M3GP 160 MLA 3GGP 161 410-••G 2936 91.5 91.4 0.87 20 7.2 36 2.9 3.3 0.039 147 71
15 M3GP 160 MLB 3GGP 161 420-••G 2934 91.9 91.8 0.88 28 7.5 49 3.1 3.5 0.047 156 71
18.5 M3GP 160 MLC 3GGP 161 430-••G 2934 92.6 92.7 0.90 33 7.5 60 2.8 3.4 0.054 167 71
22 M3GP 180 MLA 3GGP 181 410-••G 2938 92.8 92.9 0.90 39 6.9 72 2.5 3.1 0.077 194 71
30 M3GP 200 MLA 3GGP 201 410-••G 2946 94.2 94.3 0.88 54 7.4 97 3.0 3.2 0.15 275 74
37 M3GP 200 MLC 3GGP 201 430-••G 2948 94.3 94.2 0.89 65 7.5 120 2.8 3.2 0.19 305 75
45 M3GP 225 SMB 3GGP 221 220-••G 2968 94.8 94.7 0.87 79 7.2 145 2.7 3.0 0.26 365 76
55 M3GP 250 SMA 3GGP 251 210-••G 2970 94.7 94.5 0.88 96 7.7 177 2.4 3.1 0.49 425 75
75 M3GP 280 SMA 3GGP 281 210-••G 2978 94.8 94.3 0.88 131 7.6 240 2.1 3.0 0.8 625 77
90 M3GP 280 SMB 3GGP 281 220-••G 2976 95.1 94.8 0.90 152 7.4 289 2.1 2.9 0.9 665 77
110 M3GP 315 SMA 3GGP 311 210-••G 2982 95.1 94.4 0.86 194 7.6 352 2.0 3.0 1.2 880 78
132 M3GP 315 SMB 3GGP 311 220-••G 2982 95.5 95.0 0.88 228 7.4 423 2.2 3.0 1.4 940 78
160 M3GP 315 SMC 3GGP 311 230-••G 2981 96.1 95.6 0.89 269 7.5 513 2.3 3.0 1.7 1025 78
200 M3GP 315 MLA 3GGP 311 410-••G 2980 96.3 95.9 0.90 336 7.7 641 2.6 3.0 2.1 1190 78
250 2)
M3GP 355 SMA 3GGP 351 210-••G 2984 96.4 95.9 0.89 425 7.7 800 2.1 3.3 3 1600 83
315 2)
M3GP 355 SMB 3GGP 351 220-••G 2980 96.6 96.3 0.89 535 7.0 1009 2.1 3.0 3.4 1680 83
355 2)
M3GP 355 SMC 3GGP 351 230-••G 2984 96.8 96.5 0.88 604 7.2 1136 2.2 3.0 3.6 1750 83
400 2)
M3GP 355 MLA 3GGP 351 410-••G 2982 96.9 96.7 0.88 680 7.1 1281 2.3 2.9 4.1 2000 83
450 2)
M3GP 355 MLB 3GGP 351 420-••G 2983 97.1 97.0 0.90 750 7.9 1441 2.2 2.9 4.3 2080 83
500 2)
M3GP 355 LKA 3GGP 351 810-••G 2982 97.1 97.0 0.90 830 7.5 1601 2.1 3.5 4.8 2320 83
560 2)
M3GP 355 LKB 3GGP 351 820-••G 2982 97.2 97.1 0.90 930 8.0 1793 2.3 3.6 5.2 2460 83
560 3)
M3GP 400 LKA 3GGP 401 810-••G 2988 97.2 97.0 0.89 940 7.8 1790 2.1 3.4 7.9 2950 82
560 3)
M3GP 400 LA 3GGP 401 510-••G 2988 97.2 97.0 0.89 940 7.8 1790 2.1 3.4 7.9 2950 82
630 3)
M3GP 400 LKB 3GGP 401 820-••G 2987 97.4 97.3 0.89 1055 7.8 2014 2.2 3.4 8.2 3050 82
630 3)
M3GP 400 LB 3GGP 401 520-••G 2987 97.4 97.3 0.89 1055 7.8 2014 2.2 3.4 8.2 3050 82
710 3)
M3GP 400 LKC 3GGP 401 830-••G 2987 97.5 97.4 0.89 1185 7.8 2270 2.6 3.4 9.3 3300 82
710 3)
M3GP 400 LC 3GGP 401 530-••G 2987 97.5 97.4 0.89 1185 7.8 2270 2.6 3.4 9.3 3300 82
9.2 M3GP 132 SME 3GGP 131 250-••G 2875 86.2 86.6 0.91 17.1 6.1 30.6 2.2 2.9 0.012 97 77
22 M3GP 160 MLD 3GGP 161 440-••G 2929 91.7 91.6 0.90 39 7.4 72 2.8 3.4 0.059 173 77
30 M3GP 180 MLB 3GGP 181 420-••G 2944 93.0 92.9 0.88 54 7.5 97 2.8 3.5 0.092 210 78
37 4)
M3GP 180 MLC 3GGP 181 430-••G 2947 93.9 93.9 0.89 65 7.9 120 2.9 3.6 0.114 229 78
45 5)
M3GP 200 MLE 3GGP 201 450-••G 2944 93.9 94.0 0.88 79 7.3 146 2.9 3.1 0.22 310 79
55 M3GP 225 SMC 3GGP 221 230-••G 2965 94.5 94.2 0.88 96 7.1 177 2.6 3.0 0.29 385 80
67 4)5)
M3GP 225 SMD 3GGP 221 240-••G 2966 94.6 94.1 0.86 120 7.4 216 2.8 3.2 0.31 395 78
75 M3GP 250 SMB 3GGP 251 220-••G 2969 95.2 95.1 0.89 129 7.9 241 2.6 3.2 0.57 465 80
110 M3GP 280 SMC 3GGP 281 230-••G 2978 95.7 95.3 0.90 185 7.9 353 2.4 3.0 1.15 725 77
The two bullets in the product code in-
dicate choice of mounting arrangement
(see ordering information), voltage and
frequency (below).
Values above are given for 400V 50 Hz;
data for other voltages on request.
Full data for types M3GP 80-132 are available on request.
Availability of to be checked from ABB Sales Ofﬁce.
When ordering motors, the following variant code has to be added: acc. to needs
453 'DIP/Ex tD acc. to ATEX directive 94/9/EC,T= 125°C, cat. 2D, IP 65'.
805 ‘DIP/Ex tD, IEC 61241,T125°C, IP65 (zone 21)’
Notes:

7
1)
2)
codes 044 and 045.
3)
4)
5)
For 400-415 V 50 Hz (380 V 50 Hz voltage code B or A).
- cast iron frame
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J=1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.55 M3GP 80 MA 3GGP 082 310-••G 1421 77.2 76.4 0.76 1.4 4.9 3.7 2.3 2.7 0.001 38 59
0.75 M3GP 80 MB 3GGP 082 320-••G 1413 78.3 78.4 0.79 1.8 5.1 5.1 2.4 2.7 0.0012 29 59
1.1 M3GP 90 SLA 3GGP 092 010-••G 1435 80.8 80.3 0.81 2.48 5.6 7.3 2.8 3.5 0.002 42 54
1.5 M3GP 90 SLC 3GGP 092 030-••G 1431 81.8 81.8 0.81 3.31 6.4 10 2.9 3.4 0.003 53 54
2.2 M3GP 100 LA 3GGP 102 510-••G 1441 86.4 87.0 0.86 4.4 7.0 14.5 2.7 3.3 0.0075 58 52
3 M3GP 100 LB 3GGP 102 520-••G 1442 86.2 86.7 0.83 6.1 7.0 20 2.7 3.4 0.0081 60 52
4 M3GP 112 MC 3GGP 112 330-••G 1436 85.7 86.0 0.81 8.4 6.9 27 2.9 3.7 0.0093 63 52
5.5 M3GP 132 SMB 3GGP 132 220-••G 1448 87.6 87.9 0.81 11.4 6.7 36 3.1 3.3 0.02 93 60
7.5 M3GP 132 SMD 3GGP 132 240-••G 1447 88.4 88.7 0.81 15.4 6.6 50 3.1 3.4 0.023 99 60
11 M3GP 160 MLC 3GGP 162 430-••G 1470 91.6 91.6 0.82 22.5 7.7 71 3.1 3.6 0.09 166 62
15 M3GP 160 MLE 3GGP 162 450-••G 1467 92.3 92.3 0.83 30 7.6 98 3.1 3.6 0.121 189 62
18.5 M3GP 180 MLA 3GGP 182 410-••G 1474 92.7 92.8 0.82 36 7.3 120 2.7 3.2 0.176 206 62
22 M3GP 180 MLB 3GGP 182 420-••G 1471 92.8 92.9 0.82 42 7.1 143 2.6 3.0 0.191 214 62
30 M3GP 200 MLB 3GGP 202 420-••G 1475 93.7 93.8 0.84 56 7.4 194 3.3 3.0 0.34 305 61
37 M3GP 225 SMB 3GGP 222 220-••G 1480 93.8 93.6 0.84 69 7.7 239 3.2 2.9 0.42 355 67
45 M3GP 225 SMC 3GGP 222 230-••G 1477 94.6 94.6 0.86 81 7.4 291 3.2 2.7 0.49 390 67
55 M3GP 250 SMA 3GGP 252 210-••G 1479 94.7 94.8 0.83 101 7.2 355 2.5 3.1 0.72 415 66
75 M3GP 280 SMA 3GGP 282 210-••G 1484 94.9 94.8 0.85 135 6.9 483 2.5 2.8 1.25 625 68
90 M3GP 280 SMB 3GGP 282 220-••G 1483 95.3 95.3 0.86 159 7.2 580 2.5 2.7 1.5 665 68
110 M3GP 315 SMA 3GGP 312 210-••G 1487 95.6 95.4 0.86 193 7.2 706 2.0 2.5 2.3 900 70
132 M3GP 315 SMB 3GGP 312 220-••G 1487 95.8 95.7 0.86 232 7.1 848 2.3 2.7 2.6 960 70
160 M3GP 315 SMC 3GGP 312 230-••G 1487 96.0 95.9 0.85 287 7.2 1028 2.4 2.9 2.9 1000 70
200 M3GP 315 MLA 3GGP 312 410-••G 1486 96.2 96.2 0.86 351 7.2 1285 2.5 2.9 3.5 1160 70
250 M3GP 355 SMA 3GGP 352 210-••G 1488 96.5 96.4 0.86 438 7.1 1604 2.3 2.7 5.9 1610 74
315 M3GP 355 SMB 3GGP 352 220-••G 1488 96.7 96.6 0.86 550 7.3 2022 2.3 2.8 6.9 1780 74
355 M3GP 355 SMC 3GGP 352 230-••G 1487 96.7 96.6 0.86 616 6.8 2280 2.4 2.7 7.2 1820 78
400 M3GP 355 MLA 3GGP 352 410-••G 1489 96.9 96.7 0.85 700 6.8 2565 2.3 2.6 8.4 2140 78
450 M3GP 355 MLB 3GGP 352 420-••G 1490 96.9 96.7 0.86 784 6.9 2884 2.3 2.9 8.4 2140 78
500 M3GP 355 LKA 3GGP 352 810-••G 1490 97.0 96.9 0.86 875 6.8 3204 2.0 3.0 10 2500 78
560 M3GP 400 LA 3GGP 402 510-••G 1491 97.1 97.0 0.85 980 7.4 3587 2.4 3.0 15 3200 78
560 M3GP 400 LKA 3GGP 402 810-••G 1491 97.1 97.0 0.85 980 7.4 3587 2.4 3.0 15 3200 78
630 M3GP 400 LB 3GGP 402 520-••G 1491 97.1 97.0 0.87 1085 7.6 4035 2.2 3.1 16 3300 78
630 M3GP 400 LKB 3GGP 402 820-••G 1491 97.1 97.0 0.87 1085 7.6 4035 2.2 3.1 16 3300 78
710 1)
M3GP 400 LC 3GGP 402 530-••G 1491 97.2 97.1 0.86 1240 7.6 4547 2.4 3.2 17 3400 78
710 1)
M3GP 400 LKC 3GGP 402 830-••G 1491 97.2 97.1 0.86 1240 7.6 4547 2.4 3.2 17 3400 78
9.2 1)
M3GP 132 SME 3GGP 132 250-••G 1422 86.4 87.8 0.84 18.5 5.5 62 2.5 2.7 0.023 99 60
18.5 M3GP 160 MLF 3GGP 162 460-••G 1469 92.5 92.8 0.83 36.5 8.0 120 3.2 3.6 0.121 189 68
22 4)
M3GP 160 MLG 3GGP 162 470-••G 1466 92.1 92.2 0.81 44.5 8.2 143 3.3 3.6 0.121 189 68
30 1)
M3GP 180 MLC 3GGP 182 430-••G 1473 92.5 92.5 0.81 59 7.8 194 3.1 3.4 0.239 233 66
37 M3GP 200 MLC 3GGP 202 430-••G 1475 93.5 93.5 0.82 70 7.5 239 3.5 3.2 0.34 305 73
55 5)
M3GP 225 SMD 3GGP 222 240-••G 1476 94.2 94.1 0.85 100 7.6 356 3.4 2.8 0.49 390 74
60 4)5)
M3GP 225 SME 3GGP 222 250-••G 1479 94.2 94.0 0.84 110 8.0 387 3.6 3.0 0.55 410 74
75 5)
M3GP 250 SMB 3GGP 252 220-••G 1476 94.8 95.0 0.86 133 7.6 485 2.8 3.2 0.88 470 73
110 M3GP 280 SMC 3GGP 282 230-••G 1485 95.7 95.7 0.86 195 7.6 707 3.0 3.0 1.85 725 68

7
The two bullets in the product code in-
dicate choice of mounting arrangement
(see ordering information), voltage and
frequency (below).
Values above are given for 400V 50 Hz;
data for other voltages on request.
Full data for types M3GP 80-132 are available on request.
Availability of to be checked from ABB Sales Ofﬁce.
When ordering motors, the following variant code has to be added: acc. to needs
453 'DIP/Ex tD acc. to ATEX directive 94/9/EC,T= 125°C, cat. 2D, IP 65'.
Notes:
- cast iron frame
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J=1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.37 M3GP 80 MA 3GGP 083 310-••G 953 67.2 66.3 0.62 1.32 4.8 3.7 3.4 3.6 0.0022 38 50
0.55 M3GP 80 MB 3GGP 083 320-••G 938 67.9 66.4 0.68 1.79 4.3 5.6 2.8 2.9 0.0022 38 50
0.75 M3GP 90 SLA 3GGP 093 010-••G 942 74.0 73.1 0.69 2.17 4.5 7.6 2.8 3.2 0.0036 41 44
1.1 M3GP 90 SLC 3GGP 093 030-••G 940 75.6 74.5 0.67 3.25 4.6 11 3.1 3.4 0.0037 43 44
1.5 M3GP 100 LA 3GGP 103 510-••G 951 81.2 80.9 0.74 3.7 4.2 15 2.3 2.9 0.012 66 54
2.2 M3GP 112 MB 3GGP 113 320-••G 950 81.8 82.0 0.76 5.2 5.9 22 2.2 2.8 0.014 60 54
3 M3GP 132 SMB 3GGP 133 220-••G 961 83.2 82.2 0.77 6.9 6.1 30 2.1 3.0 0.032 93 57
4 M3GP 132 SMC 3GGP 133 230-••G 967 85.6 85.3 0.74 9.3 6.6 39.5 2.3 3.4 0.034 95 57
5.5 M3GP 132 SMD 3GGP 133 240-••G 958 85.5 85.6 0.76 12.5 6.7 55 2.2 3.0 0.036 97 57
7.5 M3GP 160 MLA 3GGP 163 410-••G 965 89.0 89.7 0.81 15.5 6.5 74 1.9 3.0 0.088 160 57
11 M3GP 160 MLB 3GGP 163 420-••G 965 89.6 90.3 0.80 23 7.1 109 2.1 3.3 0.106 173 65
15 M3GP 180 MLB 3GGP 183 420-••G 972 91.4 91.6 0.81 31 7.0 147 1.9 3.3 0.221 233 58
18.5 M3GP 200 MLA 3GGP 203 410-••G 983 91.6 91.7 0.81 37 7.1 180 3.2 3.1 0.37 265 66
22 M3GP 200 MLB 3GGP 203 420-••G 983 91.9 91.9 0.81 43 7.5 214 3.2 3.2 0.43 285 61
30 M3GP 225 SMB 3GGP 223 220-••G 985 93.0 93.0 0.81 58 7.4 291 3.4 3.0 0.64 350 61
37 M3GP 250 SMA 3GGP 253 210-••G 987 93.6 93.6 0.81 71 7.2 358 3.2 2.9 1.16 420 66
45 M3GP 280 SMA 3GGP 283 210-••G 990 94.4 94.3 0.84 82 7.0 434 2.5 2.5 1.85 605 66
55 M3GP 280 SMB 3GGP 283 220-••G 990 94.6 94.6 0.84 101 7.0 531 2.7 2.6 2.2 645 66
75 M3GP 315 SMA 3GGP 313 210-••G 992 95.0 94.7 0.82 141 7.4 722 2.4 2.8 3.2 830 70
90 M3GP 315 SMB 3GGP 313 220-••G 992 95.5 95.3 0.84 163 7.5 866 2.4 2.8 4.1 930 70
110 M3GP 315 SMC 3GGP 313 230-••G 991 95.6 95.5 0.83 202 7.4 1060 2.5 2.9 4.9 1000 70
132 M3GP 315 MLA 3GGP 313 410-••G 991 95.8 95.7 0.83 240 7.5 1272 2.7 3.0 5.8 1150 68
160 M3GP 355 SMA 3GGP 353 210-••G 993 96.0 95.8 0.83 293 7.0 1539 2.0 2.6 7.9 1520 75
200 M3GP 355 SMB 3GGP 353 220-••G 993 96.2 96.1 0.84 357 7.2 1923 2.2 2.7 9.7 1680 75
250 M3GP 355 SMC 3GGP 353 230-••G 993 96.5 96.3 0.83 450 7.4 2404 2.6 2.9 11.3 1820 75
315 M3GP 355 MLB 3GGP 353 420-••G 992 96.4 96.3 0.83 570 7.0 3032 2.5 2.7 13.5 2180 75
355 M3GP 355 LKA 3GGP 353 810-••G 992 96.6 96.5 0.83 640 7.6 3417 2.7 2.9 15.5 2500 75
400 M3GP 400 LA 3GGP 403 510-••G 993 96.7 96.6 0.82 730 7.1 3847 2.3 2.7 17 2900 76
400 M3GP 400 LKA 3GGP 403 810-••G 993 96.7 96.6 0.82 730 7.1 3847 2.3 2.7 17 2900 76
450 M3GP 400 LB 3GGP 403 520-••G 994 96.9 96.7 0.82 818 7.4 4323 2.4 2.8 20.5 3150 76
450 M3GP 400 LKB 3GGP 403 820-••G 994 96.9 96.7 0.82 818 7.4 4323 2.4 2.8 20.5 3150 76
500 M3GP 400 LKC 3GGP 403 830-••G 993 96.9 96.8 0.83 900 7.2 4808 2.5 2.7 22 3300 76
500 M3GP 400 LC 3GGP 403 530-••G 993 96.9 96.8 0.83 900 7.2 4808 2.5 2.7 22 3300 76
560 M3GP 400 LD 3GGP 403 540-••G 993 96.9 96.8 0.85 985 7.4 5385 2.4 3.0 24 3400 77
560 M3GP 400 LKD 3GGP 403 840-••G 993 96.9 96.8 0.85 985 7.4 5385 2.4 3.0 24 3400 77
14 1)2)
M3GP 160 MLC 3GGP 163 430-••G 969 89.3 89.3 0.75 31 7.9 138 2.8 3.9 0.121 188 64
18.5 M3GP 180 MLC 3GGP 183 430-••G 975 90.4 90.1 0.74 41 7.2 181 2.0 3.2 0.221 233 61
30 M3GP 200 MLC 3GGP 203 430-••G 983 91.9 91.8 0.81 60 7.5 292 3.5 3.4 0.49 305 65
37 M3GP 225 SMC 3GGP 223 230-••G 983 93.0 93.1 0.83 70 7.1 359 3.0 2.8 0.75 380 64
45 M3GP 250 SMB 3GGP 253 220-••G 986 93.9 93.9 0.82 85 7.2 436 3.3 2.8 1.49 465 65
75 M3GP 280 SMC 3GGP 283 230-••G 990 95.1 95.2 0.84 137 7.3 723 2.8 2.7 2.85 725 66

7
1)
2)
-Nominal power lower than CENELEC + 1.
- cast iron frame
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J=1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.18 M3GP 80 MA 3GGP 084 310-••G 720 54.0 49.0 0.48 1.08 3.3 2.4 3.7 4.0 0.0022 29 36
0.25 M3GP 80 MB 3GGP 084 320-••G 705 58.0 54.6 0.58 1.15 3.2 3.4 2.6 2.8 0.0022 29 36
0.37 M3GP 90 SLA 3GGP 094 010-••G 696 65.2 63.8 0.63 1.34 3.0 5.1 2.0 2.2 0.0036 50 36
0.55 M3GP 90 SLC 3GGP 094 030-••G 695 66.6 64.8 0.61 2.05 3.1 7.6 2.2 2.4 0.0037 52 36
0.75 M3GP 100 LA 3GGP 104 510-••G 720 74.7 72.4 0.59 2.6 3.8 10 2.0 2.9 0.012 57 54
1.1 M3GP 100 LB 3GGP 104 520-••G 717 75.2 73.0 0.57 3.9 3.7 15 2.1 2.9 0.012 57 54
1.5 M3GP 112 MC 3GGP 114 330-••G 713 75.7 73.8 0.59 5 3.5 20 2.0 2.7 0.014 70 54
2.2 M3GP 132 SMC 3GGP 134 230-••G 720 79.6 78.6 0.65 6.3 4.7 29 2.0 2.9 0.034 95 59
3 M3GP 132 SMD 3GGP 134 240-••G 710 80.2 80.4 0.70 8 4.1 40 1.7 2.3 0.036 97 59
4 M3GP 160 MLA 3GGP 164 410-••G 717 83.7 83.8 0.71 10.1 5.2 53 1.8 2.8 0.071 146 59
5.5 M3GP 160 MLB 3GGP 164 420-••G 715 84.7 85.2 0.71 13.9 5.2 73 1.9 2.8 0.09 160 53
7.5 M3GP 160 MLC 3GGP 164 430-••G 718 86.9 87.6 0.70 18.4 5.7 100 2.1 3.1 0.121 188 55
11 M3GP 180 MLB 3GGP 184 420-••G 724 90.3 90.4 0.73 24.5 5.7 145 1.7 2.7 0.239 227 63
15 M3GP 200 MLA 3GGP 204 410-••G 734 90.7 90.8 0.79 31 7.0 195 2.4 3.2 0.45 280 56
18.5 M3GP 225 SMA 3GGP 224 210-••G 734 90.8 90.8 0.74 41 6.1 241 2.2 3.0 0.61 335 55
22 M3GP 225 SMB 3GGP 224 220-••G 732 91.0 91.3 0.77 46 6.5 287 2.2 2.9 0.68 350 56
30 M3GP 250 SMA 3GGP 254 210-••G 735 92.3 92.4 0.79 61 6.7 390 2.0 2.9 1.25 420 56
37 M3GP 280 SMA 3GGP 284 210-••G 741 93.4 93.3 0.78 74 7.3 477 1.7 3.0 1.85 605 65
45 M3GP 280 SMB 3GGP 284 220-••G 741 94.1 93.8 0.78 90 7.6 580 1.8 3.1 2.2 645 65
55 M3GP 315 SMA 3GGP 314 210-••G 742 94.1 94.0 0.81 104 7.1 708 1.6 2.7 3.2 830 62
75 M3GP 315 SMB 3GGP 314 220-••G 741 94.5 94.4 0.82 141 7.1 968 1.7 2.7 4.1 930 62
90 M3GP 315 SMC 3GGP 314 230-••G 741 94.8 94.7 0.82 167 7.4 1161 1.8 2.7 4.9 1000 64
110 M3GP 315 MLA 3GGP 314 410-••G 740 95.0 95.0 0.83 203 7.3 1420 1.8 2.7 5.8 1150 72
132 M3GP 355 SMA 3GGP 354 210-••G 744 95.7 95.6 0.80 250 7.5 1694 1.5 2.6 7.9 1520 69
160 M3GP 355 SMB 3GGP 354 220-••G 744 95.7 95.6 0.80 305 7.6 2054 1.6 2.6 9.7 1680 69
200 M3GP 355 SMC 3GGP 354 230-••G 743 95.7 95.6 0.80 378 7.4 2570 1.6 2.6 11.3 1820 69
250 M3GP 355 MLB 3GGP 354 420-••G 743 95.9 95.8 0.80 476 7.5 3213 1.6 2.7 13.5 2180 72
315 M3GP 400 LKA 3GGP 404 810-••G 744 96.4 96.3 0.81 582 7.0 4043 1.2 2.6 17 2900 71
315 M3GP 400 LA 3GGP 404 510-••G 744 96.4 96.3 0.81 582 7.0 4043 1.2 2.6 17 2900 71
355 M3GP 400 LB 3GGP 404 520-••G 743 96.5 96.5 0.83 640 6.8 4563 1.2 2.5 21 3200 71
355 M3GP 400 LKB 3GGP 404 820-••G 743 96.5 96.5 0.83 640 6.8 4563 1.2 2.5 21 3200 71
400 M3GP 400 LC 3GGP 404 530-••G 744 96.6 96.5 0.82 735 7.4 5134 1.3 2.7 24 3400 71
400 M3GP 400 LKC 3GGP 404 830-••G 744 96.6 96.5 0.82 735 7.4 5134 1.3 2.7 24 3400 71
18.5 M3GP 200 MLB 3GGP 204 420-••G 734 90.6 90.8 0.80 37.5 6.9 241 2.2 3.2 0.54 300 57
30 1)
M3GP 225 SMC 3GGP 224 230-••G 731 90.6 91.0 0.77 63 6.3 392 2.3 3.0 0.75 375 59
37 M3GP 250 SMB 3GGP 254 220-••G 737 93.0 92.9 0.78 75 7.5 479 2.3 3.4 1.52 465 59
55 M3GP 280 SMC 3GGP 284 230-••G 741 94.4 94.3 0.80 105 7.9 709 1.9 3.1 2.85 725 65

7
1)
acc. to ATEX 452 ‘DIP/Ex tD acc. to ATEX directive 94/9/EC, T=125°C, ca. 3D, IP55’
The two bullets in the product code indicate choice of mounting arrangement, voltage and frequency (see ordering information).
Motor sizes 56-100 are certiﬁed for the voltages 380-400 V 50 Hz; motor sizes 112-280 for 380-415 VD/660-690VY 50 Hz and 440 V 60 Hz acc.
to IEC 60034-1. Values above are given for 400 V 50 Hz; data for other voltages < 500 V on request.
Technical data for Category 3 D - T = 125°C - IP 55 - aluminum frame
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J = 1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.09 M2VAD 56 A 3GVA 051 001-••A 2820 59.8 53.3 0.69 0.32 3.9 0.31 2.9 2.7 0.00011 3.2 48
0.12 M2VAD 56 B 3GVA 051 002-••A 2840 67.2 63.8 0.64 0.41 4.1 0.41 3.2 2.8 0.00012 3.4 48
0.18 M2VAD 63 A 3GVA 061 001-••C 2820 73.7 70.6 0.64 0.56 4.2 0.62 3.5 3.1 0.00013 3.9 54
0.25 M2VAD 63 B 3GVA 061 002-••C 2810 77.5 75.8 0.71 0.66 4.5 0.87 3.6 3.3 0.00016 4.4 54
0.37 M2VAD 71 A 3GVA 071 001-••C 2840 77.1 76.5 0.72 1 5.5 1.25 3.8 3.9 0.0004 5.5 58
0.55 M2VAD 71 B 3GVA 071 002-••C 2830 79.2 78.2 0.76 1.35 5.7 1.86 3.6 3.7 0.00045 6.5 58
0.75 M2VAD 80 A 3GVA 081 001-••B 2870 81.2 79.3 0.75 1.8 6.2 2.49 2.9 3.6 0.000722 9 60
1.1 M2VAD 80 B 3GVA 081 002-••B 2850 81.4 79.5 0.78 2.5 6.1 3.69 2.3 3.5 0.000763 11 60
1.5 M3AAD 90 S 3GAA 091 001-••E 2870 80.1 76.2 0.82 3.35 5.5 5 2.4 3.0 0.0019 13 63
2.2 M3AAD 90 L 3GAA 091 002-••E 2880 83.6 79.0 0.87 4.37 7.0 7.5 2.7 3.0 0.0024 16 63
3 M3AAD 100 L 3GAA 101 001-••E 2900 86.0 84.1 0.88 5.95 7.5 10 2.7 3.6 0.0041 21 65
4 M3AAD 112 M 3GAA 111 001-••B 2850 86.0 86.2 0.91 7.4 7.5 13.4 2.8 3.0 0.01 25 63
5.5 M3AAD 132 SA 3GAA 131 001-••B 2855 86.0 86.6 0.88 10.5 7.8 18.4 3.2 3.4 0.014 37 75
7.5 M3AAD 132 SB 3GAA 131 002-••B 2860 88.0 86.2 0.89 13.9 8.5 25.1 3.4 3.6 0.016 42 73
11 M2AA 160 MA 3GAA 161 111-••A 2915 88.4 88.9 0.89 20.5 6.1 36 2.1 2.5 0.039 73 73
11 M3AA 160 MA 3GAA 161 101-••C 2930 91.0 91.2 0.88 20 6.2 36 2.1 2.8 0.039 73 69
15 M2AA 160 M 3GAA 161 112-••A 2900 89.5 89.9 0.90 27 6.1 49.4 2.4 2.6 0.047 84 75
15 M3AA 160 M 3GAA 161 102-••C 2920 91.3 91.7 0.90 26.5 6.4 49 2.3 2.7 0.047 84 69
18.5 M2AA 160 L 3GAA 161 113-••A 2915 90.2 90.5 0.91 32.5 6.8 61 2.6 3.0 0.053 94 73
18.5 M3AA 160 L 3GAA 161 103-••C 2920 92.4 93.1 0.91 32 7.2 61 2.6 2.9 0.053 94 69
22 M2AA 180 M 3GAA 181 111-••A 2925 91.2 91.3 0.89 39 7.9 72 2.8 3.2 0.06 108 75
22 M3AA 180 M 3GAA 181 101-••C 2930 92.8 93.3 0.89 38.5 7.2 71 2.7 3.0 0.077 119 69
30 M2AA 200 LA 3GAA 201 011-••A 2945 92.0 92.0 0.88 53 7.9 97 3.0 3.7 0.094 139 75
30 M3AA 200 MLA 3GAA 201 001-••C 2955 93.2 93.2 0.88 53 8.5 97 2.9 3.1 0.15 175 72
37 M2AA 200 L 3GAA 201 012-••A 2945 92.8 92.9 0.89 65 8.2 120 3.1 3.6 0.115 170 75
37 M3AA 200 MLB 3GAA 201 002-••C 2950 93.6 93.7 0.89 64 7.2 120 2.3 2.9 0.18 200 72
45 M2AA 225 M 3GAA 221 011-••A 2940 93.0 93.0 0.88 80 7.7 146 2.8 3.0 0.21 209 75
45 M3AA 225 SMB 3GAA 221 001-••C 2960 94.1 93.9 0.88 79 7.7 145 2.5 2.9 0.26 235 74
55 M2AA 250 M 3GAA 251 011-••A 2960 93.5 93.8 0.90 95 7.3 177 2.8 3.0 0.31 277 74
55 M3AA 250 SMA 3GAA 251 001-••C 2970 94.2 93.8 0.89 95 7.9 177 2.4 3.0 0.49 285 75
75 M3AA 280 SMA 3GAA 281 001-••C 2970 94.7 94.4 0.90 127 8.2 241 2.7 3.2 0.57 375 75
0.37 M2VAD 63 BB 3GVA 061 003-••C 2800 73.6 73.1 0.81 0.9 3.5 1.29 2.3 2.2 0.00036 4.9 54
0.68 M2VAD 71 BB 3GVA 071 003-••C 2800 78.9 77.4 0.82 1.59 5.2 2.33 3.2 3.3 0.00045 6.5 58
0.75 M2VAD 71 BC 3GVA 071 004-••C 2800 78.5 77.9 0.85 1.7 5.1 2.57 3.1 3.2 0.00045 6.5 58
1.5 M2VAD 80 C 3GVA 081 003-••B 2840 82.4 82.2 0.83 3.16 5.5 5.13 2.8 3.1 0.001093 11.5 60
2.7 1)
M3AAD 90 LB 3GAA 091 003-••E 2860 80.7 83.5 0.86 5.7 7.0 9 2.6 3.0 0.0027 18 68
4 1)
M3AAD 100 LB 3GAA 101 002-••E 2900 85.0 84.3 0.86 8.1 7.5 13 2.7 3.6 0.005 25 68
5.5 1)
M3AAD 112 MB 3GAA 111 002-••B 2855 86.5 87.1 0.93 9.9 7.3 18.4 2.7 2.9 0.012 33 66
9.2 1)
M3AAD 132 SBB 3GAA 131 004-••B 2825 86.0 88.2 0.93 16.6 7.3 31.1 3.2 3.5 0.022 57 74
11 1)
M3AAD 132 SC 3GAA 131 003-••B 2835 87.0 87.4 0.93 19.6 8.0 37 3.2 3.3 0.022 57 73
45 M3AA 200 MLC 3GAA 201 003-••C 2950 94.1 94.5 0.89 78 8.2 146 3.0 3.2 0.19 205 72
55 M3AA 225 SMC 3GAA 221 002-••C 2960 94.5 94.6 0.89 95 7.3 177 2.8 3.0 0.29 260 74
75 M3AA 250 SMB 3GAA 251 002-••C 2970 94.7 94.4 0.90 127 8.2 241 2.7 3.2 0.57 375 75

7
1)
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J = 1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.06 M2VAD 56 A 3GVA 052 001-••A 1340 51.1 45.8 0.67 0.26 2.5 0.43 2.2 2.2 0.00017 3.2 36
0.09 M2VAD 56 B 3GVA 052 002-••A 1370 55.5 50.2 0.62 0.38 2.8 0.63 2.9 2.9 0.00018 3.4 36
0.12 M2VAD 63 A 3GVA 062 001-••C 1400 63.7 58.4 0.59 0.46 3.1 0.82 2.6 2.6 0.00019 4 40
0.18 M2VAD 63 B 3GVA 062 002-••C 1380 65.6 62.1 0.64 0.63 3.1 1.25 2.5 2.6 0.00026 4.5 40
0.25 M2VAD 71 A 3GVA 072 001-••C 1410 70.4 69.1 0.71 0.74 4.3 1.71 2.7 2.9 0.00066 5.5 45
0.37 M2VAD 71 B 3GVA 072 002-••C 1420 74.6 72.1 0.69 1.05 4.4 2.51 2.6 2.8 0.00089 6.5 45
0.55 M2VAD 80 A 3GVA 082 001-••B 1390 75.3 73.1 0.76 1.4 4.6 3.75 2.6 2.9 0.001257 9 50
0.75 M2VAD 80 B 3GVA 082 002-••B 1410 78.2 75.6 0.74 1.9 4.7 5.08 3.5 3.9 0.001565 10.5 50
1.1 M3AAD 90 S 3GAA 092 001-••E 1410 77.5 76.4 0.81 2.59 5.0 7.5 2.2 2.7 0.0032 13 50
1.5 M3AAD 90 L 3GAA 092 002-••E 1420 80.3 78.1 0.79 3.45 5.0 10 2.4 2.9 0.0043 16 50
2.2 M3AAD 100 LA 3GAA 102 001-••E 1430 83.0 82.7 0.81 4.8 5.5 15 2.4 2.9 0.0069 21 64
3 M3AAD 100 LB 3GAA 102 002-••E 1430 85.0 83.9 0.81 6.48 5.5 20 2.5 2.9 0.0082 24 66
4 M3AAD 112 M 3GAA 112 001-••B 1435 84.5 83.9 0.80 8.6 7.0 26.6 2.9 3.1 0.015 27 60
5.5 M3AAD 132 S 3GAA 132 001-••B 1450 87.0 87.7 0.83 11.1 7.3 36.2 2.2 3.0 0.031 40 66
7.5 M3AAD 132 M 3GAA 132 002-••B 1450 88.0 88.6 0.83 14.8 7.9 49.4 2.5 3.2 0.038 48 66
11 M2AA 160 M 3GAA 162 111-••A 1460 89.1 89.8 0.81 22 6.5 72 2.7 2.6 0.067 75 62
11 M3AA 160 M 3GAA 162 101-••C 1460 92.0 92.7 0.81 21.5 7.8 72 3.3 3.2 0.091 94 62
15 M2AA 160 L 3GAA 162 112-••A 1460 90.4 91.0 0.82 29 7.1 98 2.7 3.3 0.088 92 62
15 M3AA 160 L 3GAA 162 102-••C 1460 91.8 92.5 0.82 29 8.1 98 3.0 3.6 0.102 103 62
18.5 M2AA 180 M 3GAA 182 111-••A 1460 91.1 91.5 0.81 36.5 7.6 121 3.1 3.5 0.102 110 64
18.5 M3AA 180 M 3GAA 182 101-••C 1470 92.3 92.9 0.84 35 7.0 120 2.9 2.9 0.161 124 62
22 M2AA 180 L 3GAA 182 112-••A 1460 91.8 92.3 0.82 42 7.9 143 3.0 3.8 0.127 128 64
22 M3AA 180 L 3GAA 182 102-••C 1470 93.1 93.9 0.85 40 7.1 143 3.1 3.3 0.225 161 63
30 M2AA 200 L 3GAA 202 011-••A 1470 92.0 92.1 0.80 59 7.8 195 3.0 3.4 0.225 177 67
30 M3AA 200 MLB 3GAA 202 001-••C 1475 93.4 94.0 0.84 55 7.5 194 2.5 2.8 0.34 205 63
37 M2AA 225 S 3GAA 222 011-••A 1475 92.8 93.0 0.85 68 6.8 240 3.0 3.1 0.35 216 68
37 M3AA 225 SMA 3GAA 222 001-••C 1480 93.6 93.8 0.84 68 7.6 239 3.1 3.3 0.37 215 66
45 M2AA 225 M 3GAA 222 012-••A 1475 93.0 93.1 0.84 84 8.1 291 3.5 3.2 0.41 237 68
45 M3AA 225 SMB 3GAA 222 002-••C 1480 94.2 94.4 0.83 83 7.6 291 2.8 3.0 0.42 230 66
55 M2AA 250 M 3GAA 252 011-••A 1475 93.7 94.3 0.84 98 6.8 356 2.5 2.6 0.5 286 66
55 M3AA 250 SMA 3GAA 252 001-••C 1480 94.6 94.9 0.86 98 7.6 355 3.1 3.0 0.72 275 67
72 M3AA 280 SMA 3GAA 282 001-••C 1475 94.6 95.0 0.88 126 7.4 466 3.2 3.1 0.88 380 67
0.25 M2VAD 63 BB 3GVA 062 003-••C 1370 70.3 67.4 0.67 0.78 3.2 1.75 2.5 2.1 0.0003 5 40
0.45 M2VAD 71 BB 3GVA 072 003-••C 1390 75.5 75.3 0.76 1.15 4.1 3.11 2.1 2.3 0.00089 6.5 45
0.55 M2VAD 71 C 3GVA 072 004-••C 1410 77.3 76.9 0.73 1.45 4.8 3.74 2.7 2.9 0.0011 7 45
0.95 M2VAD 80 C 3GVA 082 003-••B 1410 78.9 77.9 0.75 2.35 4.3 6.44 2.9 3.3 0.001948 11 50
1.1 M2VAD 80 C 3GVA 082 004-••B 1390 74.7 76.6 0.77 2.8 4.3 7.8 3.1 2.3 0.001948 11 50
1.85 1)
M3AAD 90 L 3GAA 092 003-••E 1390 79.5 78.1 0.80 4.4 4.5 13 2.2 2.4 0.0043 16 50
2.2 1)
M3AAD 90 LB 3GAA 092 004-••E 1390 80.3 81.0 0.83 4.85 4.5 15 2.2 2.4 0.0048 17 50
4 1)
M3AAD 100 LC 3GAA 102 003-••E 1420 81.0 81.7 0.82 8.65 5.5 27 2.5 2.8 0.009 25 60
5.5 1)
M3AAD 112 MB 3GAA 112 002-••B 1425 84.5 83.5 0.83 11.4 7.1 36.9 2.8 3.1 0.018 34 60
9.2 1)
M3AAD 132 MBA 3GAA 132 004-••B 1450 88.0 88.6 0.85 17.8 7.3 60 2.0 2.8 0.048 59 63
11 1)
M3AAD 132 MB 3GAA 132 003-••B 1450 88.0 89.4 0.86 21 8.3 72 2.5 2.7 0.048 59 66
55 M3AA 225 SMC 3GAA 222 003-••C 1480 94.6 95.0 0.84 100 7.5 356 3.5 3.0 0.49 265 66
72 M3AA 250 SMB 3GAA 252 002-••C 1475 94.6 95.0 0.88 126 7.4 466 3.2 3.1 0.88 335 67

7
1)
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J = 1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.09 M2VAD 63 A 3GVA 063 001-••C 910 47.1 42.5 0.56 0.51 2.1 0.95 2.1 2.1 0.0002 4 38
0.12 M2VAD 63 B 3GVA 063 002-••C 910 57.5 54.0 0.58 0.54 2.1 1.27 2.1 2.1 0.00027 4.5 38
0.18 M2VAD 71 A 3GVA 073 001-••C 920 61.1 57.7 0.69 0.64 2.9 1.88 2.1 2.2 0.00063 5.5 42
0.25 M2VAD 71 B 3GVA 073 002-••C 920 64.9 62.3 0.65 0.86 3.2 2.61 2.5 2.7 0.00081 6.5 42
0.37 M2VAD 80 A 3GVA 083 001-••B 925 72.9 70.8 0.72 1.04 3.8 3.82 3.1 3.4 0.001842 9 47
0.55 M2VAD 80 B 3GVA 083 002-••B 925 73.3 71.9 0.71 1.55 3.4 5.68 2.9 3.1 0.002176 10 47
0.75 M3AAD 90 S 3GAA 093 001-••E 930 71.5 70.7 0.67 2.36 4.0 7.5 1.9 2.3 0.0032 13 44
1.1 M3AAD 90 L 3GAA 093 002-••E 930 74.4 72.5 0.69 3.25 4.0 11 2.1 2.4 0.0043 16 44
1.5 M3AAD 100 L 3GAA 103 001-••E 950 80.0 77.0 0.71 3.92 4.5 15 1.9 2.3 0.0082 23 49
2.2 M3AAD 112 M 3GAA 113 001-••B 940 80.5 79.3 0.74 5.4 5.6 22.3 2.1 2.7 0.015 27 66
3 M3AAD 132 S 3GAA 133 001-••B 960 84.5 82.7 0.75 6.9 6.1 29.8 2.0 2.6 0.031 39 57
4 M3AAD 132 MA 3GAA 133 002-••B 960 85.5 83.1 0.78 8.7 7.1 39.7 2.0 2.8 0.038 46 61
5.5 M3AAD 132 MB 3GAA 133 003-••B 955 86.0 85.0 0.78 11.9 6.9 55 2.2 2.8 0.045 54 57
7.5 M3AA 160 M 3GAA 163 101-••C 970 89.3 90.4 0.79 15.4 6.6 74 1.9 2.6 0.089 88 59
11 M3AA 160 L 3GAA 163 102-••C 970 89.8 90.5 0.78 23 6.9 109 2.1 3.4 0.107 102 59
15 M3AA 180 L 3GAA 183 101-••C 970 90.8 91.5 0.78 31 6.8 147 2.0 3.3 0.217 151 59
18.5 M3AA 200 MLA 3GAA 203 001-••C 985 91.1 91.7 0.81 36 7.0 180 2.7 2.5 0.37 165 63
22 M3AA 200 MLB 3GAA 203 002-••C 980 91.7 92.2 0.81 43 6.8 214 2.9 3.0 0.43 185 63
30 M3AA 225 SMB 3GAA 223 001-••C 985 92.8 93.0 0.83 56 7.4 290 3.2 2.8 0.64 225 63
37 M3AA 250 SMA 3GAA 253 001-••C 985 93.4 93.7 0.83 69 7.2 358 3.2 2.9 1.16 280 63
45 1)
M3AA 280 SMA 3GAA 283 001-••C 985 93.4 93.7 0.84 83 7.2 436 3.2 2.8 1.49 375 63
0.15 M2VAD 63 BB 3GVA 063 003-••C 900 56.9 52.1 0.54 0.74 2.2 1.61 2.2 2.3 0.00032 5 38
0.32 M2VAD 71 C 3GVA 073 003-••C 920 64.8 61.6 0.63 1.15 3.2 3.33 2.6 2.8 0.0011 7 42
0.37 M2VAD 71 C 3GVA 073 004-••C 900 60.1 60.4 0.70 1.2 2.6 4.1 2.2 2.0 0.0011 7 42
0.75 M2VAD 80 C 3GVA 083 003-••B 920 67.9 70.5 0.76 2.1 3.4 8.1 2.4 2.2 0.002576 10 47
1.3 1)
M3AAD 90 LB 3GAA 093 003-••E 910 69.0 69.0 0.71 3.85 4.0 13.5 1.9 2.2 0.0048 18 44
2.2 1)
M3AAD 100 LC 3GAA 103 002-••E 940 77.0 72.8 0.71 5.9 4.5 22 1.9 2.3 0.009 26 49
3 1)
M3AAD 112 MB 3GAA 113 002-••B 935 80.0 79.9 0.76 7.2 5.5 30.6 2.0 2.7 0.018 33 55
6.5 1)
M3AAD 132 MC 3GAA 133 004-••B 960 85.0 84.5 0.75 14.8 6.6 64 2.0 2.7 0.049 59 61
37 M3AA 225 SMC 3GAA 223 002-••C 985 93.0 93.6 0.83 69 7.3 360 3.6 2.8 0.75 252 63
45 1)
M3AA 250 SMB 3GAA 253 002-••C 985 93.4 93.7 0.84 83 7.2 436 3.2 2.8 1.49 320 63

7
1)
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J = 1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.055 M2VAD 63 B 3GVA 064 002-••C 680 38.3 31.8 0.48 0.45 1.8 0.78 2.1 2.1 0.00027 4.5 36
0.09 M2VAD 71 A 3GVA 074 001-••C 690 45.8 37.5 0.57 0.52 2.2 1.25 2.3 2.3 0.00063 5.5 40
0.12 M2VAD 71 B 3GVA 074 002-••C 690 46.4 38.1 0.55 0.69 2.2 1.67 2.5 2.5 0.00081 6.5 40
0.18 M2VAD 80 A 3GVA 084 001-••B 700 59.9 54.5 0.60 0.75 3.1 2.46 3.2 3.6 0.001842 9 45
0.25 M2VAD 80 B 3GVA 084 002-••B 700 70.7 67.4 0.62 0.85 3.1 3.52 2.9 3.1 0.002176 10 45
0.37 M3AAD 90 S 3GAA 094 001-••E 700 61.5 43.4 0.56 1.6 3.0 5 1.9 2.4 0.0032 13 43
0.55 M3AAD 90 L 3GAA 094 002-••E 690 62.9 56.4 0.57 2.35 3.0 7.5 1.7 2.1 0.0043 16 43
0.75 M3AAD 100 LA 3GAA 104 001-••E 700 72.0 63.6 0.59 2.55 3.5 10 2.1 2.7 0.0069 20 46
1.1 M3AAD 100 LB 3GAA 104 002-••E 700 73.0 68.8 0.64 3.35 3.5 15 2.1 2.7 0.0082 23 46
1.5 M3AAD 112 M 3GAA 114 001-••B 695 74.5 75.9 0.65 4.5 4.1 20.6 1.9 2.4 0.016 28 52
2.2 M3AAD 132 S 3GAA 134 001-••B 720 80.5 77.8 0.67 5.9 5.3 29.2 1.6 2.5 0.038 46 56
3 M3AAD 132 M 3GAA 134 002-••B 720 82.0 79.2 0.68 7.8 5.5 39.8 1.8 2.5 0.045 53 56
4 M3AA 160 MA 3GAA 164 101-••C 715 84.1 84.7 0.69 10 5.1 53 2.1 2.6 0.072 75 59
5.5 M3AA 160 M 3GAA 164 102-••C 710 84.7 85.6 0.70 13.4 5.5 74 2.4 2.6 0.091 88 59
7.5 M3AA 160 L 3GAA 164 103-••C 715 86.3 87.3 0.70 18.1 5.4 100 2.4 2.7 0.131 118 59
11 M3AA 180 L 3GAA 184 101-••C 720 89.6 90.3 0.76 23.5 5.7 146 2.1 2.5 0.224 147 59
15 M3AA 200 MLA 3GAA 204 001-••C 740 91.1 91.6 0.82 29 7.5 196 3.0 3.2 0.45 175 60
18.5 M3AA 225 SMA 3GAA 224 001-••C 730 91.1 91.6 0.79 37 6.8 242 2.8 3.1 0.61 210 63
22 M3AA 225 SMB 3GAA 224 002-••C 730 91.5 92.2 0.77 45 6.4 287 2.4 2.6 0.68 225 63
30 M3AA 250 SMA 3GAA 254 001-••C 735 92.8 93.1 0.79 59 7.3 389 2.2 2.6 1.25 280 63
37 M3AA 280 SMA 3GAA 284 001-••C 735 93.0 93.3 0.81 74 7.4 478 2.9 3.1 1.52 375 63
0.18 M2VAD 71 C 3GVA 074 003-••C 680 51.3 49.9 0.61 0.8 2.2 2.6 2.5 2.2 0.0011 7 40
0.37 M2VAD 80 C 3GVA 084 003-••B 690 64.6 65.3 0.69 1.2 3.0 5.3 2.3 2.1 0.002576 11 45
0.75 1)
M3AAD 90 LB 3GAA 094 003-••E 680 64.0 60.0 0.65 2.65 3.0 10 1.8 2.0 0.0048 18 43
2 1)
M3AAD 112 MB 3GAA 114 002-••B 685 73.5 68.4 0.67 5.9 4.4 27.9 1.9 2.2 0.018 33 52
3.8 1)
M3AAD 132 MB 3GAA 134 003-••B 710 80.5 78.3 0.69 9.9 5.2 51 1.8 2.3 0.049 59 56
18.5 M3AA 200 MLB 3GAA 204 002-••C 735 91.4 91.8 0.81 36 7.3 241 2.6 3.1 0.54 200 60
37 M3AA 250 SMB 3GAA 254 002-••C 735 93.0 93.3 0.81 74 7.4 479 2.0 2.6 1.52 320 63

7
- cast iron frame
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J=1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.37 M2GP 71 MA 3GGP 071 310-••A 2807 71.4 69.4 0.81 0.88 4.9 1.25 2.5 2.6 0.0003 10 56
0.55 M2GP 71 MB 3GGP 071 320-••A 2789 74.2 73.6 0.82 1.26 5.0 1.9 2.5 2.6 0.00037 11 56
0.75 M2GP 80 MA 3GGP 081 310-••A 2840 76.1 76.6 0.85 1.7 6.1 2.52 2.2 3.0 0.00091 16 57
1.1 M2GP 80 MB 3GGP 081 320-••A 2855 79.0 78.9 0.85 2.4 7.0 3.68 2.2 2.2 0.00107 17 58
1.5 M2GP 90 SA 3GGP 091 110-••A 2850 79.9 79.9 0.87 3.15 7.0 5.03 2.2 2.5 0.00135 21 61
2.2 M2GP 90 LA 3GGP 091 510-••A 2850 82.3 82.6 0.86 4.53 7.0 7.37 2.2 3.5 0.00163 24 61
3 M2GP 100 LA 3GGP 101 510-••A 2860 83.8 84.0 0.88 5.93 7.0 10.02 2.2 3.0 0.00402 33 65
4 M2GP 112 MA 3GGP 111 310-••A 2900 85.7 85.3 0.90 7.55 7.0 13.17 2.2 3.2 0.00671 42 67
5.5 M2GP 132 SA 3GGP 131 110-••A 2907 87.6 87.8 0.87 10.4 7.4 18 1.8 2.7 0.01241 58 70
7.5 M2GP 132 SB 3GGP 131 120-••A 2920 89.0 90.5 0.90 13.6 7.0 24.53 2.2 3.5 0.01491 63 70
11 M3GP 160 MLA 3GGP 161 410-••G 2936 91.5 91.4 0.87 20 7.2 36 2.9 3.3 0.039 147 71
15 M3GP 160 MLB 3GGP 161 420-••G 2934 91.9 91.8 0.88 28 7.5 49 3.1 3.5 0.047 156 71
18.5 M3GP 160 MLC 3GGP 161 430-••G 2934 92.6 92.7 0.90 33 7.5 60 2.8 3.4 0.054 167 71
22 M3GP 180 MLA 3GGP 181 410-••G 2938 92.8 92.9 0.90 39 6.9 72 2.5 3.1 0.077 194 71
30 M3GP 200 MLA 3GGP 201 410-••G 2946 94.2 94.3 0.88 54 7.4 97 3.0 3.2 0.15 275 74
37 M3GP 200 MLC 3GGP 201 430-••G 2948 94.3 94.2 0.89 65 7.5 120 2.8 3.2 0.19 305 75
45 M3GP 225 SMB 3GGP 221 220-••G 2968 94.8 94.7 0.87 79 7.2 145 2.7 3.0 0.26 365 76
55 M3GP 250 SMA 3GGP 251 210-••G 2970 94.7 94.5 0.88 96 7.7 177 2.4 3.1 0.49 425 75
75 M3GP 280 SMA 3GGP 281 210-••G 2978 94.8 94.3 0.88 131 7.6 240 2.1 3.0 0.8 625 77
90 M3GP 280 SMB 3GGP 281 220-••G 2976 95.1 94.8 0.90 152 7.4 289 2.1 2.9 0.9 665 77
110 M3GP 315 SMA 3GGP 311 210-••G 2982 95.1 94.4 0.86 194 7.6 352 2.0 3.0 1.2 880 78
132 M3GP 315 SMB 3GGP 311 220-••G 2982 95.5 95.0 0.88 228 7.4 423 2.2 3.0 1.4 940 78
160 M3GP 315 SMC 3GGP 311 230-••G 2981 96.1 95.6 0.89 269 7.5 513 2.3 3.0 1.7 1025 78
200 M3GP 315 MLA 3GGP 311 410-••G 2980 96.3 95.9 0.90 336 7.7 641 2.6 3.0 2.1 1190 78
250 2)
M3GP 355 SMA 3GGP 351 210-••G 2984 96.4 95.9 0.89 425 7.7 800 2.1 3.3 3 1600 83
315 2)
M3GP 355 SMB 3GGP 351 220-••G 2980 96.6 96.3 0.89 535 7.0 1009 2.1 3.0 3.4 1680 83
355 2)
M3GP 355 SMC 3GGP 351 230-••G 2984 96.8 96.5 0.88 604 7.2 1136 2.2 3.0 3.6 1750 83
400 2)
M3GP 355 MLA 3GGP 351 410-••G 2982 96.9 96.7 0.88 680 7.1 1281 2.3 2.9 4.1 2000 83
450 2)
M3GP 355 MLB 3GGP 351 420-••G 2983 97.1 97.0 0.90 750 7.9 1441 2.2 2.9 4.3 2080 83
500 2)
M3GP 355 LKA 3GGP 351 810-••G 2982 97.1 97.0 0.90 830 7.5 1601 2.1 3.5 4.8 2320 83
560 3)
M3GP 400 LA 3GGP 401 510-••G 2988 97.2 97.0 0.89 940 7.8 1790 2.1 3.4 7.9 2950 82
560 2)
M3GP 355 LKB 3GGP 351 820-••G 2982 97.2 97.1 0.90 930 8.0 1793 2.3 3.6 5.2 2460 83
560 3)
M3GP 400 LKA 3GGP 401 810-••G 2988 97.2 97.0 0.89 940 7.8 1790 2.1 3.4 7.9 2950 82
630 3)
M3GP 400 LB 3GGP 401 520-••G 2987 97.4 97.3 0.89 1055 7.8 2014 2.2 3.4 8.2 3050 82
630 3)
M3GP 400 LKB 3GGP 401 820-••G 2987 97.4 97.3 0.89 1055 7.8 2014 2.2 3.4 8.2 3050 82
710 3)
M3GP 400 LKC 3GGP 401 830-••G 2987 97.5 97.4 0.89 1185 7.8 2270 2.6 3.4 9.3 3300 82
710 3)
M3GP 400 LC 3GGP 401 530-••G 2987 97.5 97.4 0.89 1185 7.8 2270 2.6 3.4 9.3 3300 82
22 M3GP 160 MLD 3GGP 161 440-••G 2929 91.7 91.6 0.90 39 7.4 72 2.8 3.4 0.059 173 77
30 M3GP 180 MLB 3GGP 181 420-••G 2944 93.0 92.9 0.88 54 7.5 97 2.8 3.5 0.092 210 78
37 4)
M3GP 180 MLC 3GGP 181 430-••G 2947 93.9 93.9 0.89 65 7.9 120 2.9 3.6 0.114 229 78
45 5)
M3GP 200 MLE 3GGP 201 450-••G 2944 93.9 94.0 0.88 79 7.3 146 2.9 3.1 0.22 310 79
55 M3GP 225 SMC 3GGP 221 230-••G 2965 94.5 94.2 0.88 96 7.1 177 2.6 3.0 0.29 385 80
67 4)5)
M3GP 225 SMD 3GGP 221 240-••G 2966 94.6 94.1 0.86 120 7.4 216 2.8 3.2 0.31 395 78
75 M3GP 250 SMB 3GGP 251 220-••G 2969 95.2 95.1 0.89 129 7.9 241 2.6 3.2 0.57 465 80
110 M3GP 280 SMC 3GGP 281 230-••G 2978 95.7 95.3 0.90 185 7.9 353 2.4 3.0 1.15 725 77
Notes:
When ordering motors, the following variant codes has to be added: acc. to needs
452 'DIP/Ex tD acc. to ATEX directive 94/9/EC,T= 125°C, category 3 D, IP 55'.
804 DIP/Ex tD, IEC 61241,T125°C, IP55 (zone 22)
The two bullets in the product code indicate
choice of mounting arrangement (see ordering
information), voltage and frequency (below).
Values above are given for 400 V 50 Hz; data for
other voltages on request.

7
1)
2)
codes 044 and 045.
3)
4)
5)
- cast iron frame
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J=1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.25 M2GP 71 MA 3GGP 072 310-••A 1373 67.1 65.0 0.73 0.74 4.0 1.7 2.2 2.6 0.00053 11 43
0.37 M2GP 71 MB 3GGP 072 320-••A 1398 71.8 71.7 0.76 1.01 4.1 2.5 2.2 2.6 0.00066 11 45
0.55 M2GP 80 MA 3GGP 082 310-••A 1422 74.7 72.7 0.73 1.4 5.0 3.7 2.5 2.8 0.00145 16 46
0.75 M2GP 80 MB 3GGP 082 320-••A 1405 75.6 76.3 0.76 1.87 4.7 5.1 2.5 2.6 0.00174 17 46
1.1 M2GP 90 SA 3GGP 092 110-••A 1400 78.5 78.8 0.79 2.65 6.0 7.5 2.3 2.4 0.00254 21 52
1.5 M2GP 90 LA 3GGP 092 510-••A 1390 79.5 80.1 0.80 3.5 6.0 10.31 2.3 2.6 0.00317 25 52
2.2 M2GP 100 LA 3GGP 102 510-••A 1419 82.3 83.1 0.81 5.12 5.6 14.8 2.8 3.4 0.00679 32 53
4 M2GP 112 MA 3GGP 112 310-••A 1430 85.7 85.3 0.82 8.29 6.5 26.71 2.3 2.8 0.01306 45 56
5.5 M2GP 132 SA 3GGP 132 110-••A 1430 86.6 87.7 0.85 10.9 6.5 36.73 2.3 2.9 0.02673 60 59
7.5 M2GP 132 MA 3GGP 132 310-••A 1440 89.0 88.8 0.85 14.4 6.5 49.74 2.3 2.7 0.03432 73 59
11 M3GP 160 MLC 3GGP 162 430-••G 1470 91.6 91.6 0.82 22.5 7.7 71 3.1 3.6 0.09 166 62
15 M3GP 160 MLE 3GGP 162 450-••G 1467 92.3 92.3 0.83 30 7.6 98 3.1 3.6 0.121 189 62
18.5 M3GP 180 MLA 3GGP 182 410-••G 1474 92.7 92.8 0.82 36 7.3 120 2.7 3.2 0.176 206 62
22 M3GP 180 MLB 3GGP 182 420-••G 1471 92.8 92.9 0.82 42 7.1 143 2.6 3.0 0.191 214 62
30 M3GP 200 MLB 3GGP 202 420-••G 1475 93.7 93.8 0.84 56 7.4 194 3.3 3.0 0.34 305 61
37 M3GP 225 SMB 3GGP 222 220-••G 1480 93.8 93.6 0.84 69 7.7 239 3.2 2.9 0.42 355 67
45 M3GP 225 SMC 3GGP 222 230-••G 1477 94.6 94.6 0.86 81 7.4 291 3.2 2.7 0.49 390 67
55 M3GP 250 SMA 3GGP 252 210-••G 1479 94.7 94.8 0.83 101 7.2 355 2.5 3.1 0.72 415 66
75 M3GP 280 SMA 3GGP 282 210-••G 1484 94.9 94.8 0.85 135 6.9 483 2.5 2.8 1.25 625 68
90 M3GP 280 SMB 3GGP 282 220-••G 1483 95.3 95.3 0.86 159 7.2 580 2.5 2.7 1.5 665 68
110 M3GP 315 SMA 3GGP 312 210-••G 1487 95.6 95.4 0.86 193 7.2 706 2.0 2.5 2.3 900 70
132 M3GP 315 SMB 3GGP 312 220-••G 1487 95.8 95.7 0.86 232 7.1 848 2.3 2.7 2.6 960 70
160 M3GP 315 SMC 3GGP 312 230-••G 1487 96.0 95.9 0.85 287 7.2 1028 2.4 2.9 2.9 1000 70
200 M3GP 315 MLA 3GGP 312 410-••G 1486 96.2 96.2 0.86 351 7.2 1285 2.5 2.9 3.5 1160 70
250 M3GP 355 SMA 3GGP 352 210-••G 1488 96.5 96.4 0.86 438 7.1 1604 2.3 2.7 5.9 1610 74
315 M3GP 355 SMB 3GGP 352 220-••G 1488 96.7 96.6 0.86 550 7.3 2022 2.3 2.8 6.9 1780 74
355 M3GP 355 SMC 3GGP 352 230-••G 1487 96.7 96.6 0.86 616 6.8 2280 2.4 2.7 7.2 1820 78
400 M3GP 355 MLA 3GGP 352 410-••G 1489 96.9 96.7 0.85 700 6.8 2565 2.3 2.6 8.4 2140 78
450 M3GP 355 MLB 3GGP 352 420-••G 1490 96.9 96.7 0.86 784 6.9 2884 2.3 2.9 8.4 2140 78
500 M3GP 355 LKA 3GGP 352 810-••G 1490 97.0 96.9 0.86 875 6.8 3204 2.0 3.0 10 2500 78
560 M3GP 400 LKA 3GGP 402 810-••G 1491 97.1 97.0 0.85 980 7.4 3587 2.4 3.0 15 3200 78
560 M3GP 400 LA 3GGP 402 510-••G 1491 97.1 97.0 0.85 980 7.4 3587 2.4 3.0 15 3200 78
630 M3GP 400 LB 3GGP 402 520-••G 1491 97.1 97.0 0.87 1085 7.6 4035 2.2 3.1 16 3300 78
630 M3GP 400 LKB 3GGP 402 820-••G 1491 97.1 97.0 0.87 1085 7.6 4035 2.2 3.1 16 3300 78
710 1)
M3GP 400 LKC 3GGP 402 830-••G 1491 97.2 97.1 0.86 1240 7.6 4547 2.4 3.2 17 3400 78
710 1)
M3GP 400 LC 3GGP 402 530-••G 1491 97.2 97.1 0.86 1240 7.6 4547 2.4 3.2 17 3400 78
18.5 M3GP 160 MLF 3GGP 162 460-••G 1469 92.5 92.8 0.83 36.5 8.0 120 3.2 3.6 0.121 189 68
22 4)
M3GP 160 MLG 3GGP 162 470-••G 1466 92.1 92.2 0.81 44.5 8.2 143 3.3 3.6 0.121 189 68
30 1)
M3GP 180 MLC 3GGP 182 430-••G 1473 92.5 92.5 0.81 59 7.8 194 3.1 3.4 0.239 233 66
37 M3GP 200 MLC 3GGP 202 430-••G 1475 93.5 93.5 0.82 70 7.5 239 3.5 3.2 0.34 305 73
55 5)
M3GP 225 SMD 3GGP 222 240-••G 1476 94.2 94.1 0.85 100 7.6 356 3.4 2.8 0.49 390 74
60 4)5)
M3GP 225 SME 3GGP 222 250-••G 1479 94.2 94.0 0.84 110 8.0 387 3.6 3.0 0.55 410 74
75 5)
M3GP 250 SMB 3GGP 252 220-••G 1476 94.8 95.0 0.86 133 7.6 485 2.8 3.2 0.88 470 73
110 M3GP 280 SMC 3GGP 282 230-••G 1485 95.7 95.7 0.86 195 7.6 707 3.0 3.0 1.85 725 68

7
Notes:
When ordering motors, the following variant codes has to be added: acc. to needs
804 DIP/Ex tD, IEC 61241,T125°C, IP55 (zone 22)
The two bullets in the product code indicate
choice of mounting arrangement (see ordering
information), voltage and frequency (below).
Values above are given for 400 V 50 Hz; data for
other voltages on request.
- cast iron frame
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J=1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.18 M2GP 71 MA 3GGP 073 310-••A 901 57.0 52.3 0.66 0.64 3.0 1.9 2.1 2.3 0.00056 10 42
0.25 M2GP 71 MB 3GGP 073 320-••A 887 61.8 60.2 0.66 0.87 3.0 2.7 2.2 2.3 0.00074 11 42
0.37 M2GP 80 MA 3GGP 083 310-••A 942 64.7 64.9 0.67 1.16 3.3 3.8 1.8 2.4 0.00159 17 45
0.55 M2GP 80 MB 3GGP 083 320-••A 927 66.6 66.7 0.69 1.72 3.3 5.7 1.7 2.2 0.00196 18 45
0.75 M2GP 90 SA 3GGP 093 110-••A 920 72.3 71.5 0.73 2.12 5.0 7.79 2.0 2.3 0.00292 21 48
1.1 M2GP 90 LA 3GGP 093 510-••A 920 74.2 74.3 0.75 2.94 5.0 11.42 2.0 2.6 0.00379 25 48
1.5 M2GP 100 LA 3GGP 103 510-••A 940 77.1 76.4 0.78 3.78 5.5 15.24 2.0 2.4 0.00999 32 51
2.2 M2GP 112 MA 3GGP 113 310-••A 940 80.9 82.0 0.77 5.23 5.5 22.35 2.0 2.3 0.03116 40 54
3 M2GP 132 SA 3GGP 133 110-••A 960 83.3 84.2 0.79 6.73 6.5 29.84 2.0 2.4 0.03116 55 56
4 M2GP 132 MA 3GGP 133 310-••A 960 84.7 84.9 0.78 8.93 6.5 39.79 2.0 2.9 0.04074 65 56
7.5 M3GP 160 MLA 3GGP 163 410-••G 965 89.0 89.7 0.81 15.5 6.5 74 1.9 3.0 0.088 160 57
11 M3GP 160 MLB 3GGP 163 420-••G 965 89.6 90.3 0.80 23 7.1 109 2.1 3.3 0.106 173 65
15 M3GP 180 MLB 3GGP 183 420-••G 972 91.4 91.6 0.81 31 7.0 147 1.9 3.3 0.221 233 58
18.5 M3GP 200 MLA 3GGP 203 410-••G 983 91.6 91.7 0.81 37 7.1 180 3.2 3.1 0.37 265 66
22 M3GP 200 MLB 3GGP 203 420-••G 983 91.9 91.9 0.81 43 7.5 214 3.2 3.2 0.43 285 61
30 M3GP 225 SMB 3GGP 223 220-••G 985 93.0 93.0 0.81 58 7.4 291 3.4 3.0 0.64 350 61
37 M3GP 250 SMA 3GGP 253 210-••G 987 93.6 93.6 0.81 71 7.2 358 3.2 2.9 1.16 420 66
45 M3GP 280 SMA 3GGP 283 210-••G 990 94.4 94.3 0.84 82 7.0 434 2.5 2.5 1.85 605 66
55 M3GP 280 SMB 3GGP 283 220-••G 990 94.6 94.6 0.84 101 7.0 531 2.7 2.6 2.2 645 66
75 M3GP 315 SMA 3GGP 313 210-••G 992 95.0 94.7 0.82 141 7.4 722 2.4 2.8 3.2 830 70
90 M3GP 315 SMB 3GGP 313 220-••G 992 95.5 95.3 0.84 163 7.5 866 2.4 2.8 4.1 930 70
110 M3GP 315 SMC 3GGP 313 230-••G 991 95.6 95.5 0.83 202 7.4 1060 2.5 2.9 4.9 1000 70
132 M3GP 315 MLA 3GGP 313 410-••G 991 95.8 95.7 0.83 240 7.5 1272 2.7 3.0 5.8 1150 68
160 M3GP 355 SMA 3GGP 353 210-••G 993 96.0 95.8 0.83 293 7.0 1539 2.0 2.6 7.9 1520 75
200 M3GP 355 SMB 3GGP 353 220-••G 993 96.2 96.1 0.84 357 7.2 1923 2.2 2.7 9.7 1680 75
250 M3GP 355 SMC 3GGP 353 230-••G 993 96.5 96.3 0.83 450 7.4 2404 2.6 2.9 11.3 1820 75
315 M3GP 355 MLB 3GGP 353 420-••G 992 96.4 96.3 0.83 570 7.0 3032 2.5 2.7 13.5 2180 75
355 M3GP 355 LKA 3GGP 353 810-••G 992 96.6 96.5 0.83 640 7.6 3417 2.7 2.9 15.5 2500 75
400 M3GP 400 LKA 3GGP 403 810-••G 993 96.7 96.6 0.82 730 7.1 3847 2.3 2.7 17 2900 76
400 M3GP 400 LA 3GGP 403 510-••G 993 96.7 96.6 0.82 730 7.1 3847 2.3 2.7 17 2900 76
450 M3GP 400 LKB 3GGP 403 820-••G 994 96.9 96.7 0.82 818 7.4 4323 2.4 2.8 20.5 3150 76
450 M3GP 400 LB 3GGP 403 520-••G 994 96.9 96.7 0.82 818 7.4 4323 2.4 2.8 20.5 3150 76
500 M3GP 400 LC 3GGP 403 530-••G 993 96.9 96.8 0.83 900 7.2 4808 2.5 2.7 22 3300 76
500 M3GP 400 LKC 3GGP 403 830-••G 993 96.9 96.8 0.83 900 7.2 4808 2.5 2.7 22 3300 76
560 M3GP 400 LKD 3GGP 403 840-••G 993 96.9 96.8 0.85 985 7.4 5385 2.4 3.0 24 3400 77
560 M3GP 400 LD 3GGP 403 540-••G 993 96.9 96.8 0.85 985 7.4 5385 2.4 3.0 24 3400 77
14 1)2)
M3GP 160 MLC 3GGP 163 430-••G 969 89.3 89.3 0.75 31 7.9 138 2.8 3.9 0.121 188 64
18.5 M3GP 180 MLC 3GGP 183 430-••G 975 90.4 90.1 0.74 41 7.2 181 2.0 3.2 0.221 233 61
30 M3GP 200 MLC 3GGP 203 430-••G 983 91.9 91.8 0.81 60 7.5 292 3.5 3.4 0.49 305 65
37 M3GP 225 SMC 3GGP 223 230-••G 983 93.0 93.1 0.83 70 7.1 359 3.0 2.8 0.75 380 64
45 M3GP 250 SMB 3GGP 253 220-••G 986 93.9 93.9 0.82 85 7.2 436 3.3 2.8 1.49 465 65
75 M3GP 280 SMC 3GGP 283 230-••G 990 95.1 95.2 0.84 137 7.3 723 2.8 2.7 2.85 725 66

7
Notes:
When ordering motors, the following variant code has to be added:
1)
2)
Nominal power lower than CENELEC + 1
- cast iron frame
Output
kW
50 Hz
r/min
factor
cos M
of inertia
J=1/4 GD2
kgm2
Weight
kg
Sound
pressure
level LP
dB(A)
FL
100%
FL
75%
IN
A
Is
IN
TN
Nm
Ts
TN
Tmax
TN
0.18 M2GP 80 MA 3GGP 084 310-••A 685 53.2 52.3 0.61 0.85 2.5 2.46 1.8 1.9 0.00111 16 42
0.25 M2GP 80 MB 3GGP 084 320-••A 685 56.5 55.4 0.61 1.11 2.7 3.41 2.2 2.3 0.00326 17 42
0.37 M2GP 90 SA 3GGP 094 110-••A 703 64.2 63.8 0.61 1.48 3.3 5 2.2 2.9 0.00541 21 46
0.55 M2GP 90 LA 3GGP 094 510-••A 699 65.1 65.0 0.61 2.15 3.3 7.5 2.2 2.8 0.00756 24 46
0.75 M2GP 100 LA 3GGP 104 510-••A 700 71.4 71.4 0.65 2.35 3.3 10 1.6 2.1 0.00971 31 53
1.1 M2GP 100 LB 3GGP 104 520-••A 695 72.8 71.6 0.66 3.39 3.4 15.1 1.8 2.2 0.01186 34 53
1.5 M2GP 112 MA 3GGP 114 310-••A 701 76.1 76.5 0.69 4.71 3.0 20 1.8 2.2 0.01559 42 55
2.2 M2GP 132 SA 3GGP 134 110-••A 710 81.9 82.6 0.71 5.6 5.5 29.59 1.8 2.5 0.03625 56 55
3 M2GP 132 MA 3GGP 134 310-••A 710 81.9 82.2 0.76 7.51 4.9 40 2.5 2.8 0.04141 64 56
4 M3GP 160 MLA 3GGP 164 410-••G 717 83.7 83.8 0.71 10.1 5.2 53 1.8 2.8 0.071 146 59
5.5 M3GP 160 MLB 3GGP 164 420-••G 715 84.7 85.2 0.71 13.9 5.2 73 1.9 2.8 0.09 160 53
7.5 M3GP 160 MLC 3GGP 164 430-••G 718 86.9 87.6 0.70 18.4 5.7 100 2.1 3.1 0.121 188 55
11 M3GP 180 MLB 3GGP 184 420-••G 724 90.3 90.4 0.73 24.5 5.7 145 1.7 2.7 0.239 227 63
15 M3GP 200 MLA 3GGP 204 410-••G 734 90.7 90.8 0.79 31 7.0 195 2.4 3.2 0.45 280 56
18.5 M3GP 225 SMA 3GGP 224 210-••G 734 90.8 90.8 0.74 41 6.1 241 2.2 3.0 0.61 335 55
22 M3GP 225 SMB 3GGP 224 220-••G 732 91.0 91.3 0.77 46 6.5 287 2.2 2.9 0.68 350 56
30 M3GP 250 SMA 3GGP 254 210-••G 735 92.3 92.4 0.79 61 6.7 390 2.0 2.9 1.25 420 56
37 M3GP 280 SMA 3GGP 284 210-••G 741 93.4 93.3 0.78 74 7.3 477 1.7 3.0 1.85 605 65
45 M3GP 280 SMB 3GGP 284 220-••G 741 94.1 93.8 0.78 90 7.6 580 1.8 3.1 2.2 645 65
55 M3GP 315 SMA 3GGP 314 210-••G 742 94.1 94.0 0.81 104 7.1 708 1.6 2.7 3.2 830 62
75 M3GP 315 SMB 3GGP 314 220-••G 741 94.5 94.4 0.82 141 7.1 968 1.7 2.7 4.1 930 62
90 M3GP 315 SMC 3GGP 314 230-••G 741 94.8 94.7 0.82 167 7.4 1161 1.8 2.7 4.9 1000 64
110 M3GP 315 MLA 3GGP 314 410-••G 740 95.0 95.0 0.83 203 7.3 1420 1.8 2.7 5.8 1150 72
132 M3GP 355 SMA 3GGP 354 210-••G 744 95.7 95.6 0.80 250 7.5 1694 1.5 2.6 7.9 1520 69
160 M3GP 355 SMB 3GGP 354 220-••G 744 95.7 95.6 0.80 305 7.6 2054 1.6 2.6 9.7 1680 69
200 M3GP 355 SMC 3GGP 354 230-••G 743 95.7 95.6 0.80 378 7.4 2570 1.6 2.6 11.3 1820 69
250 M3GP 355 MLB 3GGP 354 420-••G 743 95.9 95.8 0.80 476 7.5 3213 1.6 2.7 13.5 2180 72
315 M3GP 400 LA 3GGP 404 510-••G 744 96.4 96.3 0.81 582 7.0 4043 1.2 2.6 17 2900 71
315 M3GP 400 LKA 3GGP 404 810-••G 744 96.4 96.3 0.81 582 7.0 4043 1.2 2.6 17 2900 71
355 M3GP 400 LKB 3GGP 404 820-••G 743 96.5 96.5 0.83 640 6.8 4563 1.2 2.5 21 3200 71
355 M3GP 400 LB 3GGP 404 520-••G 743 96.5 96.5 0.83 640 6.8 4563 1.2 2.5 21 3200 71
400 M3GP 400 LC 3GGP 404 530-••G 744 96.6 96.5 0.82 735 7.4 5134 1.3 2.7 24 3400 71
400 M3GP 400 LKC 3GGP 404 830-••G 744 96.6 96.5 0.82 735 7.4 5134 1.3 2.7 24 3400 71
18.5 M3GP 200 MLB 3GGP 204 420-••G 734 90.6 90.8 0.80 37.5 6.9 241 2.2 3.2 0.54 300 57
30 1)
M3GP 225 SMC 3GGP 224 230-••G 731 90.6 91.0 0.77 63 6.3 392 2.3 3.0 0.75 375 59
37 M3GP 250 SMB 3GGP 254 220-••G 737 93.0 92.9 0.78 75 7.5 479 2.3 3.4 1.52 465 59
55 M3GP 280 SMC 3GGP 284 230-••G 741 94.4 94.3 0.80 105 7.9 709 1.9 3.1 2.85 725 65

7
Rating plates
European standards require a special marking on dust
ignition proof motors. The marking shall include the
following:
- apparatus category
- temperature class
- name and EC reference number of the notiﬁed body
given output. Aluminum motors in category 3D, frame
sizes 90 to 100, are self-certiﬁed.
For cast iron motor sizes 160 to 400 the rating plate is
in table form giving values for speed, current and power
factor for six voltages.
Aluminum motors, sizes 71-80 Aluminum motors, sizes 90-100
Cast iron motors, sizes 80-132 Cast iron motors, sizes 80-400
Aluminum motors, sizes 112-132 Aluminum motors, sizes 160-280
M000233
M000235
M000237
M000234M000236
M000238

7
1)
R = On request.
Code 1)
/Variant 71 80 90 100 112 132 160 180 200 225 250 280
Balancing
052 Vibration acc. to Grade A (IEC 60034-14). P P S S S S S S S S S S
417 Vibration acc. to Grade B (IEC 60034-14). NA NA P NA P P R R R R R R
423 Balanced without key P P P P NA NA R R R R R R
424 Full key balancing. P P P P P P P P P P P P
036 Transport lock for bearings. NA NA M M M M M M M M M M
037 Roller bearing at D-end. NA NA M M P P NA NA NA NA NA NA
039 Cold resistant grease. M M M M M M NA NA NA NA NA NA
040 Heat resistant grease. M M M M M P S S S S S S
041 Bearings regreasable via grease nipples. N N M M P P NA NA NA NA NA NA
042 Locked drive-end. M M S S S S S S S S S S
043 SPM nipples. NA NA NA NA NA NA M M M M M M
057 2RS bearings at both ends. M M M M P P S S S S S S
058 Angular contact bearing at D-end, shaft force away from
bearing.
NA NA P P P P NA NA NA NA NA NA
059 Angular contact bearing at N-end, shaft force towards
bearing.
797 Stainless steel SPM Nipples NA NA NA NA NA NA P P P P P P
079 Silumin-alloy rotor cage. P P P P P P NA NA NA NA NA NA
142 “Manilla connection” NA NA P P P P P P P P P P
178 Stainless steel / acid proof bolts. M M M M M M M M M M M M
209 Non-standard voltage or frequency, (special winding). P P P P P P P P P P P P
217 Cast iron D-end shield (on aluminum motor). NA NA M M M M R R R R R S
232 Cast iron N-end shield (on aluminum motor). NA NA NA NA NA NA R R R R R R
425 Corrosion protected stator and rotor core. P P P P P P P P P P P P
Cooling system
068 Metal fan. M M M M M M M M M M M M
075 Cooling method IC418 (without fan). P P P P P P NA NA NA NA NA NA
183 Separate motor cooling (fan axial, N-end). M M M M M P NA NA NA NA NA NA
189 Separate motor cooling, IP44, 400V, 50Hz
(fan axial, N-end).
NA NA NA NA NA NA M M M M M M
Documentation
141 Binding dimension drawing. M M M M M M M M M M M M
Drain holes
065 Plugged existing drain holes. M M M M M M S S S S S S
Earthing Bolt
067 External earthing bolt. M M M M M M S S S S S S
T= 125 °C, cat. 3D, IP55
M M M M M M NA NA NA NA NA NA
T= 125 °C, cat. 2D, IP65
M M P P P P M M M M M M
Dust ignition proof Ex tD (DIP) aluminum
motors 2D - Variant codes

7
1)
R = On request.
Code 1)
/Variant 71 80 90 100 112 132 160 180 200 225 250 280
Heating elements
450 Heating element, 100-120V. M M M M M M M M M M M M
451 Heating element, 200-240V. M M M M M M M M M M M M
Insulation system
014 Winding insulation class H. P P P P P P NA NA NA NA NA NA
405 Special winding insulation for frequency converter supply. NA NA P P P P P P P P P P
from B3).
M M M M M NA NA NA NA NA NA NA
(B34 from B3).
M M M M M M M NA NA NA NA NA
(B35 from B3).
M M M M M M M M M M M M
from B5).
M M M M M M M NA NA NA NA NA
from B14).
066 Modified for non-standard mounting position
(please specify IM xxxx), (must be ordered for all mounting
arrangements exluding IM B3 (1001) and IM B5 (3001).
078 (IM 3601) Flange mounted, DIN C-flange. P P NA NA NA NA NA NA NA NA NA NA
080 (IM 3001) Flange mounted, DIN A-flange. P NA NA M NA NA NA NA NA NA NA NA
090 (IM 2101) foot/flange mounted, DIN C-flange,
P P NA NA NA NA NA NA NA NA NA NA
091 (IM 2001) foot/flange mounted, DIN A-flange,
P NA M M NA NA NA NA NA NA NA NA
200 Flange ring holder. M M M M M M NA NA NA NA NA NA
216 Flange ring FF 85. M M NA NA NA NA NA NA NA NA NA NA
218 Flange ring FT 85. M M M NA NA NA NA NA NA NA NA NA
220 Flange ring FF 100. M M M NA NA NA NA NA NA NA NA NA
223 Flange ring FF 115. M M M NA NA NA NA NA NA NA NA NA
226 Flange ring FF 130. M M M M M NA NA NA NA NA NA NA
227 Flange ring FT 130. M M M M M NA NA NA NA NA NA NA
229 Flange FT 130. NA NA M M M NA NA NA NA NA NA NA
233 Flange ring FF 165. M M M M M NA NA NA NA NA NA NA
234 Flange ring FT 165. M M M M M NA NA NA NA NA NA NA
235 Flange FF 165. NA NA M M M NA NA NA NA NA NA NA
236 Flange FT 165. NA NA NA NA NA M NA NA NA NA NA NA
243 Flange ring FF 215. NA NA P M M M NA NA NA NA NA NA
244 Flange ring FT 215. NA NA NA M M M NA NA NA NA NA NA
245 Flange FF 215. NA NA NA M M NA NA NA NA NA NA NA
253 Flange ring FF 265. NA NA NA NA NA M NA NA NA NA NA NA
254 Flange ring FT 265. NA NA NA NA NA M NA NA NA NA NA NA
255 Flange FF 265. NA NA NA NA NA M NA NA NA NA NA NA
260 Flange FT 115. NA NA M M NA NA NA NA NA NA NA NA
306 IM 1001 foot mounted, from IM 3601 (B3 from B14). M M M M M NA NA NA NA NA NA NA

7
1)
R = On request.
Code 1)
/Variant 71 80 90 100 112 132 160 180 200 225 250 280
316 IM 1001 foot mounted, from IM 2001 (B3 from B35). M M M M M M NA NA NA NA NA NA
Painting
114 Special paint colour, standard grade. M M M M M M M M M M M M
179 Special paint specification. NA NA P P P P R R R R R R
Protection
005 Metal protective roof, vertical motor, shaft down. M M M M M M M M M M M M
072 Radial seal at D-end. M M M M M M NA NA NA NA NA NA
073 Sealed against oil at D-end. M M NA NA NA NA NA NA NA NA NA NA
076 Draining holes with plugs. Felt plugs. S S NA NA NA NA NA NA NA NA NA NA
158 Degree of protection IP65. M M M M M P S S S S S S
211 Weather protected, IP xx W NA NA P P P P NA NA NA NA NA NA
403 Degree of protection IP56. M M M M P P NA NA NA NA NA NA
404 Degree of protection IP56, without fan and fan cover P P P P P P NA NA NA NA NA NA
784 Gamma-seal at D-end. NA NA M M NA NA S S S S S S
002 Restamping voltage, frequency and output, continuous duty. M M M M M M M M M M M M
003 Individual serial number. P P M M M M S S S S S S
004 Additional text on std rating plate
(max 12 digits on free text line)
NA NA NA NA M M NA NA NA NA NA NA
intermittent duty.
M M M M M M R R R R R R
098 Stainless rating plate. M M M M M M NA NA NA NA NA NA
135 Mounting of additional identification plate, stainless. M M M M M M NA NA NA NA NA NA
138 Mounting of additional identification plate, aluminum. M M M M M M M M M M M M
139 Additional identification plate delivered loose. M M M M M M M M M M M M
160 Additional rating plate affixed. M M M M M M M M M M M M
161 Additional rating plate delivered loose. M M M M M M M M M M M M
162 Rating plate fixed to stator. NA NA M M M M S S S S S S

7
1)
R = On request.
Code 1)
/Variant 71 80 90 100 112 132 160 180 200 225 250 280
163 Frequency converter rating plate.
Rating data according to quotation.
198 Aluminum rating plate. S S M M M M S S S S S S
Shaft & rotor
069 Two shaft extensions as per basic catalogue. P P P P P P R R R R R R
material.
P P P P P P R R R R R R
131 Motor delivered with half key (Key not exceeding shaft
diameter)
165 Shaft extension with open key-way. P P P P P P NA NA NA NA NA NA
410 Stainless steel shaft (standard or non-standard design). P P P P P P NA NA NA NA NA NA
M M M M P P NA NA NA NA NA NA
125 Bimetal detectors, break type (NCC), (2x3 in series),
M M M M P P M M M M M M
M M M M P P M M M M M M
325 Bimetal detectors, closing type (NO), (2x3 in parallel),
435 PTC - thermistors (3 in series), 130°C, in stator winding. M M M M M M M M M M M M
436 PTC - thermistors (3 in series), 150°C, in stator winding. M M M M M M M M S S S S
437 PTC - thermistors (3 in series), 170°C, in stator winding. M M M M M M NA NA NA NA NA NA
439 PTC - thermistors (2x3 in series), 150°C, in stator winding. M M M M M P M M M M M M
M M NA NA NA NA NA NA NA NA NA NA
M M M M P M M M M M M M
M M NA NA NA NA M M M M M M
445 Pt-100 2-wire in stator winding, 1 per phase NA NA NA NA NA NA M M M M M M
446 Pt-100 2-wire in stator winding, 2 per phase NA NA NA NA NA NA M M M M M M
Terminal box
015 Motor supplied in D connection. M M M M NA NA M M M M M M
016 9 terminals in terminal box NA NA P P P P NA NA NA NA NA NA
017 Motor supplied in Y connection. M M M M NA NA M M M M M M
NA NA M M NA NA NA NA NA NA NA NA

7
1)
R = On request.
Code 1)
/Variant 71 80 90 100 112 132 160 180 200 225 250 280
019 Larger than standard terminal box NA NA NA NA NA NA R R R R R NA
021 Terminal box LHS (seen from D-end). M M P P NA NA - - P P P P
022 Cable entry LHS (seen from D-end). S S NA NA NA NA P P P P P P
136 Extended cable connection, standard terminal box. M M M M NA NA R R R R R R
137 Extended cable connection, low terminal box,
“Flying leads”.
M M P P P P NA NA NA NA NA NA
157 Terminal box degree of protection IP65. P P NA NA NA NA S S S S S S
180 Terminal box RHS (seen from D-end). M M P P P NA - - P P P P
187 Cable glands of non-standard design. NA NA NA NA NA NA R R R R R R
230 Standard metal cable glands. M M M M M M M M M M M M
375 Standard plastic cable gland M M M M M M NA NA NA NA NA NA
376 Two standard plastic cable glands M M M M M M NA NA NA NA NA NA
418 Separate terminal box for auxiliaries, std. material NA NA NA NA NA NA M M M M M M
731 Two standard metal cable glands. M M M M M M M M M M M M
732 Standard cable gland, EEx d IIB, armoured cable. M M NA NA NA NA NA NA NA NA NA NA
738 Prepared for metric cable glands. NA NA NA NA NA NA S S S S S S
Testing
140 Test confirmation M M NA NA NA NA M M M M M M
145 Type test report from a catalogue motor, 400V 50Hz. M M M M M M M M M M M M
146 Type test with report for motor from specific delivery batch. M M M M M M M M M M M M
customer witnessed.
148 Routine test report. M M M M M M M M M M M M
149 Test according to separate test specification. M M M M M M R R R R R R
153 Reduced test for classification society. M M M M M M M M M M M M
221 Type test and multi-point load test with report for motor from
specific delivery batch.
222 Torque/speed curve, type test and multi-point load test with
report for motor from specific delivery batch.
760 Vibration level test P P M M M M M M M M M M
761 Vibration spectrum test. NA NA NA NA NA NA R R R R R R
762 Noise level test. P P M M M M M M M M M M
763 Noise spectrum test. NA NA NA NA NA NA R R R R R R
764 Complete test with ABB frequency converter. NA NA NA NA NA NA R R R R R R
181 Rating plate with ABB standard loadability values
for VSD operation. Other auxiliaries for VSD operation
to be selected as necessary.
S S NA NA NA NA NA NA NA NA NA NA
182 Pulse sensor mounted as specified. NA NA NA NA NA NA R R R R R R
470 Prepared for hollow shaft pulse tacho (L&L equivalent). NA NA NA NA NA NA M M M M M M
472 1024 pulse tacho (L&L 861). NA NA NA NA NA NA R R R R R R
473 2048 pulse tacho (L&L 861). NA NA NA NA NA NA R R R R R R
570 Prepared for hollow shaft pulse tacho (L&L 503). NA NA NA NA NA NA M M M M M M
701 Insulated bearing at N-end. NA NA NA NA NA NA NA NA M M M M
704 EMC cable gland. NA NA P P P P M M M M M M
Y/D starting
118 Terminals for Y/D start at high speed (two speed windings). NA NA P P P P NA NA NA NA NA NA

7
1)
R = On request.
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
Balancing
417 Vibration acc. to Grade B (IEC 60034-14). M M M M M P P P P P P P P P
424 Full key balancing. M M M M M P P P P P P P P P
036 Transport lock for bearings. NA NA NA NA NA M M M M M P P P P
037 Roller bearing at D-end. NA NA NA NA NA M M M M M M M NA NA
040 Heat resistant grease. NA NA NA NA NA S S S S S S S S S
058 Angular contact bearing at D-end,
shaft force away from bearing.
194 2Z bearings greased for life at both ends. S S S S S M M M M M NA NA NA NA
433 Outlet grease collector. NA NA NA NA NA NA NA NA NA NA P P P P
796 Grease nipples JIS B 1575 PT 1/8 Type A. NA NA NA NA NA P P P P P P P P P
797 Stainless steel SPM nipples. NA NA NA NA NA M M M M M M M P P
798 Stainless steel grease nipples. NA NA NA NA NA M M M M M M M P P
Brakes
412 Built-on brake. NA NA NA NA NA R R R R R R R R R
142 “Manilla connection” NA NA NA NA NA R R R R R R R R R
178 Stainless steel / acid proof bolts. M M M M M M M M M M M M P P
204 Jacking bolts for foot mounted motors. NA NA NA NA NA P P P P P P P S S
398 Motor designed for ambient temperature -20°C to -40°C. R R R R R P P P P P P P P P
399 Motor designed for ambient temperature -40°C to -55°C. R R R R R P P P P P P P P P
mounting.
R R R R R P P P P P NA NA NA NA
Cooling system
044 Unidirectional fan for reduced noice level. Rotation clock-
wise seen from D-end. Available only for 2-pole motors.
068 Metal fan. M M M M M M M M M M M M P P
075 Cooling method IC418 (without fan). R R R R R R R R R R R R R NA
183 Separate motor cooling (fan axial, N-end). NA NA NA NA NA P P P P P P P P P
422 Separate motor cooling (fan top or side, N-end). NA NA NA NA NA NA NA NA NA NA P P P P
791 Stainless steel fan cover. NA NA NA NA NA NA NA NA P P P P P P
Dust ignition proof Ex tD (DIP) 2D cast iron motors
- Variant codes

7
1)
R = On request.
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
Coupling
035 Assembly of customer supplied coupling-half. R R R R R P P P P P P P P P
Documentation
Drain holes
065 Plugged existing drain holes. M M M M M M M M M M M M P P
Earthing Bolt
067 External earthing bolt. S S S S S S S S S S S S S S
452 DIP/Ex tD acc. to ATEX directive 94/9/EC ,
T= 125 °C, cat. 3D, IP55.
M M M M M M M M M M M M P P
T= 125 °C, cat. 2D, IP65.
T= 125 °C, cat. 3D, IP65.
M M M M M M M M M M M M P NA
804 DIP/Ex tD, IEC 61241, T125 °C, IP55 (zone 22). M M M M M M M M M M M M P P
814 Ex tD (DIP) motors, temperature class T 150C M M M M M M M M M M M M P P
Heating elements
450 Heating element, 100-120V. M M M M M M M M M M M M P P
451 Heating element, 200-240V. M M M M M M M M M M M M P P
Insulation system
014 Winding insulation class H. NA NA NA NA NA P P P P P P P P P
405 Special winding insulation for frequency converter supply. NA NA NA NA NA P P P P P P P P P
406 Winding for supply >690<=1000 Volts. NA NA NA NA NA NA NA NA NA NA P P P P
M M M M NA NA NA NA NA NA NA NA NA NA
NA NA NA NA NA NA NA NA NA NA NA NA NA NA
specify IM xxxx), (must be ordered for all mounting
M M M M M M M M M M M M M P
Painting
106 Paint thickness = 80 µm. NA NA NA NA NA S S S S S S S S S
109 Paint thickness = 120 µm. NA NA NA NA NA M M M M M M M P P
110 Paint thickness = 160 µm. NA NA NA NA NA M M M M M M M P P
111 Offshore two-pack polyamide cured epoxy paint 160 µm. P P P P P M M M M M P P P P
114 Special paint colour, standard grade. M M M M M M M M M M M M P P

7
1)
R = On request.
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
Protection
005 Metal protective roof, vertical motor, shaft down. M M M M M M M M M M M M P P
072 Radial seal at D-end. P P P P P M M M M M P P P P
073 Sealed against oil at D-end. NA NA NA NA NA P P P P P P P P P
076 Draining holes with plugs. Felt plugs. M M M M M NA NA NA NA NA NA NA NA NA
158 Degree of protection IP65. M M M M M M M M M M M M P P
211 Weather protected, IP xx W R R R R R R R R R R R R R R
403 Degree of protection IP56. M M M M M M M M M M M M P P
404 Degree of protection IP56, without fan and fan cover. NA NA NA NA NA P P P P P P P NA NA
434 Degree of protection IP56, open deck. R R R R R P P P P P P P P P
783 Labyrinth sealing at D-end. NA NA NA NA NA P P P P P P P S S
duty.
intermittent duty.
R R R R R M M M M M P P P P
098 Stainless rating plate. S S S S S S S S S S S S S S
135 Mounting of additional identification plate, stainless. M M M M M M M M M M M M P P
139 Additional identification plate delivered loose. M M M M M M M M M M M M P P
161 Additional rating plate delivered loose. M M M M M M M M M M M M P P
to quotation.
Shaft & rotor
069 Two shaft extensions as per basic catalogue. NA NA NA NA NA P P P P P P P P P
material.
164 Shaft extension with closed key-way. R R R R R S S S S S R R R R
165 Shaft extension with open key-way. S S S S S R R R R R S S S S
410 Stainless steel shaft (standard or non-standard design). NA NA NA NA NA R R R R R P P P P
M M M M M P P P P P P P P P
773 EEMUA No 132 1988 design. NA NA NA NA NA P P P R R R R R R
778 GOST Export/Import Certificate (Russia). M M M M M M M M M M M M P P
779 SASO Export/Import Certificate (Saudi Arabia). NA NA NA NA NA M M M M M M M P P
120 KTY 84-130 (1 per phase) in stator winding. NA NA NA NA NA P P P P P P P P P
435 PTC - thermistors (3 in series), 130°C, in stator winding. M M M M M M M M M M M M P P
436 PTC - thermistors (3 in series), 150°C, in stator winding. S S S S S S S S S S S S S S
438 PTC -thermistors (3 in series), 190°C, in stator winding. NA NA NA NA NA P P P P P P P P P
439 PTC - thermistors (2x3 in series), 150°C, in stator winding. P P P P P M M M M M M M P P
441 PTC - thermistors (3 in series, 130°C & 3 in series, 150°C),
in stator winding.
P P P P P M M M M M M M P P

7
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
Terminal box
021 Terminal box LHS (seen from D-end). NA NA NA NA NA P P P P P P P P P
022 Cable entry LHS (seen from D-end). P P P P P M M M M M M M P P
leads”.
157 Terminal box degree of protection IP65. M M M M M M M M M M M M P P
180 Terminal box RHS (seen from D-end). P P P P P P P P P P P P P P
380 Separate terminal box for temperature detectors,
std. Material.
400 4 x 90 degr turnable terminal box. S S S S S M M S S S S S S S
418 Separate terminal box for auxiliaries, std. Material. NA NA NA NA NA P P P P P P P P P
equipment.
NA NA NA NA NA NA NA NA NA NA M M P NA
466 Terminal box at N-end. NA NA NA NA NA R R R R R P P P P
468 Cable entry from D-end. M M M M M M M M M M P P P P
469 Cable entry from N-end. M M M M M M M M M M P P P P
567 Separate terminal box material: Cast Iron. NA NA NA NA NA P P P P P P P P P
568 Separate terminal box for heating elements, std. Material. NA NA NA NA NA P P P P P P P P P
569 Separate terminal box for brakes. NA NA NA NA NA P P P P P P P P P
729 Cable flanges without holes/ Blank gland plates. P P P P P P P P P P P P P P
730 Prepared for NPT cable glands. P P P P P P P P P P P P P P
732 Standard cable gland, Ex d IIB, armoured cable. NA NA NA NA NA M M M M M M M P P
733 Standard cable gland, Ex d IIB, non-armoured cable. NA NA NA NA NA M M M M M M M P P
736 Standard cable gland Ex e acc. to EN-Standards. M M M M M S S S S S S S S S
737 Standard cable gland Ex e with clamping device acc.
to EN-Standards.
741 Motor equipped with E x e terminal box (EN 50019). NA NA NA NA NA M M M M M M M P P
743 Painted flange for cable glands. NA NA NA NA NA M M M M M M M P P
744 Stainless steel flange for cable glands. NA NA NA NA NA M M M M M M M P P
745 Painted steel flange equipped with brass cable glands. P P P P P M M M M M M M P P
746 Stainless steel cable flange equipped with standard brass
cable glands.
Testing
140 Test confirmation. NA NA NA NA NA NA NA NA NA NA NA NA NA NA
145 Type test report from a catalogue motor, 400V 50Hz. M M M M M M M M M M M M P P
146 Type test with report for motor from specific delivery batch. R R R R R P P P P P P P P P
148 Routine test report. M M M M M M M M M M M M P P
150 Customer witnessed testing. Specify test procedure with
other codes.
222 Torque/speed curve, type test and multi-point load test with
report for motor from specific delivery batch.
760 Vibration level test. M M M M M M M M M M M M P P
1)
R = On request.

7
Code 1)
/ Variant 80 90 100 112 132 160 180 200 225 250 280 315 355 400
762 Noise level test. P P P P P M M M M M M M P P
763 Noise spectrum test. P P P P P P P P P P P P P P
764 Test with ABB frequency converter available at ABB test
ﬁeld. ABB standard test procedure.
181 Rating plate with ABB standard loadability values for VSD
operation. Other auxiliaries for VSD operation to be
selected as necessary.
NA NA NA NA NA M M M M M M M P P
182 Pulse sensor mounted as speciﬁed. NA NA NA NA NA R R R R R P P P P
429 Separate motor cooling (fan top, N-end) and 1024 pulse
tacho (Leine & Linde 861) mounted.
470 Prepared for hollow shaft pulse tacho (L&L equivalent). NA NA NA NA NA P P P P P P P P P
472 1024 pulse tacho (L&L 861). NA NA NA NA NA P P P P P P P P P
473 2048 pulse tacho (L&L 861). NA NA NA NA NA P P P P P P P P P
474 Separate motor cooling (fan axial, N-end) and prepared
for hollow shaft tacho (L&L equivalent).
476 Separate motor cooling (fan axial, N-end) and 1024 pulse
tacho (L&L 861).
477 Separate motor cooling (fan axial, N-end) and 2048 pulse
tacho (L&L 861).
478 Separate motor cooling (fan top, N-end) and prepared for
hollow shaft tacho (L&L equivalent).
NA NA NA NA NA NA NA P P P P P P P
479 Mounting of other type of pulse tacho with shaft extension,
tacho not included.
NA NA NA NA NA R R R R R P P P P
486 Separate motor cooling (fan top, N-end) and prepared for
DC-tacho.
NA NA NA NA NA NA NA P P P P P P P
510 Separate motor cooling (fan top, N-end) and 2048 pulse
tacho (Leine & Linde 861) mounted
680 2048 pulse tacho, Ex d, tD, L&L 841910001 NA NA NA NA NA R R R R R R R R R
701 Insulated bearing at N-end. NA NA NA NA NA NA NA NA NA NA M M P P
704 EMC cable gland. NA NA NA NA NA M M M M M M M P P
747 1024 pulse tacho, Ex d, tD, L&L 841910002 NA NA NA NA NA R R R R R R R R R
Y/D starting
117 Terminals for Y/D start at both speeds (two speed wind-
ings).
118 Terminals for Y/D start at high speed (two speed windings). NA NA NA NA NA R R R R R P P R R
119 Terminals for Y/D start at low speed (two speed windings). NA NA NA NA NA R R R R R P P R R
1)
R = On request.

7
1)
R = On request.
Code 1)
/Variant 56 63 71 80 90 100 112 132 160 180 200 225 250 280
Balancing
052 Vibration acc. to Grade A (IEC 60034-14). P P P P S S S S S S S S S S
417 Vibration acc. to Grade B (IEC 60034-14). NA NA NA NA P NA P P R R R R R R
423 Balanced without key P P P P P P NA NA R R R R R R
036 Transport lock for bearings. NA NA NA NA M M M M M M M M M M
037 Roller bearing at D-end. NA NA NA NA M M P P M M M M M M
039 Cold resistant grease. M M M M M M M M NA NA NA NA NA NA
040 Heat resistant grease. M M M M M M M P S S S S S S
041 Bearings regreasable via grease nipples. N N N N M M P P M M S S S S
042 Locked drive-end. P M M M S S S S S S S S S S
043 SPM nipples. NA NA NA NA NA NA NA NA M M M M M M
057 2RS bearings at both ends. M M M M M M P P M M M M M M
from bearing.
NA NA NA NA P P P P M M M M M M
059 Angular contact bearing at N-end, shaft force towards
bearing.
NA NA NA NA P P P P M M M M M M
107 Pt100 2-wire in bearings NA NA NA NA NA NA NA NA NA NA R R R R
797 Stainless steel SPM Nipples NA NA NA NA NA NA NA NA P P P P P P
079 Silumin-alloy rotor cage. P P P P P P P P NA NA NA NA NA NA
142 “Manilla connection” NA NA NA NA P P P P P P P P P P
178 Stainless steel / acid proof bolts. M M M M M M M M M M M M M M
217 Cast iron D-end shield (on aluminum motor). NA NA NA NA M M M M R R R R R S
232 Cast iron N-end shield (on aluminum motor). NA NA NA NA NA NA NA NA R R R R R R
425 Corrosion protected stator and rotor core. P P P P P P P P P P P P P P
Cooling system
068 Metal fan. NA NA M M M M M M M M M M M M
075 Cooling method IC418 (without fan). P P P P P P P P NA NA NA NA NA NA
183 Separate motor cooling (fan axial, N-end). NA NA M M M M M P NA NA NA NA NA NA
Documentation
Drain holes
065 Plugged existing drain holes. M M M M M M M M S S S S S S
Earthing Bolt
067 External earthing bolt. M M M M M M M M S S S S S S
T= 125 °C, cat. 3D, IP55
M M M M M M M M NA NA NA NA NA NA
T= 125 °C, cat. 2D, IP65
NA NA M M P P P P NA NA NA NA NA NA
T= 125 °C, cat. 3D, IP65
NA NA NA NA NA NA NA NA M M M M M M
Dust ignition proof Ex tD (DIP) aluminum motors 3D
- Variant codes

7
1)
R = On request.
Code 1)
/Variant 56 63 71 80 90 100 112 132 160 180 200 225 250 280
480 Ex nA II acc. to ATEX directive 94/9/EC, temp. class T3 NA NA NA NA NA NA NA NA M M M M M M
804 DIP/Ex tD, IEC 61241, T125 °C, IP55 (zone 22) NA NA NA NA NA NA NA NA M M M M M M
Heating elements
450 Heating element, 100-120V. M M M M M M M M M M M M M M
451 Heating element, 200-240V. M M M M M M M M M M M M M M
Insulation system
014 Winding insulation class H. P P P P P P P P NA NA NA NA NA NA
405 Special winding insulation for frequency converter supply. NA NA NA NA P P P P P P P P P P
NA M M M M M M NA NA NA NA NA NA NA
M M M M M M M M M NA NA NA NA NA
M M M M M M M M M M M M M M
M M M M M M M M M NA NA NA NA NA
specify IM xxxx), (must be ordered for all mounting
078 (IM 3601) Flange mounted, DIN C-flange. NA NA P P NA NA NA NA NA NA NA NA NA NA
080 (IM 3001) Flange mounted, DIN A-flange. NA NA P NA NA M NA NA NA NA NA NA NA NA
090 (IM 2101) foot/flange mounted, DIN C-flange,
NA NA P P NA NA NA NA NA NA NA NA NA NA
091 (IM 2001) foot/flange mounted, DIN A-flange,
NA NA P NA M M NA NA NA NA NA NA NA NA
M NA M M M M M NA NA NA NA NA NA NA
200 Flange ring holder. P P M M M M M M NA NA NA NA NA NA
216 Flange ring FF 85. NA NA M M NA NA NA NA NA NA NA NA NA NA
218 Flange ring FT 85. NA NA M M M NA NA NA NA NA NA NA NA NA
220 Flange ring FF 100. NA NA M M M NA NA NA NA NA NA NA NA NA
223 Flange ring FF 115. NA NA M M M NA NA NA NA NA NA NA NA NA
226 Flange ring FF 130. NA NA M M M M M NA NA NA NA NA NA NA
227 Flange ring FT 130. NA NA M M M M M NA NA NA NA NA NA NA
229 Flange FT 130. NA NA NA NA M M M NA NA NA NA NA NA NA
233 Flange ring FF 165. NA NA M M M M M NA NA NA NA NA NA NA
234 Flange ring FT 165. NA NA M M M M M NA NA NA NA NA NA NA
235 Flange FF 165. NA NA NA NA M M M NA NA NA NA NA NA NA
236 Flange FT 165. NA NA NA NA NA NA NA M NA NA NA NA NA NA
243 Flange ring FF 215. NA NA NA NA P M M M NA NA NA NA NA NA
244 Flange ring FT 215. NA NA NA NA NA M M M NA NA NA NA NA NA
245 Flange FF 215. NA NA NA NA NA M M NA NA NA NA NA NA NA
253 Flange ring FF 265. NA NA NA NA NA NA NA M NA NA NA NA NA NA
254 Flange ring FT 265. NA NA NA NA NA NA NA M NA NA NA NA NA NA
255 Flange FF 265. NA NA NA NA NA NA NA M NA NA NA NA NA NA

7
1)
R = On request.
Code 1)
/Variant 56 63 71 80 90 100 112 132 160 180 200 225 250 280
260 Flange FT 115. NA NA NA NA M M NA NA NA NA NA NA NA NA
306 IM 1001 foot mounted, from IM 3601 (B3 from B14). M NA M M M M M NA NA NA NA NA NA NA
NA NA M M M M M NA NA NA NA NA NA NA
309 IM 1001 foot mounted, from IM 3001 (B3 from B5). NA NA M M M M M NA NA NA NA NA NA NA
312 IM 1001 foot mounted, from IM 2101 (B3 from B34). NA NA M M M M M NA NA NA NA NA NA NA
316 IM 1001 foot mounted, from IM 2001 (B3 from B35). NA NA M M M M M M NA NA NA NA NA NA
Painting
114 Special paint colour, standard grade. M M M M M M M M M M M M M M
179 Special paint specification. NA NA NA NA P P P P R R R R R R
Protection
005 Metal protective roof, vertical motor, shaft down. M M M M M M M M M M M M M M
072 Radial seal at D-end. M M M M M M M M R R R R R R
073 Sealed against oil at D-end. M M M M NA NA NA NA NA NA NA NA NA NA
076 Draining holes with plugs. Felt plugs. S S S S NA NA NA NA NA NA NA NA NA NA
158 Degree of protection IP65. M M M M M M M P NA NA NA NA NA NA
211 Weather protected, IP xx W NA NA NA NA P P P P NA NA NA NA NA NA
403 Degree of protection IP56. M M M M M M P P NA NA NA NA NA NA
404 Degree of protection IP56, without fan and fan cover P P P P P P P P NA NA NA NA NA NA
784 Gamma-seal at D-end. NA NA NA NA M M NA NA M M M M M M
duty.
003 Individual serial number. P P P P M M M M S S S S S S
004 Additional text on std rating plate
(max 12 digits on free text line)
NA NA NA NA NA NA M M NA NA NA NA NA NA
intermittent duty.
M M M M M M M M R R R R R R
098 Stainless rating plate. M M M M M M M M NA NA NA NA NA NA
135 Mounting of additional identification plate, stainless. NA M M M M M M M NA NA NA NA NA NA
138 Mounting of additional identification plate, aluminum. M M M M M M M M M M M M M M
139 Additional identification plate delivered loose. M M M M M M M M M M M M M M
160 Additional rating plate affixed. M M M M M M M M M M M M M M

7
1)
R = On request.
Code 1)
/Variant 56 63 71 80 90 100 112 132 160 180 200 225 250 280
161 Additional rating plate delivered loose. M M M M M M M M M M M M M M
162 Rating plate ﬁxed to stator. NA NA NA NA M M M M S S S S S S
163 Frequency converter rating plate.
Rating data according to quotation.
198 Aluminum rating plate. S S S S M M M M S S S S S S
Shaft & rotor
069 Two shaft extensions as per basic catalogue. P P P P P P P P R R R R R R
070 One or two special shaft extensions,
standard shaft material.
P P P P P P P P R R R R R R
131 Motor delivered with half key
(Key not exceeding shaft diameter)
165 Shaft extension with open key-way. P P P P P P P P NA NA NA NA NA NA
410 Stainless steel shaft (standard or non-standard design). P P P P P P P P NA NA NA NA NA NA
(3 in series), 130°C, in stator winding.
M M M M M M P P NA NA NA NA NA NA
(2x3 in series), 150°C, in stator winding.
M M M M M M P P M M M M M M
(3 in series, 130°C & 3 in series, 150°C), in stator winding.
M M M M M M P P M M M M M M
321 Bimetal detectors, closing type (NO),
(3 in parallel), 130°C, in stator winding.
NA M M M M M M M NA NA NA NA NA NA
NA M M M M M M M NA NA NA NA NA NA
NA NA NA NA P P P P NA NA NA NA NA NA
(2x3 in parallel), 150°C, in stator winding.
435 PTC - thermistors (3 in series), 130°C, in stator winding. M M M M M M M M M M M M M M
436 PTC - thermistors (3 in series), 150°C, in stator winding. M M M M M M M M M M S S S S
437 PTC - thermistors (3 in series), 170°C, in stator winding. M M M M M M M M NA NA NA NA NA NA
439 PTC - thermistors (2x3 in series), 150°C, in stator winding. M M M M M M M P M M M M M M
M M M M NA NA NA NA NA NA NA NA NA NA
M M M M M M P M M M M M M M
M M M M NA NA NA NA M M M M M M
445 Pt-100 2-wire in stator winding, 1 per phase NA NA NA NA NA NA NA NA M M M M M M
446 Pt-100 2-wire in stator winding, 2 per phase NA NA NA NA NA NA NA NA M M M M M M
Terminal box
015 Motor supplied in D connection. M M M M M M NA NA M M M M M M
016 9 terminals in terminal box NA NA NA NA P P P P NA NA NA NA NA NA
017 Motor supplied in Y connection. M M M M M M NA NA M M M M M M

7
1)
R = On request.
Code 1)
/Variant 56 63 71 80 90 100 112 132 160 180 200 225 250 280
NA NA NA NA M M NA NA NA NA NA NA NA NA
019 Larger than standard terminal box NA NA NA NA NA NA NA NA R R R R R NA
021 Terminal box LHS (seen from D-end). NA NA M M P P NA NA NA NA P P P P
022 Cable entry LHS (seen from D-end). M M S S NA NA NA NA P P P P P P
136 Extended cable connection, standard terminal box. M M M M M M NA NA R R R R R R
leads”.
M M M M P P P P NA NA NA NA NA NA
157 Terminal box degree of protection IP65. P P P P NA NA NA NA S S S S S S
180 Terminal box RHS (seen from D-end). NA NA M M P P P NA NA NA P P P P
187 Cable glands of non-standard design. NA NA NA NA NA NA NA NA R R R R R R
230 Standard metal cable glands. M M M M M M M M M M M M M M
375 Standard plastic cable gland M M M M M M M M NA NA NA NA NA NA
376 Two standard plastic cable glands M M M M M M M M NA NA NA NA NA NA
418 Separate terminal box for auxiliaries, std. material NA NA NA NA NA NA NA NA M M M M M M
731 Two standard metal cable glands. M M M M M M M M M M M M M M
732 Standard cable gland, EEx d IIB, armoured cable. M M M M NA NA NA NA NA NA NA NA NA NA
738 Prepared for metric cable glands. NA NA NA NA NA NA NA NA S S S S S S
Testing
140 Test confirmation M M M M NA NA NA NA M M M M M M
145 Type test report from a catalogue motor, 400V 50Hz. M M M M M M M M M M M M M M
146 Type test with report for motor from specific delivery batch. P P M M M M M M M M M M M M
customer witnessed.
P P M M M M M M M M M M M M
148 Routine test report. P M M M M M M M M M M M M M
149 Test according to separate test specification. NA NA M M M M M M R R R R R R
153 Reduced test for classification society. P M M M M M M M M M M M M M
NA NA M M M M M M M M M M M M
NA NA M M M M M M M M M M M M
760 Vibration level test P P P P M M M M M M M M M M
761 Vibration spectrum test. NA NA NA NA NA NA NA NA R R R R R R
762 Noise level test. P P P P M M M M M M M M M M
763 Noise spectrum test. NA NA NA NA NA NA NA NA R R R R R R
764 Complete test with ABB frequency converter. NA NA NA NA NA NA NA NA R R R R R R
181 Rating plate with ABB standard loadability values for VSD
operation. Other auxiliaries for VSD operation to be
selected as necessary.
S S S S NA NA NA NA NA NA NA NA NA NA
182 Pulse sensor mounted as specified. NA NA NA NA NA NA NA NA R R R R R R
470 Prepared for hollow shaft pulse tacho (L&L equivalent). NA NA NA NA NA NA NA NA M M M M M M
472 1024 pulse tacho (L&L 861). NA NA NA NA NA NA NA NA R R R R R R
473 2048 pulse tacho (L&L 861). NA NA NA NA NA NA NA NA R R R R R R
570 Prepared for hollow shaft pulse tacho (L&L 503). NA NA NA NA NA NA NA NA M M M M M M
701 Insulated bearing at N-end. NA NA NA NA NA NA NA NA NA NA M M M M
704 EMC cable gland. NA NA NA NA P P P P M M M M M M
Y/D starting
118 Terminals for Y/D start at high speed (two speed windings). NA NA NA NA P P P P NA NA NA NA NA NA

7
1)
R = On request.
Code 1)
/ Variant 71 80 90 100 112 132 160 180 200 225 250 280 315 355 400
Balancing
052 Vibration acc. to Grade A (IEC 60034-14). S S S S S S S S S S S S S S S
417 Vibration acc. to Grade B (IEC 60034-14). NA NA NA NA NA NA P P P P P P P P P
424 Full key balancing. NA NA NA NA NA NA P P P P P P P P P
036 Transport lock for bearings. NA NA NA NA NA NA M M M M M P P P P
037 Roller bearing at D-end. NA NA NA NA NA NA M M M M M M M NA NA
040 Heat resistant grease. S S S S S S S S S S S S S S S
041 Bearings regreasable via grease nipples. NA NA NA NA NA NA S S S S S S S S S
043 SPM nipples. NA NA NA NA NA NA S S S S S S S S S
from bearing.
NA NA NA NA NA NA P P P P P P P P P
107 Pt100 2-wire in bearings. NA NA NA NA NA NA P P P P P P P P P
130 Pt100 3-wire in bearings. NA NA NA NA NA NA P P P P P P P P P
194 2Z bearings greased for life at both ends. S S S S S S M M M M M NA NA NA NA
433 Outlet grease collector. NA NA NA NA NA NA NA NA NA NA NA P P P P
796 Grease nipples JIS B 1575 PT 1/8 Type A. NA NA NA NA NA NA P P P P P P P P P
797 Stainless steel SPM nipples. NA NA NA NA NA NA M M M M M M M P P
798 Stainless steel grease nipples. NA NA NA NA NA NA M M M M M M M P P
Brakes
412 Built-on brake. NA NA NA NA NA NA R R R R R R R R R
142 “Manilla connection”. NA NA NA NA NA NA R R R R R R R R R
178 Stainless steel / acid proof bolts. M M M M M M M M M M M M M P P
204 Jacking bolts for foot mounted motors. NA NA NA NA NA NA P P P P P P P S S
209 Non-standard voltage or frequency, (special winding). NA NA NA NA NA NA P P P P P P P P P
-40°C, wtih space heaters (code 450/451 must be
added).
-55°C, wtih space heaters (code 450/451 must be
added).
-40°C.
-55°C.
786 Special design shaft upwards (V3, V36, V6) for
outdoor mounting.
NA NA NA NA NA NA P P P P P NA NA NA NA
Cooling system
044 Unidirectional fan for reduced noice level. Rotation
clockwise seen from D-end. Available only for 2-pole
motors.
NA NA NA NA NA NA NA NA NA NA NA P P P S
045 Unidirectional fan for reduced noice level. Rotation
counter clockwise seen from D-end. Available only for
2-pole motors.
NA NA NA NA NA NA NA NA NA NA NA P P P S
068 Metal fan. M M M M M M M M M M M M M P P
075 Cooling method IC418 (without fan). NA NA NA NA NA NA R R R R R R R R NA
Dust ignition proof Ex tD (DIP) 3D cast iron motors
- Variant codes

7
1)
R = On request.
Code 1)
/ Variant 71 80 90 100 112 132 160 180 200 225 250 280 315 355 400
183 Separate motor cooling (fan axial, N-end). NA NA NA NA NA NA P P P P P P P P P
422 Separate motor cooling (fan top or side, N-end). NA NA NA NA NA NA NA NA NA NA NA P P P P
791 Stainless steel fan cover. NA NA NA NA NA NA NA NA NA P P P P P P
Coupling
035 Assembly of customer supplied coupling-half. R R R R R R P P P P P P P P P
Documentation
141 Binding dimension drawing. M M M M M M M M M M M M M M M
Drain holes
065 Plugged existing drain holes. M M M M M M M M M M M M M P P
Earthing Bolt
067 External earthing bolt. S S S S S S S S S S S S S S S
T= 125 °C, cat. 3D, IP55.
M M M M M M M M M M M M M P P
T= 125 °C, cat. 2D, IP65.
R R R R R R M M M M M M M P P
T= 125 °C, cat. 3D, IP65.
M M M M M M M M M M M M M P NA
804 DIP/Ex tD, IEC 61241, T125 °C, IP55 (zone 22). M M M M M M M M M M M M M P P
805 DIP/Ex tD, IEC 61241, T125 °C, IP65 (zone 21). R R R R R R M M M M M M M P P
806 DIP/Ex tD, IEC 61241, T125 °C, IP65 (zone 22). M M M M M M M M M M M M M P P
814 Ex tD (DIP) motors, temperature class T 150C M M M M M M M M M M M M M P P
Heating elements
450 Heating element, 100-120V. M M M M M M M M M M M M M P P
451 Heating element, 200-240V. M M M M M M M M M M M M M P P
Insulation system
014 Winding insulation class H. NA NA NA NA NA NA P P P P P P P P P
supply.
406 Winding for supply >690<=1000 Volts. NA NA NA NA NA NA NA NA NA NA NA P P P P
1001 (B34 from B3).
M M M M M M NA NA NA NA NA NA NA NA NA
1001 (B35 from B3).
(B14 from B5).
M M M M M M NA NA NA NA NA NA NA NA NA
specify IM xxxx), (must be ordered for all mounting ar-
rangements exluding IM B3 (1001) and IM B5 (3001).
M M M M M M M M M M M M M M P
305 Additional lifting lugs. NA NA NA NA NA NA NA NA NA NA NA P P P P
Painting
106 Paint thickness = 80 µm. NA NA NA NA NA NA S S S S S S S S S
109 Paint thickness = 120 µm. NA NA NA NA NA NA M M M M M M M P P
110 Paint thickness = 160 µm. NA NA NA NA NA NA M M M M M M M P P
111 Offshore two-pack polyamide cured epoxy paint
160 µm.
M M M M M M M M M M M P P P P
114 Special paint colour, standard grade. M M M M M M M M M M M M M P P
115 Offshore zink primer painting. NA NA NA NA NA NA P P P P P P P P P
179 Special paint speciﬁcation. NA NA NA NA NA NA R R R R R R R R R

7
1)
R = On request.
Code 1)
/ Variant 71 80 90 100 112 132 160 180 200 225 250 280 315 355 400
Protection
005 Metal protective roof, vertical motor, shaft down. M M M M M M M M M M M M M P P
072 Radial seal at D-end. NA NA NA NA NA NA M M M M M P P P P
073 Sealed against oil at D-end. NA NA NA NA NA NA P P P P P P P P P
404 Degree of protection IP56, without fan and fan cover NA NA NA NA NA NA P P P P P P P NA NA
783 Labyrinth sealing at D-end. NA NA NA NA NA NA P P P P P P P S S
ous duty.
intermittent duty.
NA NA NA NA NA NA M M M M M P P P P
098 Stainless rating plate. S S S S S S S S S S S S S S S
135 Mounting of additional identification plate, stainless. M M M M M M M M M M M M M P P
139 Additional identification plate delivered loose. M M M M M M M M M M M M M P P
161 Additional rating plate delivered loose. M M M M M M M M M M M M M P P
163 Frequency converter rating plate. Rating data
according to quotation.
NA NA NA NA NA NA M M M M M M M P P
Shaft & rotor
069 Two shaft extensions as per basic catalogue. NA NA NA NA NA NA P P P P P P P P P
material.
164 Shaft extension with closed key-way. NA NA NA NA NA NA S S S S S R R R R
165 Shaft extension with open key-way. NA NA NA NA NA NA R R R R R S S S S
design).
NA NA NA NA NA NA R R R R R P P P P
M M M M M M P P P P P P P P P
773 EEMUA No 132 1988 design NA NA NA NA NA NA P P P R R R R R R
778 GOST Export/Import Certificate (Russia). NA NA NA NA NA NA M M M M M M M P P
779 SASO Export/Import Certificate (Saudi Arabia). NA NA NA NA NA NA M M M M M M M P P
120 KTY 84-130 (1 per phase) in stator winding NA NA NA NA NA NA P P P P P P P P P
in stator winding.
in stator winding.
S S S S S S S S S S S S S S S
438 PTC -thermistors (3 in series), 190°C, in stator
winding.
439 PTC - thermistors (2x3 in series), 150°C,
in stator winding.
441 PTC - thermistors (3 in series, 130°C & 3
in series, 150°C), in stator winding.
445 Pt-100 2-wire in stator winding, 1 per phase. NA NA NA NA NA NA P P P P P P P P P

7
Code 1)
/ Variant 71 80 90 100 112 132 160 180 200 225 250 280 315 355 400
Terminal box
021 Terminal box LHS (seen from D-end). NA NA NA NA NA NA P P P P P P P P P
022 Cable entry LHS (seen from D-end). NA NA NA NA NA NA M M M M M M M P P
leads”.
180 Terminal box RHS (seen from D-end). NA NA NA NA NA NA P P P P P P P P P
187 Cable glands of non-standard design. NA NA NA NA NA NA R R R R R R R R R
380 Separate terminal box for temperature detectors,
std. Material.
400 4 x 90 degr turnable terminal box. S S S S S S M M S S S S S S S
402 Terminal box adapted for Al cables. NA NA NA NA NA NA NA NA NA NA NA S S S S
413 Extended cable connection, no terminal box. NA NA NA NA NA NA NA NA NA NA NA P P P P
418 Separate terminal box for auxiliaries, std. material. NA NA NA NA NA NA P P P P P P P P P
equipment.
NA NA NA NA NA NA NA NA NA NA NA M M P NA
466 Terminal box at N-end. NA NA NA NA NA NA R R R R R P P P P
468 Cable entry from D-end. M M M M M M M M M M M P P P P
469 Cable entry from N-end. M M M M M M M M M M M P P P P
567 Separate terminal box material: Cast Iron. NA NA NA NA NA NA P P P P P P P P P
568 Separate terminal box for heating elements,
std. Material.
569 Separate terminal box for brakes. NA NA NA NA NA NA P P P P P P P P P
729 Cable flanges without holes/ Blank gland plates. NA NA NA NA NA NA P P P P P P P P P
730 Prepared for NPT cable glands. NA NA NA NA NA NA P P P P P P P P P
731 Two standard metal cable glands. NA NA NA NA NA NA - - - - - - - - -
732 Standard cable gland, Ex d IIB, armoured cable. NA NA NA NA NA NA M M M M M M M P P
733 Standard cable gland, Ex d IIB, non-armoured cable. NA NA NA NA NA NA M M M M M M M P P
736 Standard cable gland Ex e acc. to EN-Standards M M M M M M S S S S S S S S S
737 Standard cable gland Ex e with clamping device
acc. to EN-Standards
741 Motor equipped with E x e terminal box (EN 50019) NA NA NA NA NA NA M M M M M M M P P
743 Painted flange for cable glands. NA NA NA NA NA NA M M M M M M M P P
744 Stainless steel flange for cable glands. NA NA NA NA NA NA M M M M M M M P P
745 Painted steel flange equipped with brass cable glands. NA NA NA NA NA NA M M M M M M M P P
brass cable glands.
Testing
140 Test confirmation. M M M M M M NA NA NA NA NA NA NA NA NA
145 Type test report from a catalogue motor, 400V 50Hz. M M M M M M M M M M M M M P P
batch.
148 Routine test report. M M M M M M M M M M M M M P P
with other codes.
221 Type test and multi-point load test with report for
motor from specific delivery batch.
760 Vibration level test. NA NA NA NA NA NA M M M M M M M P P
1)
R = On request.

7
Code 1)
/ Variant 71 80 90 100 112 132 160 180 200 225 250 280 315 355 400
761 Vibration spectrum test. NA NA NA NA NA NA P P P P P P P P P
762 Noise level test. NA NA NA NA NA NA M M M M M M M P P
763 Noise spectrum test. NA NA NA NA NA NA P P P P P P P P P
181 Rating plate with ABB standard loadability values for
VSD operation. Other auxiliaries for VSD operation to
be selected as necessary.
182 Pulse sensor mounted as speciﬁed. NA NA NA NA NA NA R R R R R P P P P
pulse tacho (Leine & Linde 861) mounted.
NA NA NA NA NA NA NA NA NA NA NA P P P P
470 Prepared for hollow shaft pulse tacho
(L&L equivalent).
472 1024 pulse tacho (L&L 861). NA NA NA NA NA NA P P P P P P P P P
473 2048 pulse tacho (L&L 861). NA NA NA NA NA NA P P P P P P P P P
474 Separate motor cooling (fan axial, N-end) and
prepared for hollow shaft tacho (L&L equivalent).
476 Separate motor cooling (fan axial, N-end)
and 1024 pulse tacho (L&L 861).
NA NA NA NA NA NA R R R R R R R R R
477 Separate motor cooling (fan axial, N-end)
and 2048 pulse tacho (L&L 861).
NA NA NA NA NA NA R R R R R R R R R
478 Separate motor cooling (fan top, N-end)
and prepared for hollow shaft tacho (L&L equivalent).
NA NA NA NA NA NA NA NA P P P P P P P
479 Mounting of other type of pulse tacho with
shaft extension, tacho not included.
NA NA NA NA NA NA R R R R R P P P P
486 Separate motor cooling (fan top, N-end) and
prepared for DC-tacho.
NA NA NA NA NA NA NA NA P P P P P P P
pulse tacho (Leine & Linde 861) mounted
NA NA NA NA NA NA NA NA NA NA NA P P P P
680 2048 pulse tacho, Ex d, tD, L&L 841910001 NA NA NA NA NA NA R R R R R R R R R
701 Insulated bearing at N-end. NA NA NA NA NA NA NA NA NA NA NA M M P P
704 EMC cable gland. NA NA NA NA NA NA M M M M M M M P P
747 1024 pulse tacho, Ex d, tD, L&L 841910002 NA NA NA NA NA NA R R R R R R R R R
Y/D starting
windings).
NA NA NA NA NA NA R R R R R P P R R
118 Terminals for Y/D start at high speed
119 Terminals for Y/D start at low speed
1)
R = On request.

7
Shaft extension Flanges
DIP motors, aluminum frame, 2 D, 3 D
Dimension drawings
Tolerances:
A, B ± 0,8
ISO m6 > Ø 50mm
F, FA ISO h9
H -0.5
N ISO j6
C, CA ± 0.8
Sizes 90-180 Sizes 200-250
L
C B
B’
E
H
K
A
HD
GA
FD
P N
45°
S
M
M
S
45°
M000267
M000268
M000270
M000269
M000271
M000272
Motor
size
D
poles
GA
poles
F
poles
E
poles
L max
poles
O
A B B’ C HD K H M N P S
2 4-8 2 4-8 2 4-8 2 4-8 2 4-8
M2VAD 71 14 14 16 16 5 5 30 30 238 238 20 112 90 – 45 176 7 71 130 110 160 10
80 19 19 21.5 21.5 6 6 40 40 265 265 25 125 100 – 50 190 10 80 165 130 200 12
M3AAD 90 S 24 24 27 27 8 8 50 50 295 295 30 140 100 – 56 212 10 90 165 130 200 12
90 L 24 24 27 27 8 8 50 50 320 320 30 140 125 – 56 212 10 90 165 130 200 12
100 L 28 28 31 31 8 8 60 60 358.5 385.5 35 160 140 – 63 236 12 100 215 180 250 15
112 M 28 28 31 31 8 8 60 60 361 361 35 190 140 – 70 258 12 112 215 180 250 14.5
132 38 38 41 41 10 10 80 80 447 447 50 216 140 178 89 295.5 12 132 265 230 300 14.5
160 42 42 45 45 12 12 110 110 602.5 602.5 50 254 210 254 108 370 15 160 300 250 350 19
180 M 48 48 51.5 51.5 14 14 110 110 602.5 602.5 55 279 241 279 121 390 15 180 300 250 350 19
180 L 48 48 51.5 51.5 14 14 110 110 643.5 643.5 55 279 241 279 121 390 15 180 300 250 350 19
200 LA 55 55 59 59 16 16 110 110 711.5 711.5 55 318 267 305 133 425 18 200 350 300 400 19
200 L 2-4 55 55 59 59 16 16 110 110 732 732 55 318 267 305 133 425 18 200 350 300 400 19
225 M 55 65 59 64 16 18 110 140 773 843 60 356 286 1)
311 149 525.5 18 225 400 350 450 19
225 S 60 64 18 140 803 60 356 286 311 1)
149 525.5 18 225 400 350 450 19
250 M 60 65 64 69 18 18 140 140 866 866 65 406 311 1)
349 168 571 22 250 500 450 550 19
M3AA 160 M/MA 2-8,
L 2-6, LB 2-4
42 42 45 45 12 12 110 110 602.5 602.5 50 254 210 254 108 370 15 160 300 250 350 19
160 L 8, LB 6-8 42 42 45 45 12 12 110 110 643.5 643.5 50 254 210 254 108 370 15 160 300 250 350 19
180 M 2-4, L 6-8,
LB 2
48 48 51.5 51.5 14 14 110 110 680 680 55 279 241 279 121 405 15 180 300 250 350 19
180 L 4, LB 4-8 48 48 51.5 51.5 14 14 110 110 700.5 700.5 55 279 241 279 121 405 15 180 300 250 350 19
200 MLD-2.-C 4 55 55 59 59 16 16 110 110 814 814 55 318 267 305 133 533 18 200 350 300 400 19
200 all exc. above 55 55 59 59 16 16 110 110 774 774 55 318 267 305 133 533 18 200 350 300 400 19
225 SMB, -C 55 60 59 64 16 18 110 140 836 836 60 356 286 311 149 578 18 225 400 350 450 19
225 SMA, -B, -C 55 60 59 64 16 18 110 140 866 891 60 356 286 311 149 578 18 225 400 350 450 19
225 SMD 55 60 59 64 16 18 110 140 861 891 60 356 286 311 149 578 18 225 400 350 450 19
250 SMA, -B 60 65 64 69 18 18 140 140 875 875 65 406 311 349 168 626 22 250 500 450 550 19
250 SMC 60 65 64 69 18 18 140 140 900 900 65 406 311 349 168 626 22 250 500 450 550 19
280 SMA 65 75 69 79.5 18 20 140 140 875 875 65 457 368 419 190 656 24 280 500 450 550 19
280 SMB 65 75 69 79.5 18 20 140 140 900 900 65 457 368 419 190 656 24 280 500 450 550 19
Motor
size HB LA M N P S T
71
80
90 122 14 115 95 140 M8 3
100 136 16 130 110 160 M8 3.5
112 146 20 130 130 160 M8 3.5
132 163.5 18 165 165 200 M10 3.5
IM 3601, IM B14

7
DIP motors, cast iron frame, 2 D
Dimension drawings
Sizes 71-200 Sizes 225-355
Protective roof,
variant code 005
L
C B
B’
E
H
K
A
HD
GA
FD
P N
45°
S
M
M
S
45°
M000267
M000268
M000270
M000269
M000271
M000272
M000230
M000231
Motor
size
D
poles
GA
poles
F
poles
E
poles
L max
poles
poles
2 4-8 2 4-8 2 4-8 2 4-8 2 4-8 2 4-8
80 19 19 21.5 21.5 6 6 40 40 340 340 20 125 100 125 50 235 10 80 165 130 200 12 160 360 360
90 24 24 27 27 8 8 50 50 405 405 20 140 100 125 56 260 10 90 165 130 200 12 180 430 430
100 28 28 31 31 8 8 60 60 440 440 25 160 140 – 63 280 12 100 215 180 250 14.5 195 465 465
112 28 28 31 31 8 8 60 60 440 440 25 190 140 – 70 295 12 112 215 180 250 14.5 195 465 465
132 38 38 41 41 10 10 80 80 540 540 30 216 140 178 89 340 12 132 265 230 300 14.5 260 570 570
160 42 42 45 45 12 12 110 110 711 711 45 254 210 254 108 388 14.5 160 300 250 350 18.5 328 756 756
180 48 48 51.5 51.5 14 14 110 110 706 706 50 279 241 279 121 426 14.5 180 300 250 350 18.5 359 756 756
200 55 55 59 59 16 16 110 110 774 774 70 318 267 305 133 536 18.5 200 350 300 400 18.5 414 844 844
225 55 60 59 64 16 18 110 140 841 871 80 356 286 311 149 583 18.5 225 400 350 450 18.5 462 921 951
250 60 65 64 69 18 18 140 140 875 875 90 406 311 349 168 646 24 250 500 450 550 18.5 506 965 965
280 65 75 69 79.5 18 20 140 140 1088 1088 100 457 368 419 190 759 24 280 500 450 550 18 555 1190 1190
315 SM_ 65 80 69 85 18 22 140 170 1174 1204 115 508 406 457 216 852 30 315 600 550 660 23 624 1290 1320
315 ML_ 65 90 69 95 18 25 140 170 1285 1315 115 508 457 508 216 852 30 315 600 550 660 23 624 1401 1431
355 SM_ 70 100 62.5 90 20 28 140 210 1409 1479 130 610 500 560 254 958 35 355 740 680 800 23 720 1476 1546
355 ML_ 70 100 62.5 90 20 28 140 210 1514 1584 130 610 560 630 254 958 35 355 740 680 800 23 720 1528 1703
355 LK_ 70 100 62.5 90 20 28 140 210 1764 1834 130 610 710 900 254 958 35 355 740 680 800 23 720 1633 1703
400 L_ 80 110 85 126 22 28 170 210 1851 1891 150 710 900 1000 224 1045 35 400 940 880 1000 28 810 1860 1900
400 LK_ 80 100 85 106 22 28 170 210 1851 1891 150 686 710 800 280 1045 35 400 740 680 800 24 810 1860 1900
450 80 120 85 127 22 32 170 210 2147 2187 180 800 1000 1120 250 1169 42 450 1080 1000 1150 28 On request
IM 3601, IM B14 - Available ﬂange alternatives, see also variant codes.
Flange
size
Variant
code
Flange dimensions Motor size 80-132
P M N S 80 90 100 112 132
FT115 260 140 115 95 M8 P S NA NA NA M = Option
FT130 229 160 130 110 M8 P P S S NA NA = Not possible
FT165 236 200 165 130 M10 NA NA NA NA S
FT215 246 250 215 180 M12 NA NA P P P
FT265 256 300 265 230 M12 NA NA NA NA P
FT100 257 120 100 80 M7 S M NA NA NA
FT115 259 140 115 95 M10 M S NA NA NA
FT130 228 160 130 110 M10 M M S S NA
FT165 235 200 165 130 M12 M M M M S
FT215 245 250 215 180 M14.5 NA NA M M M
FT265 255 300 265 230 M14.5 NA NA NA NA M
Tolerances:
A, B ± 0,8
ISO m6 > Ø 50mm
F, FA ISO h9
H -0.5
N ISO j6
C, CA ± 0.8

7
DIP motors, cast iron frame, 3 D
Dimension drawings
Sizes 71-200 Sizes 225-355
Protective roof,
variant code 005
L
C B
B’
E
H
K
A
HD
GA
FD
P N
45°
S
M
M
S
45°
M000267
M000268
M000270
M000269
M000271
M000272
M000230
M000231
Tolerances:
A, B ± 0,8
ISO m6 > Ø 50mm
F, FA ISO h9
H -0.5
N ISO j6
C, CA ± 0.8
Motor
size
D
poles
GA
poles
F
poles
E
poles
L max
poles
poles
2 4-8 2 4-8 2 4-8 2 4-8 2 4-8 2 4-8
71 14 14 16 16 5 5 30 30 255 255 20 112 90 115 45 200 7 71 130 110 160 10
80 19 19 21,5 21,5 6 6 40 40 285 285 20 125 100 135 50 230 10 80 165 130 200 12
90 S 24 24 27 27 8 8 50 50 310 310 20 140 100 140 56 250 10 90 165 130 200 12
90 L 24 24 27 27 8 8 50 50 335 335 20 140 125 165 56 250 10 90 165 130 200 12
100 28 28 31 31 8 8 60 60 380 380 25 160 140 180 63 285 12 100 215 180 250 14.5
112 28 28 31 31 8 8 60 60 395 395 25 190 140 190 70 310 12 112 215 180 250 14.5
132 S 38 38 41 41 10 10 80 80 465 465 30 216 140 205 89 350 12 132 265 230 300 14.5
132 M 38 38 41 41 10 10 80 80 505 505 30 216 170 240 89 350 12 132 265 230 300 14.5
160 42 42 45 45 12 12 110 110 711 711 45 254 210 254 108 388 14.5 160 300 250 350 18.5 328 756 756
180 48 48 51.5 51.5 14 14 110 110 706 706 50 279 241 279 121 426 14.5 180 300 250 350 18.5 359 756 756
200 55 55 59 59 16 16 110 110 774 774 70 318 267 305 133 536 18.5 200 350 300 400 18.5 414 844 844
225 55 60 59 64 16 18 110 140 841 871 80 356 286 311 149 583 18.5 225 400 350 450 18.5 462 921 951
250 60 65 64 69 18 18 140 140 875 875 90 406 311 349 168 646 24 250 500 450 550 18.5 506 965 965
280 65 75 69 79.5 18 20 140 140 1088 1088 100 457 368 419 190 759 24 280 500 450 550 18 555 1190 1190
315 SM_ 65 80 69 85 18 22 140 170 1174 1204 115 508 406 457 216 852 30 315 600 550 660 23 624 1290 1320
315 ML_ 65 90 69 95 18 25 140 170 1285 1315 115 508 457 508 216 852 30 315 600 550 660 23 624 1401 1431
355 SM_ 70 100 62.5 90 20 28 140 210 1409 1479 130 610 500 560 254 958 35 355 740 680 800 23 720 1476 1546
355 ML_ 70 100 62.5 90 20 28 140 210 1514 1584 130 610 560 630 254 958 35 355 740 680 800 23 720 1528 1703
355 LK_ 70 100 62.5 90 20 28 140 210 1764 1834 130 610 710 900 254 958 35 355 740 680 800 23 720 1633 1703
400 L_ 80 110 85 126 22 28 170 210 1851 1891 150 710 900 1000 224 1045 35 400 940 880 1000 28 810 1860 1900
400 LK_ 80 100 85 106 22 28 170 210 1851 1891 150 686 710 800 280 1045 35 400 740 680 800 24 810 1860 1900
IM 3601, IM B14
Motor
size
Flange
size
Flange dimensions
P M N S T
71 C105 105 85 70 M6 2.5
71 C140 140 115 95 M8 3
80 C120 120 100 80 M6 3
80 C160 160 130 110 M8 3.5
90 C140 140 115 95 M8 3
90 C160 160 130 110 M8 3.5
100,112 C160 160 130 110 M8 3.5
100,112 C200 200 165 130 M10 3.5

7
Dust ignition proof motor construction
1 Stator frame
2 Endshield, D-end
4 Endshield, N-end
6 Rotor with shaft
7 Key, D-end
8 Terminal box
9 Terminal board
14 Bearing, D-end
18 Seal, N-end
19 Wave spring
21 Bearing, N-end
24 Fan
25 Fan cover
27 Rating plate
28 Regreasing plate
M000220

7
Dust ignition proof motors with aluminum frame sizes 71-100 in brief,
basic design – Categories 2D and 3D
Motor size M2VAD M3AAD
71 80 90 100
Paint color shade Munsell blue 8B 4.5/3.25 / NCS 4822-B05G.
Paint Epoxy polyester powder paint, t 30 Pm. Powder coating based on polyester
resin t 30 Pm.
Feet Material Die-cast alumim alloy.
Loose feet
Paint color shade Munsell blue 8B 4.5/3.25 / NCS 4822-B05G.
Paint Epoxy polyester powder paint, t 30 Pm. Powder coating based on polyester
resin t 30 Pm.
Bearings D-end 2-pole 6203-2Z/C3 6204-2Z/C3 6205-2RS/C3 6306-2RS/C3
4-8 pole
N-end 2-pole 6202-2Z/C3 6203-2Z/C3 6204-2RS/C3 6205-2RS/C3
4-8 pole
Axially-locked
bearings
Inner bearing cover Spring washer at the N-end. D-end
N-end Labyrinth seal. V-ring.
Surface treatment Similar to stator.
Connections Knock-out openings 2 x M20 x Pg16 4 x M25
Terminal box Screw terminal. 6 terminals.
Screws M4
Max Cu-area, mm2
6
Fan Material Polypropylene. Reinforced with 20%
glass ﬁbre.
Aluminum fan.
Winding protection Optional. PTC-thermistors, 150°C.
Heating elements 25 W
Drain holes Drain holes with closable plastic plugs.
Open on delivery.
Not included, drain holes sealed on
delivery.
Enclosure DIP 2D = IP 65, DIP 3D = IP 55.

7
Motor size M3AAD
112 132 160 180 200 225 250 280
Paint Two-component polyurethane paint t 40 Pm.
Cast iron, bolted to the stator. Cast iron
Bearing end
shields
Material Flanged bearing end shields in cast iron, other
aluminum alloy
Cast iron
Paint Two-component polyurethane paint t 40 Pm.
Bearings D-end 2-pole 6206-2RS/
C3
6208-2RS/
C3
6309-2RS/
C3
6310-2RS/
C3
6312-2RS/
C3
6313-2RS/
C3
6315-
2RS/C3
6315-2RS/C3
4-8 pole 6316-2RS/C3
N-end 2-pole 6205-2RS/
C3 1)
6206-2RS/
C3 2)
6209-2RS/
C3
6209-2RS/
C3
6210-2RS/
C3
6212-2RS/
C3
6213-
2RS/C3
6213-2RS/C3
4-8 pole 6213-2RS/C3
1)
6205-2RS/C3 1-speed Basic design; 6206-2RS/C3 High output design and 2-speed.
2)
6206-2RS/C3 for 132 S/M 1-speed & 132 SBB;
6208-2RS/C3 for 132 M 2-speed & 132 SC/MB/MC/MBA.
Axially-locked
bearings
Inner bearing cover D-end.
Bearing seal D-end V-ring. Outer V-rings.
N-end V-ring. Outer V-rings.
Terminal box Material Die-cast alum. alloy. Base integrated with stator. Deep-drawn steel sheet, bolted to stator.
Connections Knock-out openings 4 x (M25 + M20) 2 x (2 x M40 + M16)
Flange-openings 2 x FL 13.2 x M40 2xFL21.
2 x M63
Flange-openings 2 x FL 21.2 x M63 (voltage code S)
Screws M5 M6 M10
Max Cu-area, mm2
10 35 70
Fan Material Aluminum fan.
Impregnation Polyester varnish.
Winding protection PTC-thermistors, 150°C
Drain holes Not included, drain holes sealed on delivery.
External earthing
bolt
As standard.
Enclosure IP 65.
Dust ignition proof motors with aluminum frame types M3AAD 112-280
in brief, basic design – Category 2D and 3D

7
Motor size M3AA
112 132 160 180 200 225 250 280
Aluminim alloy, bolted to the
stator.
Cast iron
Bearing end shields Material Die-cast aluminum alloy. Flanged bearing end shields of cast iron,
other die-cast aluminum alloy
Cast iron
Bearings D-end 2-pole 6206-2Z/C3 6208-2Z/C3 6309-2Z/C3 6310-2Z/C3 6312/C3 6313/C3 6315/C3 6315/C3
4-8 pole 6316/C3
N-end 2-pole 6205-2Z/C3 6206-2Z/C3 6209-2Z/C3 6209-2Z/C3 6210/C3 6212/C3 6213/C3 6213/C3
4-8 pole 6213/C3
Axially-locked bea-
rings
112-132: Foot motor - a spring washer at N-end presses the rotor against D-end.
Valve lubrication. Grease for bearing tem-
peratures -40 to +150°C.
Terminal box Material Die-cast aluminum alloy. Base integrated with
stator.
Connections Knock-out openings 4 x (M25 + M20) 2 x (2 x M40 + M16) FL 21,
2 x M63
1 x M16
2 x FL 21.2 x M63 (volt. code S)
Screws M5 M6 M10
Max Cu-area, mm2
10 35 70
Fan cover Material Polypropylene. Steel sheet.
Phosphated. Polyester paint.
Winding protection Optional. PTC-thermistors, 150°C
Enclosure IP 55.
Dust ignition proof motors with aluminum frame types M3AA 112-280

7
Motor size M2AA
112 132 160 180 200 225 250
Stator Material Die-cast aluminum alloy. Extruded aluminum
alloy.
Paint Polyester powder paint, thickness t 50 Pm
Cast iron bolted to the stator.
Bearing end shields Material Die-cast aluminum alloy. Flanged bearing end shields of cast iron,
other die-cast aluminum.
Paint Polyester powder paint, thickness t 50 Pm
Bearings D-end 6206 -2Z/C3 6208-2Z/C3 6309-2Z/C3 6310-2Z/C3 6312/C3 6313/C3 6315/C3
N-end 6205-2Z/C3 6206-2Z/C3 6209-2Z/C3 6209-2Z/C3 6209-2Z/C3 6210-C3 6212-C3
Axially-locked
bearings
Inner bearing cover D-end. 1)
D-end.
1)
Sizes 112-132: A spring washer at the N-end presses the motor towards the D-end.
N-end Labyrinth seal Outer and inner V-rings.
Grease for bear. tempr. -40 to +160°C.
Valve lubrication.Grease
for bear. temp. -40 to
+160°C.
Deep-drawn steel sheet,
bolted to stator.
Surface treatment Similar to stator. Phosphated. Polyester
paint.
Srews Steel 5G. Galvanised.
Connections Knock-out openings 4 (M25 + M20) 2 x (2 x M40 + M16)
2 x FL 21.2 x M63
(voltage code S
Terminal box Cable lugs. 6 terminals.
Screws M5 M6 M10
Max Cu-area, mm2 10 35 70
Fan cover Material Polypropylene. Steel sheet.
Phosphated. Polyester paint.
Winding protection Optional. PTC-thermistors, 150°C
Enclosure IP55.
Cooling method IC411.
Dust ignition proof motors with aluminum frame types M2AA 112-250

7
Dust ignition proof cast iron motors in brief,
basic design - 2D
Motor size 80 90 100 112 132 160 180
4-8 pole
4-8 pole
Axially locked bearings Inner bearing cover On request As standard, locked at
D-end
Bearing seal 2RS-integral seals Gamma-ring as std,
radial seal on request
Lubrication Permanent grease lubrication. Regreasable bearings as
std, lifetime lubrication
as option
Rating plate Material Stainless steel 0.80 Cr 18 Ni9 Stainless steel
Cover material Cast ironEN-GJL-150 Cast iron EN-GJL-200
Key ways Open key way Closed key-way
Drain holes Optional As standard, open on
delivery

7
Motor size 200 225 250 280 315 355 400
Bearing end shields Material Cast iron EN-GJL-200 / GG 20 / GRS
200
Cast iron EN-GJL-200/GG20/GRS 200, EN-GJL-
250/GG25/GRS 250, EN-GJS-400/GG40/GRS 400
Bearings D-end 2-pole 6312/C3 6313/C3 6315/C3 6316/C3 6316/C3 6316M/C3 6317/C3
4-8 pole 6312/C3 6313/C3 6315/C3 6316/C3 6319/C3 6322/C3 6324/C3
N-end 2-pole 6310/C3 6312/C3 6313/C3 6316/C3 6319/C3 6316M/C3 6317/C3
4-8 pole 6310/C3 6312/C3 6313/C3 6316/C3 6316/C3 6316/C3 6319/C3
Bearing seal Gamma-ring as standard, radial seal
on request
V-ring as standard, radial seal on request
lifetime lubrication as option
Terminal box Frame material Cast iron EN-GJL-200/GG 20/GRS
200
Cover material Cast iron EN-GJL-200/GG 20/GRS
200
Cover screws material Steel 5G, coated with zinc and yellow chromated
Connections Cable entries 2xM50x1.5 2xM63x1.5 2xØ60/80
2xØ60
2xØ80
2xØ60/80
Fan Material Reinforced glass ﬁber laminate or
aluminum
Reinforced glass ﬁber, aluminum or polypropylene
with metal hub
Paint Two-pack polyester paint,
thickness > 80 µm
Two-pack epoxy polyester paint,
thickness > 80 µm.
Heating elements Optional 50 W 2 x 50 W 2 x 65 W
basic design - 2D

7
Motor size 71 80 90 100 112 132
Bearing end shields Material Cast iron EN-GJL-150
Bearings D-end 2-pole 6202 WC3 6204
DDUC3
6205
DDUC3
6206
DDUC3
6207
DDUC3
6208
DDUC3
4-8 pole
N-end 2-pole 6202 WC3 6204
DDUC3
6205
DDUC3
6206
DDUC3
6206
DDUC3
6207
DDUC3
4-8 pole
Axially locked bearings Inner bearing cover On request
Bearing seal 2RS-integral seals
Lubrication Permanent grease lubrication.
SPM-nipples –
Rating plate Material Stainless steel 0.80 Cr 18 Ni9
Terminal box Frame material Cast iron EN-GJL-150
Cover material Cast ironEN-GJL-150
Connections Cable entries 2xM25x1.5 2xM32x1.5
Winding protection On request
Heating elements Optional 25 W
basic design - 3D

7
basic design - 3D
Motor size 160 180 200 225 250 280 315 355 400
Bearing end
shields
Material Cast iron EN-GJL-200 Cast iron EN-GJL-200 /
GG 20 / GRS 200
Cast iron EN-GJL-200/GG20/GRS 200,
EN-GJL-250/GG25/GRS 250, EN-GJS-400/
GG40/GRS 400
Bearings D-end 2-pole 6309/C3 6310/C3 6312/C3 6313/C3 6315/C3 6316/C3 6316/C3 6316M/C3 6317/C3
4-8 pole 6319/C3 6322/C3 6324/C3
N-end 2-pole 6309/C3 6309/C3 6310/C3 6312/C3 6313/C3 6316/C3 6319/C3 6316M/C3 6317/C3
4-8 pole 6316/C3 6316/C3 6319/C3
Axially locked
bearings
Bearing seal Gamma-ring as std, radial seal on request V-ring as standard, radial seal on request
Lubrication Regreasable bearings as std, lifetime lubrication as
option
Regreasable bearings, regreasing nipples,
M10x1
Terminal box Frame material Cast iron EN-GJL-200 Cast iron EN-GJL-200/GG
20/GRS 200
Cover material Cast iron EN-GJL-200 Cast iron EN-GJL-200/GG
20/GRS 200
Cover screws ma-
terial
Steel 5G, coated with zinc and yellow chromated
Connections Cable entries 2xM40x1.5 2xM50x1.5 2xM63x1.5 2xØ60/80
2xØ60
2xØ80
2xØ60/80
Fan Material Reinforced glass ﬁber laminate or aluminum Reinforced glass ﬁber, aluminum or polypro-
pylene with metal hub
Paint Two-pack polyester paint, thickness > 80 µm Two-pack epoxy polyester paint,
thickness > 80 µm.
Key ways Closed key-way Open key way
Heating elements Optional 25 W 50 W 50 W 2 x 50 W 2 x 65 W
External
earthing bolt
As standard

7
ABB Oy
Motors
Postal address
P.O. Box 633
FI-65101 Vaasa
FINLAND
Visiting Address
FI-65320 Vaasa
FINLAND
Telephone
+358 10 22 11
Telefax
+358 10 22 47372
Internet
www.abb.fi
e-mail:
@fi.abb.com
0763403-0
Domicile: Helsinki
Motors
P.O. Box 633
standards:
EN 60079-0 (2004), EN 60079-1 (2004), EN 60079-7 (2003), EN 60079-15 (2005), EN 61241-0 (2006), EN
61241-1 (2004/2006).
Signed by
----------------------------------
Jouni Ikäheimo
Date February 16th
, 2007
M000220
M000240
M000220
M000239
M000209

7

ABB / Cat. BU / Ex-motors / HV Non-sparking & DIP EN 01-2008 199
High voltage
Non-sparking Ex nA and
Dust ignition proof motors
high voltage motors,
Sizes 315 - 450, 110 to 750 kW
Mechanical design...........................200
Rating plates.....................................210
Ordering information.......................211
Technical data.................................. 212
Variant codes....................................244
Dimension drawings........................246
Accessories......................................249
Construction.....................................251
Cast iron motors in brief.................252
8
> Motors

200 ABB / Cat. BU / Ex-motors / HV Non-sparking, DIP EN 01-2008
8
Closed
Open
Stator frame
The motor frames including feet and, bearing housing
are made of cast iron. The terminal boxes are made
of structural steel. Integrally cast feet allow a very rigid
mounting and minimal vibration.
Non-sparking and dust ignition proof category 3D high
voltage motors are fitted with drain holes and closable
plugs. The drain hole plugs are open on delivery and
users must ensure that the drain holes face downward
when mounting the motors.
Drain holes
Motors can be supplied for foot mounting (horizontal),
foot and flange mounting (horizontal) or flange mounting
(vertical).
Non-sparking, dust ignition proof 3D motors
As standard with drain holes and closable plugs.
Dust ignition proof 2D motors
As standard without drain holes.
Mechanical design
For applications with a vertical mounting, the upper
plug must be hammered home completely. In very dusty
environments, both plugs should be hammered home.
By dust ignition proof category 2D high voltage motors
drain holes are not included.
This section describes standard high voltage motors for
non-sparking and dust ignition protection, with limited
optional features and accessories. In case you need an
engineered cast iron motor, please contact your local
ABB Sales office for further information.
Protection against corrosion
Special attention has been paid to the finish of ABB's
motors. All parts are treated by the method most ap-
propriate to each material, giving reliable anti-corrosion
protection under severe environmental conditions.
The color is blue, Munsel color code 8B, 4.5/3.25
(NCS4822-B05G the closest shade in other standards).
Specific details of paint types are available on request.
M000241

ABB / Cat. BU / Ex-motors / HV Non-sparking, DIP EN 01-2008 201
8
M000243
The high voltage terminal box is shown below. The main
technical data are listed below.
Technical data:
Voltage (max.) 6.6 kV
Current (max.) 400 A
No of cables (max.) 1 per phase
Cross section of cables (max.) 300 mm2
/cable
Cable gland blind gland plate
(1 pcs)
Clearance (min.) 60 mm
Creepage (min.) 90 mm
Gross volume 47.3 dm3
Usable volume 42.1 dm3
Connection screws M16 (3 pcs)
Connection nuts tightening torque 40 Nm
Ground connections M12 (both in- and
outside)
Weight 33 kg
Protection IP 66
Standard DIN 42962
TEIL 1, A2
Dynamic short circuit current 30 kA rms x 0.25s/
75 kA peak
Terminal boxes
Materials:
Box welded structural steel
(thickness min. 3 mm)
Cable gland plate steel
Connection screws Bronze Bz
Isolators epoxy casting resin or
polyurethane resin
Grounding pad stainless steel
Other features:
- rigid welded construction
- ample size for making connections of supply cables
- box turnable to allow cable entry from left or right side
- box turnable in steps of 90°
- either 3-phase or 1-phase cables can be connected
- pressure relief plate in the bottom of the box in case of
an arching short circuit

8
M000244
The high voltage star point terminal box is shown below
(option, variant code 750). The main technical data are
listed below.
Technical data:
Voltage (max.) 6.6 kV
Current (max.) 400 A
Cable gland blind gland plate
(1 pcs)
Creepage (min.) 90 mm
Gross volume 47.3 dm3
Usable volume 42.1 dm3
Connection screws M16 (3 pcs)
Connection nuts tightening torque 40 Nm
Ground connections M12 (both in- and
outside)
Weight 33 kg
Protection IP 66
Dynamic short circuit current 30kA rms x 0.25 s/
75 kA peak
Materials:
Box welded structural steel
(thickness min. 3 mm)
Cable gland plate steel
Connection screws Bronze Bz
Connection bar Copper Cu
Isolators epoxy casting resin or
polyurethane resin
Grounding pad stainless steel
Other features:
- rigid welded construction
- box turnable to left or right side
- box turnable in steps of 90°
- pressure relief plate in the bottom of the box in case
- of an arching short circuit

8
M000246
Dimensions for terminal box inlet, blind gland plate
Star point terminal box (optional)
M000245
Delivery without main terminal box (optional)
M000359
M000360

8
M000247
M000249
M000248
Auxiliary boxes
Auxiliary terminal box is used for control equipment and
heating elements.
Speciﬁcation:
- default one box
- stator Pt-100
- bearing Pt-100 (optional, variant code 107)
- separate box for heating elements
Speciﬁcation:
Material designation Al-Si10Mg (pressure die cast)
Material standard EN 573-3
Surface treatment RAL 7001 (grey)
Other features:
- equipped with assembly rail ARH 22
(DIN-35, 35x203 mm)
- main dimensions 125x222x81
- degree of protection IP 66 (IEC 529)
- gasket material polyurethane
- temperature resistance -55 - +80°C
- max. terminal blocks: 34 pcs 2.5 mm2
28 pcs 4.0 mm2
- weight 1.6 kg
Accessory box
Accessory box for heating elements

8
Bigger auxiliary box
- one box as default
- stator Pt-100 (6 pcs)
- bearing Pt-100 (optional, variant code 107)
- separate box for heating element (variant
code 450/451)
- dial type thermometers for bearings
(optional, variant code 651/652)*
- Pt-100 (12 pcs) inside stator slots
(optional, variant code 653)*
- Provision for vibration sensors (optional,
variant code 654)*
* The bigger auxiliary box is needed if any of
these variant codes is selected.
Option with bearing dial type thermometers
- Measuring range 0…120 °C
- Degree of protection: IP65 (IEC529)
- Temperature durability of display -40…+60 °C
- Ex i approved
M000358
M000357
Other features:
- equipped with assembly rail ARH 22 (DIN-35)
- main dimensions 230x330x180
- degree of protection IP66 (IEC 529)
- gasket material silicone
- temperature resistance -55 - +100°C
- weight 5.6 kg
Speciﬁcation:
Material designation Al-Si12Mg (die cast)
Material standard EN 573-3
Surface treatment RAL 7001 (grey)
- Temperature durability of capillary tube
-40…+100 °C
- Without contacts (optional, variant codes 651)
M000356
M000355

8
Bearings
The motors are normally fitted with single-row deep
groove ball bearings as listed in the table below.
Axially-locked bearings
All motors are equipped as standard with an axially-
locked bearing at the D-end.
The bearing's outer ring is tightly locked between
bearing's covers and tight fit of the housing fit.
Transport locking
Motors with roller bearings are fitted with a transport
lock to prevent damage to the bearings during
transport. All high voltage motors are fitted with a
warning sign when the transport lock is fitted to prevent
operational damage and alert operations.
Locking may also be fitted in other situations where
the transport conditions are considered as potentially
damaging.
Basic version with deep groove ball bearings Version with roller bearings, variant code 037
If the bearing at the D-end is replaced with a roller bea-
ring (NU-), higher radial forces can be handled. Roller
bearings are suitable for belt drive applications.
The N-end bearing is axially free and can take the
thermal expansion. Note! NU-bearing is axially locked at
N-end.
Motor
size
Number
of poles
Roller bearings, variant code 037
D-end
315 4-6 NU 319/C3
355 4-6 NU 322/C3
400 4-8 NU 324/C3
450 4-8 NU 326/C3
Motor
size
Number
of poles
Deep groove ball bearings
D-end N-end
315 2 6316M/C3 6316M/C3
4-6 6319/C3 6316/C3
355 2 6316M/C3 6316M/C3
4-6 6322/C3 6316/C3
400 2 6317M/C3 6317M/C3
4-8 6324/C3 6319/C3
450 2 6317M/C3 6317M/C3
4-8 6326M/C3 6322/C3

8
M000250
M000252
M000251
M000253
Axially locked (D-end)
Axially free (N-end)
Bearing seals
All high voltage motors are equipped with labyrinth
sealed bearings.
Vibration levels / Balancing
Motors are balanced according to ISO1940:1998
standard, balancing grade G2.5.
Poles Speed r/min Design Bearing housing
vibration
2 1800 < n 3600 Standard 2.3 mm/s rms
t 4 1800 Standard 2.3 mm/s rms
The following table lists the vibration values that the
motors fulﬁl in compliance with IEC 60034-14.

8
Bearing life
The nominal life L10
of a bearing is defined according
to ISO 281 as the number of operating hours achieved
or exceeded by 90% of identical bearings in a large
test series under certain specified conditions. 50% of
the bearings achieve at least five times this figure.
Pulley diameter
When the desired bearing life has been determined,
the minimum permissible pulley diameter can be
calculated using FR
, as follows:
D =
1.9 · 107
· K · P
n · FR
where:
D = diameter of pulley, mm
P = power requirement, kW
n = motor speed, r/min
K = belt tension factor, dependent on belt type
and type of duty. A common value for
V-belts is 2.5.
FR
= permissible radial force
Lubrication intervals
The lubrication interval is defined by following the
L1-principle. This means that 99% of ABB's motors
will achieve the normal service intervals. Values for the
lubrication intervals can also be calculated according to
the L10-principle, which are normally doubled compared
to L1-values.Values are available from ABB on request.
The table below gives lubrication intervals for different
speeds (according to the L1-principle).The values are valid
for motors using the synthetic base oil mentioned in ABB’s
High Voltage Process Performance Motors Manual.
For more information, see ABB's High Voltage Process
Performance Motors Manual.
Lubrication
On delivery, the motors are pre-lubricated with high
quality grease. The grease grade is stamped on the
lubrication plate fastened to the motor frame. See page
152 for an example of a lubrication plate.
More information about lubrication and greases can
be found in ABB's High Voltage Process Performance
Manual delivered with the motor.
Motors with relubrication nipples
Motors are lubricated while running and the bearing
system on all high voltage motors has been built so that
a valve disc can be used for lubrication.
The grease outlet opening has closing valves at both
ends that should be opened before greasing and closed
1-2 hours after regreasing. Closing the valves ensures
that the construction is tight and dust or dirt cannot get
inside the bearing.
Frame 3000 1500 <1000
size Ambient °C r/min r/min r/min
Ball bearings, horizontal motor: lubrication intervals in duty hours
315 25 5900 8800 8800
315 40 1)
3000 6600 8800
355 25 4400 8800 8800
355 40 1)
2200 5100 8800
400 25 3000 6600 8800
400 40 1)
1500 3600 8000
450 25 3000 6600 8800
450 40 1)
1500 3600 8000
1)
For generation code B motors, same lubrication intervals are
valid for 50°C ambient.
Frame 3000 1500 <1000
Roller bearings: lubrication intervals in duty hours
315 25 - 4400 8800
315 40 1)
- 2200 5100
355 25 - 4400 4400
355 40 1)
- 2200 2200
400 25 - 3000 4400
400 40 1)
- 1500 2200
450 25 - 3000 4400
450 40 1)
- 1500 2200
1)
Frame 3000 1500 <1000
Ball bearings, vertical motor: lubrication intervals in duty hours
315 25 - 6600 8800
315 40 1)
- 3600 4400
355 25 - 4400 8800
355 40 1)
- 2200 4400
400 25 - 3000 6600
400 40 1)
- 1500 3600
450 25 - 3000 6600
450 40 1)
- 1500 3600
1)

8
the permissible force FR
can be calculated from the
following formula:
FR
= FX0
- (FX0
- FXmax
)
E = length of shaft extension in basic version
X
E
The tables give the maximum permissible radial force
in Newtons, assuming zero axial force. The values are
based on normal conditions at 50 Hz and calculated
bearing lives L10h
for 40,000 hours.
Motors are foot-mounted IM 1001 (B3) version with
force directed sideways. In some cases the strength of
the shaft affects the permissible forces.
Permissible loads of simultaneous radial and axial forces
will be supplied on request.
If the radial force is applied between points X0
and Xmax
,
Permissible loadings on shaft
FAZ
Ð
Ï
FAD
The following tables give the permissible axial forces
in Newton, assuming zero radial force. The values are
based on normal conditions at 50 Hz with standard bea-
rings and calculated bearing lives L10h
40,000 hours.
Given axial forces FAD
, assumes D-bearing locked by
means of locking ring.
FAD
Î Í FAZ
Mounting arrangement IM B3 Mounting arrangement IM V1
M000021
M000022
M000023
Length of
shaft
extension
E (mm)
Motor
size Poles
40,000 hours
FX0
(N) FXmax
(N)
40,000 hours
FX0
(N) FXmax
(N)
315LK 2 140 4850 4300 - -
4 170 7900 6850 25000 9500
6 170 9050 7850 30000 9500
355LK 2 140 2350 2150 - -
4 210 9900 8600 25000 12000
6 210 11500 9950 40000 12000
400L / LK 2 170 550 500 - -
4 210 8130 7160 25000 15000
6-8 210 10190 8900 45000 15000
450L 2 170 - - - -
4 210 8950 7950 25000 20800
6-8 210 10430 9250 50000 20800
40,000 hours
2-pole 4-pole 6-8-pole
Motor FAD
FAZ
FAD
FAZ
FAD
FAZ
size N N N N N N
315LK 2050 4050 4150 6150 5050 7050
355LK 850 4650 4350 8150 5650 9450
400L / LK 200 5200 2990 8990 3970 9970
450L - - 3200 9200 4220 10220
40,000 hours
2-pole 4-pole 6-8-pole
Motor FAD
FAZ
FAD
FAZ
FAD
FAZ
size N N N N N N
315LK - - 7650 3750 9150 4350
355LK - - 10900 3850 12700 4600
400L / LK - - 11550 2780 15100 2480
450L - - 15420 800 19080 380

8
M000254
Rating plates
Rating plate Lubrication plate
Motor catalogue ratings can be re-stamped as follows.
Motor construction will not be changed but a new rating
plate and data sheet can be created with variant code
002. In all the below cases or their combinations, please
contact ABB for correct motor size and motor data.
Bearing re-lubrication intervals as shown in this cata-
logue are valid also for re-stamped motors.
Output
Output can be re-stamped downwards from the cata-
logue data.
Voltage
Voltage can be re-stamped downwards up to 10%
from the motor nominal voltage in the catalogue. Motor
output has to be de-rated so that the motor absolute
temperatures will not be higher compared to catalogue
data.
Ambient temperature
Motor can be de-rated to higher ambient temperatures.
Maximum ambient temperature is 55 °C. The output
has to be de-rated so that absolute temperature will not
be higher than the catalogue data.
Altitude
Motor can be de-rated to higher altitudes than standard
1000 meters above sea level. There are different maxi-
mum altitude limits for different motors depending on
voltage level. The motor output has to be de-rated so
that the absolute temperatures of the motor will not be
higher than the catalogue data.
Note: M3GM (Ex) motors for higher than 1000 meters
above sea level altitude can be offered only case by
case from the manufacturing unit.
Restamping output, voltage, ambient and altitude
M000255

8
Sample order
Positions 1 to 4
3GGM = Totally enclosed fan cooled squirrel cage motor with cast
iron frame, high voltage
Positions 5 and 6
IEC-frame
31 = 315
35 = 355
40 = 400
45 = 450
Position 7
Speed (Pole pairs)
1 = 2 poles
2 = 4 poles
3 = 6 poles
4 = 8 poles
Position 8 to 10
Serial number
Motor size
A B C D, E, F, G
M3GM 315LKA 3GGM 312 810 - AQ A 003 etc.
1 2 3 4 5 6 7 8 9 10 11 12 13 14
A Motor type
B Motor size
C Product code
F Generation code
G Variant codes
Position 11
- (dash)
Position 12
A = Horizontal
B = Vertical
Position 13
See table below
Position 14
Generation code
A, B, C...
A = Motor designed for 40°C ambient
B = Motor designed for 50°C ambient
Code letters for supplementing the product code - single speed motors
Code letter for voltage and frequency at 50 Hz
Q R S T
3000 V 3300 V 6600 V 6000 V
Motor type M3GM 315LKA
Pole number 4
Rated output 110 kW
Product code 3GGM312810-AQA

8
HV Non-sparking motors Ex nA
IP 55 - IC 411 - Insulation class F. temperature rise class B. ambient temperature 40°C
Output
kW
r/min
Efficiency 4)
Power factor Current
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
3000 r/min = 2 poles 3000 V 50 Hz
132 M3GM 315 LKA 3GGM 2971 94.2 94.2 0.92 0.92 29 6.2 5
155 M3GM 315 LKB 3GGM 2972 94.5 94.5 0.92 0.92 34 6.5 6
200 5)
M3GM 355 LKA 3GGM 2974 94.4 94.4 0.90 0.90 45 5.5 9
250 5)
M3GM 355 LKB 3GGM 2975 95.0 95.0 0.90 0.90 56 6.0 11
310 5)
M3GM 355 LKC 3GGM 2973 95.5 95.6 0.91 0.92 68 5.9 11
315 5)
M3GM 355 LKD 3GGM 2974 95.5 95.6 0.91 0.92 69 6.3 11
345 5)
M3GM 355 LKE 3GGM 2983 95.8 95.8 0.91 0.90 76 6.5 15
355 5)
M3GM 400 LA 3GGM 2980 95.6 95.6 0.90 0.90 79 6.2 16
400 5)
M3GM 400 LB 3GGM 2978 95.9 95.9 0.91 0.91 88 6.1 15
440 5)
M3GM 400 LC 3GGM 2979 96.0 96.1 0.91 0.92 96 6.5 16
500 5)
M3GM 400 LKA 3GGM 2983 96.3 96.4 0.91 0.91 109 6.1 19
555 5)
M3GM 400 LKB 3GGM 2983 96.5 96.6 0.91 0.92 121 6.1 19
3000 r/min = 2 poles 3300 V 50 Hz
160 M3GM 315 LKA 3GGM 2976 94.6 94.6 0.91 0.91 32 6.3 6
200 5)
M3GM 355 LKA 3GGM 2977 94.5 94.3 0.89 0.89 41 6.1 9
250 5)
M3GM 355 LKB 3GGM 2975 95.0 95.0 0.90 0.90 51 6.0 10
310 5)
M3GM 355 LKC 3GGM 2975 95.5 95.6 0.91 0.92 62 6.4 11
330 5)
M3GM 355 LKD 3GGM 2975 95.7 95.8 0.91 0.92 66 6.5 11
355 5)
M3GM 400 LA 3GGM 2979 95.7 95.7 0.90 0.90 72 6.2 14
400 5)
M3GM 400 LB 3GGM 2978 95.8 95.9 0.91 0.91 80 6.1 14
435 5)
M3GM 400 LC 3GGM 2977 96.0 96.1 0.91 0.92 86 6.3 14
500 5)
M3GM 400 LKA 3GGM 2982 96.3 96.4 0.91 0.92 99 5.9 16
555 5)
M3GM 400 LKB 3GGM 2983 96.5 96.6 0.91 0.92 110 6.1 17
3000 r/min = 2 poles 6000 V 50 Hz
250 5)
M3GM 355 LKA 3GGM 2975 94.9 95.0 0.91 0.92 28 6.1 5
280 5)
M3GM 355 LKB 3GGM 2982 95.3 95.3 0.91 0.90 31 6.2 6
300 5)
M3GM 355 LKC 3GGM 2982 95.5 95.5 0.91 0.91 33 6.2 6
315 5)
M3GM 400 LA 3GGM 2981 95.2 95.1 0.89 0.88 35 6.4 8
355 5)
M3GM 400 LB 3GGM 2979 95.6 95.6 0.91 0.91 39 6.3 7
390 5)
M3GM 400 LC 3GGM 2978 95.7 95.8 0.91 0.91 43 6.3 8
410 5)
M3GM 400 LD 3GGM 2979 95.9 96.0 0.92 0.92 45 6.6 8
450 5)
M3GM 400 LKA 3GGM 2983 96.0 96.1 0.91 0.91 49 6.0 9
500 5)
M3GM 400 LKB 3GGM 2984 96.2 96.3 0.91 0.91 55 6.4 10
530 5)
M3GM 400 LKC 3GGM 2984 96.3 96.4 0.92 0.92 58 6.4 10
3000 r/min = 2 poles 6600 V 50 Hz
280 5)
M3GM 355 LKA 3GGM 2982 95.2 95.3 0.91 0.91 28 6.1 5
315 5)
M3GM 400 LA 3GGM 2980 95.3 95.2 0.90 0.89 32 6.4 7
355 5)
M3GM 400 LB 3GGM 2980 95.5 95.5 0.91 0.91 36 6.3 7
395 5)
M3GM 400 LC 3GGM 2979 95.8 95.8 0.91 0.91 39 6.5 7
415 5)
M3GM 400 LD 3GGM 2979 95.9 96.0 0.91 0.92 41 6.6 7
450 5)
M3GM 400 LKA 3GGM 2983 96.0 96.1 0.91 0.91 45 6.0 8
500 5)
M3GM 400 LKB 3GGM 2984 96.2 96.3 0.91 0.91 50 6.5 9
530 5)
M3GM 400 LKC 3GGM 2984 96.3 96.4 0.92 0.92 52 6.4 9
The bullet in the product code indicates choice of mounting
arrangement (see ordering information page).
When ordering variant code for protection type has to be added
to the product code according to needs:
456 Ex nA design, fulfilling IEC 60079-15, with certificate.
480 Ex nA II according to ATEX directive 94/9/EC, temperature
class T3.
Amendment 2008-06-12

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia 1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP 3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
3000 r/min = 2 poles 3000 V 50 Hz
132 M3GM 315 LKA 424 1.2 2.6 0.17 10 8 16 2.0 230 1230 78
155 M3GM 315 LKB 498 1.3 2.8 0.17 12 7 16 2.1 240 1260 78
200 5)
M3GM 355 LKA 642 0.8 2.4 0.13 15 11 22 2.9 280 1680 78
250 5)
M3GM 355 LKB 803 0.9 2.6 0.13 18 9 16 3.2 300 1780 78
310 5)
M3GM 355 LKC 996 1.0 2.5 0.13 22 8 16 4.5 390 2150 78
315 5)
M3GM 355 LKD 1011 1.1 2.6 0.14 22 7 14 4.2 420 2240 78
345 5)
M3GM 355 LKE 1104 1.0 2.7 0.13 24 8 14 4.1 400 2220 78
355 5)
M3GM 400 LA 1138 0.9 2.6 0.13 24 9 20 6.9 460 2410 79
400 5)
M3GM 400 LB 1283 1.0 2.5 0.14 27 9 20 8.0 520 2660 79
440 5)
M3GM 400 LC 1411 1.1 2.6 0.14 29 7 16 7.8 580 2900 79
500 5)
M3GM 400 LKA 1601 0.8 2.6 0.11 32 9 16 8.8 560 2980 79
555 5)
M3GM 400 LKB 1777 0.8 2.6 0.11 35 9 14 8.4 620 3220 79
3000 r/min = 2 poles 3300 V 50 Hz
160 M3GM 315 LKA 513 0.9 2.8 0.14 12 8 16 1.9 210 1180 78
200 5)
M3GM 355 LKA 641 0.8 2.7 0.13 15 10 20 2.9 280 1670 78
250 5)
M3GM 355 LKB 803 0.9 2.6 0.13 18 9 16 3.2 300 1770 78
310 5)
M3GM 355 LKC 995 1.1 2.7 0.14 22 7 15 4.5 390 2140 78
330 5)
M3GM 355 LKD 1059 1.1 2.7 0.13 23 7 13 4.2 420 2250 78
355 5)
M3GM 400 LA 1138 0.9 2.6 0.13 24 9 20 6.9 460 2430 79
400 5)
M3GM 400 LB 1283 1.0 2.5 0.13 27 9 20 8.0 520 2650 79
435 5)
M3GM 400 LC 1395 1.1 2.5 0.14 29 8 16 7.8 580 2900 79
500 5)
M3GM 400 LKA 1601 0.8 2.5 0.11 32 10 16 9.4 590 3090 79
555 5)
M3GM 400 LKB 1777 0.8 2.6 0.11 35 9 14 8.4 620 3210 79
3000 r/min = 2 poles 6000 V 50 Hz
250 5)
M3GM 355 LKA 803 1.0 2.5 0.14 18 9 16 4.2 370 2010 78
280 5)
M3GM 355 LKB 897 0.9 2.6 0.13 20 9 18 4.1 350 2000 78
300 5)
M3GM 355 LKC 961 0.9 2.6 0.13 21 9 18 4.4 370 2090 78
315 5)
M3GM 400 LA 1009 0.9 2.7 0.14 22 9 20 6.4 430 2260 79
355 5)
M3GM 400 LB 1138 1.0 2.6 0.14 24 9 20 7.5 490 2510 79
390 5)
M3GM 400 LC 1250 1.0 2.6 0.14 26 8 17 6.7 520 2630 79
410 5)
M3GM 400 LD 1314 1.1 2.6 0.14 28 8 17 7.5 570 2810 79
450 5)
M3GM 400 LKA 1441 0.8 2.6 0.12 30 10 16 8.3 530 2820 79
500 5)
M3GM 400 LKB 1600 0.8 2.7 0.12 32 9 16 9.4 590 3050 79
530 5)
M3GM 400 LKC 1696 0.9 2.7 0.12 34 9 16 9.9 620 3170 79
3000 r/min = 2 poles 6600 V 50 Hz
280 5)
M3GM 355 LKA 897 0.9 2.6 0.14 19 10 16 4.4 370 2080 78
315 5)
M3GM 400 LA 1009 1.0 2.7 0.14 22 9 20 6.4 430 2270 79
355 5)
M3GM 400 LB 1138 1.0 2.6 0.14 24 9 20 7.5 490 2500 79
395 5)
M3GM 400 LC 1266 1.1 2.6 0.14 27 8 16 6.7 520 2630 79
415 5)
M3GM 400 LD 1330 1.2 2.6 0.15 28 8 17 7.5 570 2810 79
450 5)
M3GM 400 LKA 1441 0.8 2.6 0.12 30 10 16 8.6 550 2880 79
500 5)
M3GM 400 LKB 1600 0.9 2.7 0.12 32 9 16 9.4 590 3050 79
530 5)
M3GM 400 LKC 1696 0.9 2.7 0.12 34 9 16 9.9 620 3170 79
1)
315LK, 355LK, 400L: The given values of load inertia assume two starts from
cold and one start from warm conditions in succession against quadratic load
torque with 90% of the rated torque at the rated speed and at 80% of the
rated voltage.
400LK: The given values of load inertia assume two starts from cold and one
start from warm conditions in succession against quadratic load torque with
85% of the rated torque at the rated speed and at 80% of the rated voltage.
To check validity against other starting requirements, contact ABB.
2)
315LK, 355LK, 400L: Starting time with given values of the load inertia from
cold condition in succession against quadratic load torque with 90% of the
rated torque at the rated speed and at rated voltage.
400LK: Starting time with given values of the load inertia from cold condition
in succession against quadratic load torque with 85% of the rated torque at
the rated speed and at rated voltage.
3)
The sound pressure levels are presented at no-load. The magnetic noise level
of 2- and 4-pole motors is typically low compared to the fan noise, resulting
no increase in the noise level on-load. The variation and measuring tolerance
of the ﬁgures is +3 dB(A).
4)
Efﬁciency based on typical additional losses acc. to measurements.
5)
stated when ordering, see variant codes 044 and 045.

8
class T3.
Output
kW
r/min
Efﬁciency 4)
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
1500 r/min = 4 poles 3000 V 50 Hz
110 M3GM 315 LKA 3GGM 1488 94.3 94.1 0.84 0.80 27 6.2 10
132 M3GM 315 LKB 3GGM 1484 94.3 94.4 0.85 0.83 32 5.3 10
160 M3GM 315 LKC 3GGM 1485 94.6 94.6 0.87 0.85 37 6.2 11
200 M3GM 315 LKD 3GGM 1485 94.8 94.9 0.87 0.85 46 6.0 14
250 M3GM 355 LKA 3GGM 1490 95.3 95.2 0.84 0.80 60 6.2 22
315 M3GM 355 LKB 3GGM 1489 95.5 95.5 0.84 0.82 75 6.0 25
355 M3GM 355 LKC 3GGM 1488 95.7 95.8 0.85 0.82 84 6.0 27
400 M3GM 355 LKD 3GGM 1489 96.0 96.0 0.86 0.84 93 5.8 29
450 M3GM 400 LA 3GGM 1490 96.4 96.5 0.86 0.84 105 6.4 32
490 M3GM 400 LB 3GGM 1489 96.1 96.1 0.85 0.83 115 6.4 35
560 M3GM 400 LKA 3GGM 1491 96.4 96.4 0.85 0.83 131 6.0 43
600 M3GM 400 LKB 3GGM 1491 96.5 96.4 0.85 0.82 140 6.4 48
710 M3GM 450 LA 3GGM 1493 96.6 96.6 0.88 0.86 161 6.4 44
735 M3GM 450 LB 3GGM 1492 96.6 96.6 0.88 0.86 166 6.2 44
1500 r/min = 4 poles 3300 V 50 Hz
132 M3GM 315 LKA 3GGM 1488 94.5 94.3 0.82 0.77 30 6.2 13
160 M3GM 315 LKB 3GGM 1484 94.7 94.8 0.84 0.82 35 5.5 12
200 M3GM 315 LKC 3GGM 1485 94.8 94.9 0.87 0.85 42 6.1 13
250 M3GM 355 LKA 3GGM 1489 95.3 95.2 0.84 0.81 55 6.0 19
315 M3GM 355 LKB 3GGM 1490 95.4 95.4 0.83 0.80 69 6.4 26
355 M3GM 355 LKC 3GGM 1489 95.7 95.7 0.84 0.81 77 6.4 27
400 M3GM 355 LKD 3GGM 1490 95.9 95.9 0.86 0.83 85 6.0 28
440 M3GM 400 LA 3GGM 1489 96.4 96.4 0.85 0.84 93 6.2 28
495 M3GM 400 LB 3GGM 1490 96.1 96.1 0.85 0.83 106 6.5 34
560 M3GM 400 LKA 3GGM 1491 96.4 96.4 0.85 0.83 119 6.0 39
600 M3GM 400 LKB 3GGM 1491 96.5 96.4 0.85 0.83 127 6.3 43
630 M3GM 450 LA 3GGM 1493 96.5 96.4 0.88 0.86 130 6.3 36
710 M3GM 450 LB 3GGM 1492 96.6 96.6 0.88 0.86 146 6.3 39
1500 r/min = 4 poles 6000 V 50 Hz
250 M3GM 355 LKA 3GGM 1486 95.2 95.3 0.84 0.81 30 5.8 10
315 M3GM 355 LKB 3GGM 1489 95.7 95.7 0.83 0.79 38 6.4 15
355 M3GM 400 LA 3GGM 1489 95.9 96.0 0.85 0.84 42 6.2 13
400 M3GM 400 LB 3GGM 1489 96.1 96.2 0.86 0.84 47 6.4 14
450 M3GM 400 LC 3GGM 1489 95.9 96.0 0.86 0.85 52 6.3 15
500 M3GM 400 LKA 3GGM 1491 96.2 96.2 0.85 0.83 58 5.9 19
560 M3GM 400 LKB 3GGM 1491 96.3 96.3 0.86 0.84 65 5.9 20
600 M3GM 400 LKC 3GGM 1492 96.4 96.4 0.85 0.82 70 6.4 24
630 M3GM 450 LA 3GGM 1493 96.4 96.4 0.87 0.85 72 6.5 21
710 M3GM 450 LB 3GGM 1493 96.6 96.5 0.88 0.86 80 6.4 22
1500 r/min = 4 poles 6600 V 50 Hz
250 M3GM 355 LKA 3GGM 1488 95.3 95.3 0.83 0.80 28 6.2 11
315 M3GM 355 LKB 3GGM 1487 95.6 95.7 0.84 0.81 34 6.3 12
355 M3GM 400 LA 3GGM 1489 95.9 96.0 0.86 0.84 38 6.1 11
400 M3GM 400 LB 3GGM 1489 96.0 96.1 0.86 0.84 42 6.3 13
450 M3GM 400 LC 3GGM 1489 96.0 95.9 0.86 0.84 48 6.5 14
500 M3GM 400 LKA 3GGM 1491 96.2 96.1 0.85 0.83 53 6.0 18
560 M3GM 400 LKB 3GGM 1491 96.3 96.3 0.86 0.84 59 5.9 18
600 M3GM 400 LKC 3GGM 1491 96.4 96.4 0.85 0.83 64 6.3 21
630 M3GM 450 LA 3GGM 1493 96.4 96.3 0.87 0.85 65 6.5 19
710 M3GM 450 LB 3GGM 1492 96.6 96.5 0.88 0.86 73 6.3 20

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia 1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP 3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
1500 r/min = 4 poles 3000 V 50 Hz
110 M3GM 315 LKA 706 1.6 2.6 0.21 41 7 20 1.9 220 1180 73
132 M3GM 315 LKB 849 1.3 2.1 0.21 49 9 20 1.9 220 1180 73
160 M3GM 315 LKC 1029 1.6 2.4 0.21 58 7 16 2.8 260 1180 73
200 M3GM 315 LKD 1286 1.0 2.7 0.15 71 8 15 2.9 270 1210 73
250 M3GM 355 LKA 1603 1.3 2.5 0.17 87 8 18 5.5 400 1850 74
315 M3GM 355 LKB 2021 1.3 2.4 0.17 107 8 16 6.3 450 1980 74
355 M3GM 355 LKC 2278 1.4 2.3 0.17 119 8 14 6.8 480 2080 74
400 M3GM 355 LKD 2565 0.9 2.4 0.13 132 9 16 8.1 540 2260 74
450 M3GM 400 LA 2885 1.5 2.3 0.16 147 7 12 12.1 660 2870 74
490 M3GM 400 LB 3141 1.5 2.3 0.16 158 7 12 12.1 660 2860 79
560 M3GM 400 LKA 3587 1.0 2.5 0.12 177 9 14 13.7 730 3200 79
600 M3GM 400 LKB 3842 1.1 2.7 0.12 188 8 12 14.9 790 3380 79
710 M3GM 450 LA 4542 0.8 2.6 0.10 217 10 20 25.6 1050 4570 83
735 M3GM 450 LB 4704 0.8 2.5 0.10 224 11 22 22.9 1060 4580 83
1500 r/min = 4 poles 3300 V 50 Hz
132 M3GM 315 LKA 847 1.7 2.6 0.21 49 7 20 1.9 220 1180 73
160 M3GM 315 LKB 1029 1.4 2.2 0.21 58 8 20 2.1 240 1250 73
200 M3GM 315 LKC 1286 1.0 2.7 0.15 71 8 15 2.9 270 1210 73
250 M3GM 355 LKA 1603 1.3 2.4 0.17 87 8 20 5.5 400 1850 74
315 M3GM 355 LKB 2019 1.4 2.5 0.17 107 7 16 6.3 450 1970 74
355 M3GM 355 LKC 2277 1.4 2.5 0.17 119 7 14 6.8 480 2070 74
400 M3GM 355 LKD 2564 1.0 2.5 0.13 132 9 16 8.1 540 2250 74
440 M3GM 400 LA 2822 1.4 2.3 0.16 144 7 12 11.3 620 2770 74
495 M3GM 400 LB 3173 1.5 2.4 0.16 159 7 11 12.1 660 2860 79
560 M3GM 400 LKA 3587 1.0 2.5 0.12 177 9 14 13.7 730 3200 79
600 M3GM 400 LKB 3842 1.0 2.6 0.12 188 8 12 14.9 790 3370 79
630 M3GM 450 LA 4031 0.8 2.5 0.10 196 11 20 23.5 980 4340 83
710 M3GM 450 LB 4543 0.8 2.5 0.10 217 11 20 25.6 1050 4570 83
1500 r/min = 4 poles 6000 V 50 Hz
250 M3GM 355 LKA 1606 1.2 2.3 0.17 87 8 20 4.1 380 2010 74
315 M3GM 355 LKB 2021 1.1 2.7 0.14 107 8 20 4.8 420 2200 74
355 M3GM 400 LA 2277 1.4 2.3 0.17 119 7 17 10.8 600 2600 74
400 M3GM 400 LB 2565 1.5 2.4 0.17 132 7 14 11.6 640 2730 74
450 M3GM 400 LC 2887 1.5 2.3 0.17 147 7 12 12.4 670 2840 79
500 M3GM 400 LKA 3203 1.0 2.5 0.13 161 9 16 12.9 700 3050 79
560 M3GM 400 LKB 3588 1.0 2.5 0.13 177 9 14 14.1 750 3220 79
600 M3GM 400 LKC 3841 1.1 2.7 0.12 188 8 12 14.9 790 3340 79
630 M3GM 450 LA 4030 0.8 2.6 0.10 196 10 20 22.8 960 4240 83
710 M3GM 450 LB 4543 0.8 2.6 0.10 217 10 20 25.6 1050 4540 83
1500 r/min = 4 poles 6600 V 50 Hz
250 M3GM 355 LKA 1605 1.4 2.5 0.17 87 7 20 4.1 380 2010 74
315 M3GM 355 LKB 2023 1.4 2.5 0.17 107 7 20 5.0 440 2280 74
355 M3GM 400 LA 2277 1.4 2.3 0.17 119 7 17 10.8 600 2600 74
400 M3GM 400 LB 2566 1.5 2.3 0.17 132 7 14 11.6 640 2710 74
450 M3GM 400 LC 2886 1.6 2.4 0.17 147 6 12 12.4 670 2840 79
500 M3GM 400 LKA 3202 1.0 2.6 0.13 161 9 15 12.9 700 3040 79
560 M3GM 400 LKB 3588 1.0 2.5 0.13 177 9 14 14.1 750 3220 79
600 M3GM 400 LKC 3842 1.0 2.6 0.13 188 8 12 14.9 790 3330 79
630 M3GM 450 LA 4030 0.8 2.6 0.10 196 10 20 22.8 960 4230 83
710 M3GM 450 LB 4543 0.8 2.4 0.10 217 11 20 25.6 1050 4530 83
1)
The given values of load inertia assume three starts from cold and two starts
from warm conditions in succession against quadratic load torque with 90%
of the rated torque at the rated speed and at 80% of the rated voltage.
2)
Starting time with given values of the load inertia from cold condition in
succession against quadratic load torque with 90% of the rated torque
at the rated speed and at rated voltage.
3)
4)

8
class T3.
Output
kW
r/min
Efﬁciency 4)
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
1000 r/min = 6 poles 3000 V 50 Hz
110 M3GM 315 LKA 3GGM 987 93.9 94.3 0.80 0.77 28 5.3 11
132 M3GM 315 LKB 3GGM 986 94.3 94.6 0.80 0.77 33 5.4 13
150 M3GM 315 LKC 3GGM 991 94.8 94.8 0.76 0.69 40 6.2 21
160 M3GM 355 LKA 3GGM 992 94.9 94.9 0.75 0.70 43 5.5 21
200 M3GM 355 LKB 3GGM 990 95.3 95.4 0.79 0.75 51 5.3 21
250 M3GM 355 LKC 3GGM 991 95.6 95.7 0.79 0.75 64 5.5 27
315 M3GM 400 L 3GGM 991 95.7 95.9 0.82 0.79 77 6.0 28
355 M3GM 400 LA 3GGM 991 95.9 96.1 0.82 0.80 86 5.9 30
400 M3GM 400 LB 3GGM 991 96.1 96.3 0.82 0.80 97 6.2 34
450 M3GM 400 LKA 3GGM 994 96.2 96.2 0.79 0.75 113 6.0 48
500 M3GM 400 LKB 3GGM 994 96.3 96.4 0.81 0.77 123 5.8 48
520 M3GM 400 LKC 3GGM 995 96.4 96.3 0.78 0.73 133 6.6 62
560 M3GM 450 LA 3GGM 994 96.4 96.5 0.84 0.81 133 5.9 46
630 M3GM 450 LB 3GGM 994 96.6 96.6 0.84 0.81 149 6.3 52
695 M3GM 450 LC 3GGM 995 96.7 96.7 0.84 0.81 164 6.6 60
1000 r/min = 6 poles 3300 V 50 Hz
112 M3GM 315 LKA 3GGM 991 94.4 94.5 0.79 0.74 26 5.7 12
132 M3GM 315 LKB 3GGM 987 94.3 94.6 0.80 0.76 31 5.6 13
150 M3GM 315 LKC 3GGM 991 94.8 94.8 0.76 0.69 36 6.2 19
160 M3GM 355 LKA 3GGM 992 94.9 94.8 0.75 0.69 39 5.7 20
200 M3GM 355 LKB 3GGM 990 95.3 95.4 0.79 0.75 46 5.3 19
250 M3GM 355 LKC 3GGM 990 95.5 95.7 0.80 0.76 57 5.3 23
310 M3GM 400 L 3GGM 990 95.7 95.9 0.82 0.79 69 5.8 24
345 M3GM 400 LA 3GGM 991 95.9 96.0 0.82 0.79 77 6.2 27
390 M3GM 400 LB 3GGM 991 96.0 96.2 0.82 0.80 86 6.2 30
450 M3GM 400 LKA 3GGM 994 96.2 96.3 0.80 0.76 102 5.9 41
490 M3GM 400 LKB 3GGM 994 96.3 96.3 0.81 0.77 110 5.9 44
530 M3GM 400 LKC 3GGM 994 96.4 96.4 0.79 0.74 122 6.4 54
560 M3GM 450 LA 3GGM 994 96.4 96.5 0.84 0.82 120 6.0 41
630 M3GM 450 LB 3GGM 995 96.6 96.6 0.84 0.81 135 6.4 48
695 M3GM 450 LC 3GGM 995 96.7 96.7 0.84 0.81 150 6.6 54
1000 r/min = 6 poles 6000 V 50 Hz
220 M3GM 355 LKA 3GGM 992 95.2 95.3 0.80 0.76 28 6.3 12
250 M3GM 355 LKB 3GGM 992 95.3 95.5 0.81 0.78 31 5.7 12
280 M3GM 400 L 3GGM 991 95.7 95.8 0.80 0.76 35 5.6 14
315 M3GM 400 LA 3GGM 992 95.9 95.9 0.80 0.76 40 5.8 16
350 M3GM 400 LB 3GGM 991 96.0 96.1 0.80 0.77 44 5.7 17
400 M3GM 400 LKA 3GGM 993 96.1 96.1 0.81 0.77 50 5.5 19
450 M3GM 400 LKC 3GGM 993 96.3 96.2 0.80 0.76 56 6.0 23
500 M3GM 450 LA 3GGM 995 96.3 96.3 0.83 0.80 60 6.3 22
560 M3GM 450 LB 3GGM 995 96.4 96.5 0.84 0.81 66 6.3 23
630 M3GM 450 LC 3GGM 994 96.5 96.6 0.84 0.81 75 6.3 26
650 M3GM 450 LD 3GGM 994 96.6 96.6 0.85 0.82 76 6.4 26
1000 r/min = 6 poles 6600 V 50 Hz
250 M3GM 355 LKA 3GGM 994 95.5 95.5 0.79 0.74 29 6.5 13
280 M3GM 400 L 3GGM 991 95.6 95.7 0.79 0.75 32 5.6 13
315 M3GM 400 LA 3GGM 992 95.9 95.9 0.79 0.75 36 6.1 16
355 M3GM 400 LB 3GGM 991 96.0 96.0 0.80 0.76 40 5.8 16
400 M3GM 400 LKA 3GGM 993 96.1 96.1 0.80 0.77 45 5.7 18
450 M3GM 400 LKC 3GGM 993 96.2 96.2 0.80 0.76 51 6.0 21
500 M3GM 450 LA 3GGM 994 96.3 96.3 0.84 0.82 54 6.0 18
560 M3GM 450 LB 3GGM 994 96.4 96.5 0.85 0.82 60 6.1 20
630 M3GM 450 LC 3GGM 994 96.5 96.6 0.85 0.83 67 6.1 22

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia 1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP 3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
1000 r/min = 6 poles 3000 V 50 Hz
110 M3GM 315 LKA 1065 1.5 2.2 0.23 111 9 20 2.8 270 1170 65
132 M3GM 315 LKB 1278 1.6 2.3 0.22 131 8 20 3.2 290 1240 65
150 M3GM 315 LKC 1445 1.4 2.9 0.17 148 8 16 3.3 300 1270 65
160 M3GM 355 LKA 1541 1.4 2.4 0.19 157 9 20 4.6 350 1660 70
200 M3GM 355 LKB 1928 1.4 2.2 0.19 192 9 20 5.7 410 1850 70
250 M3GM 355 LKC 2410 1.5 2.2 0.19 236 8 20 6.9 480 2030 70
315 M3GM 400 L 3036 1.6 2.2 0.18 291 8 18 14.6 670 2500 75
355 M3GM 400 LA 3422 1.6 2.2 0.18 324 8 18 17.4 770 2730 75
400 M3GM 400 LB 3854 1.7 2.3 0.18 360 7 18 20.1 870 2970 75
450 M3GM 400 LKA 4323 1.2 2.5 0.14 400 9 22 17.9 870 3090 78
500 M3GM 400 LKB 4806 1.2 2.4 0.13 439 9 22 20.5 960 3330 78
520 M3GM 400 LKC 4993 1.4 2.7 0.13 455 7 21 21.1 980 3380 78
560 M3GM 450 LA 5379 1.1 2.5 0.14 486 10 20 29.2 1040 3990 78
630 M3GM 450 LB 6049 1.2 2.6 0.14 539 9 20 34.5 1190 4360 78
695 M3GM 450 LC 6673 1.3 2.6 0.14 587 8 22 34.0 1250 4510 78
1000 r/min = 6 poles 3300 V 50 Hz
112 M3GM 315 LKA 1080 1.2 2.6 0.18 113 9 20 3.0 280 1200 65
132 M3GM 315 LKB 1277 1.6 2.3 0.22 131 8 20 3.2 290 1240 65
150 M3GM 315 LKC 1445 1.4 2.9 0.17 148 8 16 3.3 300 1270 65
160 M3GM 355 LKA 1540 1.5 2.4 0.19 157 8 20 4.6 350 1660 70
200 M3GM 355 LKB 1928 1.4 2.2 0.19 192 9 20 5.7 410 1850 70
250 M3GM 355 LKC 2412 1.4 2.1 0.19 236 9 20 6.9 480 2030 70
310 M3GM 400 L 2989 1.5 2.2 0.18 286 8 22 13.3 680 2500 75
345 M3GM 400 LA 3324 1.7 2.3 0.18 315 7 22 16.0 780 2730 75
390 M3GM 400 LB 3758 1.7 2.3 0.18 352 7 18 20.1 870 2960 75
450 M3GM 400 LKA 4324 1.2 2.4 0.14 400 9 22 18.5 890 3160 78
490 M3GM 400 LKB 4709 1.2 2.4 0.14 432 9 22 20.5 960 3310 78
530 M3GM 400 LKC 5090 1.3 2.7 0.13 463 8 20 21.1 980 3390 78
560 M3GM 450 LA 5379 1.1 2.5 0.14 486 10 20 30.3 1070 4060 78
630 M3GM 450 LB 6049 1.2 2.6 0.14 539 9 20 34.5 1190 4360 78
695 M3GM 450 LC 6673 1.3 2.6 0.14 857 8 22 34.0 1250 4510 78
1000 r/min = 6 poles 6000 V 50 Hz
220 M3GM 355 LKA 2118 1.7 2.5 0.21 210 7 16 8.1 540 2170 70
250 M3GM 355 LKB 2406 1.0 2.4 0.16 203 9 14 8.0 530 2150 70
280 M3GM 400 L 2697 1.3 2.2 0.16 261 9 20 10.5 590 2530 75
315 M3GM 400 LA 3033 1.4 2.3 0.16 291 8 20 11.8 640 2710 75
350 M3GM 400 LB 3372 1.4 2.2 0.16 319 8 20 12.7 680 2830 75
400 M3GM 400 LKA 3848 0.9 2.4 0.11 360 11 22 11.9 730 3090 78
450 M3GM 400 LKC 4326 1.0 2.6 0.11 400 10 22 14.0 820 3380 78
500 M3GM 450 LA 4801 1.2 2.6 0.14 439 9 20 28.2 1010 3880 78
560 M3GM 450 LB 5377 1.2 2.6 0.14 486 9 20 32.4 1130 4180 78
630 M3GM 450 LC 6050 1.4 2.5 0.16 539 7 20 37.2 1260 4480 78
650 M3GM 450 LD 6242 1.2 2.6 0.14 554 9 20 36.7 1250 4480 78
1000 r/min = 6 poles 6600 V 50 Hz
250 M3GM 355 LKA 2403 1.3 2.8 0.16 236 8 13 8.3 540 2200 70
280 M3GM 400 L 2697 1.3 2.2 0.17 261 9 20 10.1 570 2470 75
315 M3GM 400 LA 3031 1.5 2.4 0.16 291 8 20 11.8 640 2710 75
355 M3GM 400 LB 3419 1.4 2.3 0.16 324 8 20 12.7 680 2830 75
400 M3GM 400 LKA 3847 0.9 2.4 0.11 360 11 22 11.9 730 3090 78
450 M3GM 400 LKC 4326 1.0 2.6 0.11 400 10 22 14.0 820 3380 78
500 M3GM 450 LA 4802 1.1 2.5 0.14 439 10 20 29.2 1040 3950 78
560 M3GM 450 LB 5379 1.1 2.5 0.14 486 9 20 32.4 1130 4170 78
630 M3GM 450 LC 6051 1.2 2.5 0.14 539 9 20 36.7 1250 4470 78
1)
2)
succession against quadratic load torque with 90% of the rated torque at the
rated speed and at rated voltage.
3)
The sound pressure levels are presented at no-load. Sound level values of
6…8-pole motors at no-load are typically 1...3 dB(A) higher than the corre-
sponding values at no-load. The variation and measuring tolerance of the
ﬁgures is +3 dB(A).
4)

8
class T3.
Output
kW
r/min
Efﬁciency 4)
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
750 r/min = 8 poles 3000 V 50 Hz
200 M3GM 400 LA 3GGM 742 94.6 94.8 0.79 0.76 51 5.2 21
220 M3GM 400 LB 3GGM 742 94.8 95.0 0.79 0.75 56 5.5 24
250 M3GM 400 LC 3GGM 742 95.0 95.2 0.80 0.77 63 5.4 25
270 M3GM 400 LD 3GGM 741 95.0 95.3 0.80 0.77 68 5.4 26
290 M3GM 400 LE 3GGM 741 95.2 95.4 0.80 0.77 73 5.5 29
315 M3GM 400 LKA 3GGM 744 95.4 95.5 0.78 0.73 82 5.2 37
355 M3GM 400 LKB 3GGM 744 95.6 95.7 0.78 0.74 91 5.1 39
370 M3GM 400 LKC 3GGM 745 95.7 95.6 0.76 0.71 97 5.6 47
400 M3GM 450 LA 3GGM 746 96.0 95.8 0.78 0.74 102 5.8 46
450 M3GM 450 LB 3GGM 746 96.1 95.9 0.78 0.73 115 6.0 53
500 M3GM 450 LC 3GGM 746 96.2 96.1 0.78 0.74 127 6.0 58
530 M3GM 450 LD 3GGM 746 96.2 96.0 0.78 0.73 135 6.1 61
750 r/min = 8 poles 3300 V 50 Hz
200 M3GM 400 LA 3GGM 742 94.6 94.8 0.79 0.76 46 5.1 18
220 M3GM 400 LB 3GGM 742 94.8 95.0 0.80 0.76 51 5.2 20
250 M3GM 400 LC 3GGM 741 94.9 95.2 0.80 0.78 57 5.0 21
280 M3GM 400 LD 3GGM 741 95.1 95.4 0.80 0.77 64 5.4 25
290 M3GM 400 LE 3GGM 742 95.1 95.3 0.80 0.76 67 5.7 27
315 M3GM 400 LKA 3GGM 744 95.5 95.6 0.77 0.72 74 5.3 34
345 M3GM 400 LKB 3GGM 744 95.5 95.6 0.78 0.74 81 5.2 36
375 M3GM 400 LKC 3GGM 744 95.7 95.7 0.77 0.72 89 5.5 42
400 M3GM 450 LA 3GGM 745 96.0 95.8 0.78 0.74 93 5.8 42
450 M3GM 450 LB 3GGM 745 96.1 95.9 0.78 0.73 104 5.9 47
500 M3GM 450 LC 3GGM 745 96.2 96.1 0.79 0.75 114 5.8 49
530 M3GM 450 LD 3GGM 745 96.1 96.1 0.80 0.75 121 5.8 52
750 r/min = 8 poles 6000 V 50 Hz
160 M3GM 400 LA 3GGM 741 94.1 94.2 0.76 0.71 21 5.2 10
180 M3GM 400 LB 3GGM 740 94.2 94.4 0.77 0.72 24 5.0 11
200 M3GM 400 LC 3GGM 740 94.5 94.6 0.77 0.73 26 5.1 12
220 M3GM 400 LD 3GGM 740 94.6 94.7 0.78 0.74 29 4.9 12
250 M3GM 400 LE 3GGM 740 94.8 94.9 0.77 0.72 33 5.3 15
280 M3GM 400 LKA 3GGM 743 95.3 95.3 0.77 0.72 37 5.3 17
315 M3GM 400 LKB 3GGM 743 95.4 95.4 0.76 0.71 42 5.4 20
355 M3GM 450 LA 3GGM 746 95.7 95.6 0.78 0.74 45 5.8 20
400 M3GM 450 LB 3GGM 746 95.8 95.7 0.78 0.74 51 5.8 23
450 M3GM 450 LC 3GGM 745 95.9 95.9 0.80 0.76 56 5.6 24
500 M3GM 450 LD 3GGM 745 96.1 96.0 0.80 0.76 62 5.7 26
750 r/min = 8 poles 6600 V 50 Hz
160 M3GM 400 LA 3GGM 741 94.2 94.2 0.76 0.71 20 5.3 9
180 M3GM 400 LB 3GGM 741 94.3 94.3 0.76 0.70 22 5.3 11
200 M3GM 400 LC 3GGM 739 94.3 94.6 0.78 0.74 24 4.8 10
220 M3GM 400 LD 3GGM 740 94.6 94.7 0.77 0.72 26 5.2 12
250 M3GM 400 LE 3GGM 741 94.8 94.8 0.76 0.71 30 5.4 14
280 M3GM 400 LKA 3GGM 743 95.3 95.3 0.76 0.71 34 5.4 16
315 M3GM 400 LKB 3GGM 743 95.4 95.4 0.76 0.71 38 5.4 18
355 M3GM 450 LA 3GGM 745 95.7 95.6 0.79 0.75 41 5.7 18
400 M3GM 450 LB 3GGM 745 95.8 95.8 0.80 0.75 46 5.6 19
450 M3GM 450 LC 3GGM 745 95.9 95.9 0.80 0.76 51 5.5 21
500 M3GM 450 LD 3GGM 745 96.0 96.0 0.81 0.77 56 5.5 22

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia 1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP 3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
750 r/min = 8 poles 3000 V 50 Hz
200 M3GM 400 LA 2575 1.0 2.4 0.15 388 11 22 13.6 630 2370 75
220 M3GM 400 LB 2831 1.1 2.5 0.15 423 10 22 15.0 680 2490 75
250 M3GM 400 LC 3219 1.1 2.4 0.14 476 10 22 17.7 780 2730 75
270 M3GM 400 LD 3479 1.1 2.4 0.15 510 10 22 19.1 830 2830 75
290 M3GM 400 LE 3736 1.1 2.4 0.14 545 9 22 20.5 870 2960 75
315 M3GM 400 LKA 4041 1.2 2.1 0.18 587 11 20 20.0 880 3080 75
355 M3GM 400 LKB 4557 1.1 2.1 0.17 655 12 20 22.0 950 3270 75
370 M3GM 400 LKC 4745 1.3 2.3 0.18 680 10 22 21.8 1000 3380 75
400 M3GM 450 LA 5124 1.1 2.4 0.14 730 11 20 30.8 1080 4050 76
450 M3GM 450 LB 5763 1.2 2.5 0.14 811 10 20 33.0 1140 4200 76
500 M3GM 450 LC 6404 1.2 2.5 0.14 892 10 20 37.3 1260 4500 76
530 M3GM 450 LD 6787 1.2 2.6 0.14 940 10 20 39.5 1330 4620 76
750 r/min = 8 poles 3300 V 50 Hz
200 M3GM 400 LA 2576 1.0 2.3 0.15 388 11 22 13.6 630 2370 75
220 M3GM 400 LB 2833 1.0 2.4 0.15 423 10 22 15.0 680 2490 75
250 M3GM 400 LC 3224 1.0 2.2 0.15 476 11 22 17.7 780 2720 75
280 M3GM 400 LD 3607 1.1 2.4 0.14 528 10 22 19.1 830 2840 75
290 M3GM 400 LE 3734 1.2 2.5 0.15 545 9 22 20.5 870 2950 75
315 M3GM 400 LKA 4041 1.2 2.2 0.17 587 11 20 20.0 880 3100 75
345 M3GM 400 LKB 4428 1.2 2.2 0.18 638 11 22 20.5 950 3260 75
375 M3GM 400 LKC 4811 1.3 2.3 0.17 688 10 20 23.3 990 3390 75
400 M3GM 450 LA 5124 1.1 2.4 0.14 730 11 20 30.8 1080 4040 76
450 M3GM 450 LB 5764 1.1 2.5 0.14 811 10 20 33.0 1140 4190 76
500 M3GM 450 LC 6406 1.1 2.4 0.14 892 11 20 37.3 1260 4490 76
530 M3GM 450 LD 6790 1.1 2.4 0.14 940 11 20 39.5 1330 4620 76
750 r/min = 8 poles 6000 V 50 Hz
160 M3GM 400 LA 2062 1.1 2.5 0.16 315 10 22 10.2 560 2400 75
180 M3GM 400 LB 2322 1.0 2.4 0.16 352 11 22 10.7 580 2460 75
200 M3GM 400 LC 2580 1.1 2.4 0.15 388 10 22 12.1 640 2640 75
220 M3GM 400 LD 2840 1.0 2.3 0.15 423 10 22 13.0 680 2760 75
250 M3GM 400 LE 3225 1.1 2.5 0.15 476 9 22 14.4 740 2930 75
280 M3GM 400 LKA 3597 1.0 2.4 0.13 528 11 20 15.0 790 3240 75
315 M3GM 400 LKB 4047 1.0 2.5 0.13 587 10 20 15.9 830 3350 75
355 M3GM 450 LA 4547 1.1 2.4 0.15 655 11 20 28.6 1020 3850 76
400 M3GM 450 LB 5124 1.1 2.4 0.15 730 10 20 30.8 1080 4000 76
450 M3GM 450 LC 5766 1.1 2.3 0.15 811 11 20 35.2 1200 4300 76
500 M3GM 450 LD 6406 1.1 2.3 0.15 892 11 20 39.5 1330 4600 76
750 r/min = 8 poles 6600 V 50 Hz
160 M3GM 400 LA 2061 1.1 2.6 0.16 315 10 22 10.7 580 2450 75
180 M3GM 400 LB 2319 1.1 2.6 0.16 352 10 22 10.7 580 2460 75
200 M3GM 400 LC 2583 1.0 2.2 0.15 388 11 22 12.1 640 2630 75
220 M3GM 400 LD 2838 1.1 2.4 0.15 423 10 22 13.0 680 2750 75
250 M3GM 400 LE 3223 1.2 2.6 0.15 476 9 22 14.4 740 2930 75
280 M3GM 400 LKA 3596 1.0 2.5 0.13 528 10 20 15.0 790 3230 75
315 M3GM 400 LKB 4047 1.0 2.5 0.13 587 10 20 15.9 830 3350 75
355 M3GM 450 LA 4548 1.1 2.4 0.15 655 12 20 29.7 1050 3920 76
400 M3GM 450 LB 5125 1.1 2.3 0.15 730 11 20 31.9 1110 4070 76
450 M3GM 450 LC 5767 1.1 2.3 0.15 811 12 20 35.2 1200 4300 76
500 M3GM 450 LD 6408 1.0 2.2 0.15 892 12 20 39.5 1330 4590 76
1)
2)
3)
6…8-pole motors at no-load are typically 1...3 dB(A) higher than the corre-
sponding values at no-load. The variation and measuring tolerance of the
ﬁgures is +3 dB(A).
4)

8
class T3.
Output
kW
r/min
Efﬁciency Power factor Current
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
3000 r/min = 2 poles 3300 V 50 Hz
180 5)
M3GM 355 LKA 3GGM 2979 94.4 94.3 0.90 0.90 37 5.3 7
200 5)
M3GM 355 LKB 3GGM 2980 94.9 94.8 0.91 0.91 41 5.3 7
224 5)
M3GM 355 LKC 3GGM 2980 95.1 95.1 0.91 0.92 45 5.4 7
250 5)
M3GM 355 LKD 3GGM 2980 95.4 95.4 0.91 0.92 50 5.4 8
265 5)
M3GM 355 LKE 3GGM 2978 95.4 95.5 0.91 0.92 53 5.3 8
280 5)
M3GM 400 LKA 3GGM 2981 95.4 95.3 0.91 0.91 57 5.3 10
315 5)
M3GM 400 LKB 3GGM 2982 95.6 95.6 0.90 0.90 64 5.3 12
355 5)
M3GM 400 LKC 3GGM 2983 95.9 95.9 0.91 0.91 71 5.4 12
400 5)
M3GM 400 LKD 3GGM 2983 96.1 96.2 0.92 0.92 79 5.4 11
450 5)
M3GM 400 LKE 3GGM 2982 96.2 96.4 0.92 0.93 89 5.3 12
3000 r/min = 2 poles 6600 V 50 Hz
224 5)
M3GM 400 LKA 3GGM 2982 94.9 94.6 0.88 0.88 23 5.4 5
250 5)
M3GM 400 LKB 3GGM 2982 95.0 94.9 0.88 0.88 26 5.4 5
280 5)
M3GM 400 LKC 3GGM 2982 95.2 95.2 0.91 0.91 28 5.4 5
315 5)
M3GM 400 LKD 3GGM 2982 95.3 95.4 0.91 0.91 32 5.4 5
355 5)
M3GM 400 LKE 3GGM 2982 95.6 95.7 0.91 0.92 36 5.4 5
400 5)
M3GM 400 LKF 3GGM 2982 95.9 96.1 0.91 0.92 40 5.4 6

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia 1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP 3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
3000 r/min = 2 poles 3300 V 50 Hz
180 4)
M3GM 355 LKA 577 0.5 2.5 0.11 13 15 20 3.1 290 1750 78
200 4)
M3GM 355 LKB 641 0.6 2.5 0.11 15 14 20 3.9 340 1980 78
224 4)
M3GM 355 LKC 718 0.6 2.5 0.11 16 14 20 4.2 360 2070 78
250 4)
M3GM 355 LKD 801 0.6 2.5 0.11 18 13 20 4.6 390 2210 78
265 4)
M3GM 355 LKE 850 0.6 2.4 0.11 19 13 20 4.6 390 2210 78
280 4)
M3GM 400 LKA 897 0.4 2.5 0.09 20 19 25 5.6 430 2440 79
315 4)
M3GM 400 LKB 1009 0.5 2.5 0.09 22 17 25 6.0 440 2500 79
355 4)
M3GM 400 LKC 1137 0.5 2.5 0.09 24 16 25 7.6 500 2740 79
400 4)
M3GM 400 LKD 1281 0.5 2.5 0.10 27 15 20 10.0 570 3090 79
450 4)
M3GM 400 LKE 1441 0.6 2.4 0.10 30 14 20 10.8 600 3190 79
3000 r/min = 2 poles 6600 V 50 Hz
224 4)
M3GM 400 LKA 717 0.8 2.4 0.13 16 12 20 6.4 480 2530 79
250 4)
M3GM 400 LKB 801 0.8 2.4 0.12 18 11 20 6.4 480 2530 79
280 4)
M3GM 400 LKC 897 0.5 2.5 0.10 20 17 25 6.7 460 2510 79
315 4)
M3GM 400 LKD 1009 0.5 2.4 0.10 19 15 20 6.7 460 2510 79
355 4)
M3GM 400 LKE 1137 0.5 2.4 0.10 23 15 20 7.7 510 2740 79
400 4)
M3GM 400 LKF 1281 0.5 2.4 0.10 27 15 20 10.4 580 3090 79
1)
2)
3)
4)
5)

8
Output
kW
r/min
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
1500 r/min = 4 poles 3300 V 50 Hz
132 M3GM 315 LKA 3GGM 1486 94.4 94.4 0.85 0.83 29 5.2 10
140 M3GM 315 LKB 3GGM 1486 94.6 94.6 0.85 0.83 30 5.4 10
155 M3GM 315 LKC 3GGM 1485 94.7 94.8 0.85 0.83 33 5.3 11
180 M3GM 355 LKA 3GGM 1490 94.8 94.6 0.83 0.79 40 5.4 15
200 M3GM 355 LKB 3GGM 1490 95.1 94.9 0.84 0.81 44 5.3 15
224 M3GM 355 LKC 3GGM 1490 95.3 95.2 0.84 0.82 49 5.2 16
250 M3GM 355 LKD 3GGM 1490 95.5 95.4 0.84 0.82 54 5.4 18
280 M3GM 355 LKE 3GGM 1490 95.5 95.5 0.85 0.82 61 5.2 20
315 M3GM 355 LKF 3GGM 1490 95.7 95.7 0.85 0.83 68 5.3 22
335 M3GM 355 LKG 3GGM 1490 95.9 95.8 0.85 0.83 72 5.4 23
355 M3GM 400 LKA 3GGM 1489 95.8 95.8 0.85 0.83 76 5.0 23
400 M3GM 400 LKB 3GGM 1490 96.0 96.0 0.85 0.83 86 5.2 27
450 M3GM 400 LKC 3GGM 1490 96.2 96.2 0.86 0.84 95 5.3 28
500 M3GM 400 LKD 3GGM 1490 96.4 96.4 0.86 0.85 105 5.4 29
560 M3GM 450 LA 3GGM 1491 96.3 96.2 0.86 0.86 117 5.4 31
600 M3GM 450 LB 3GGM 1491 96.4 96.4 0.87 0.86 125 5.4 32
1500 r/min = 4 poles 6600 V 50 Hz
224 M3GM 355 LKA 3GGM 1487 95.2 95.2 0.84 0.82 24 5.3 8
250 M3GM 355 LKB 3GGM 1487 95.4 95.4 0.85 0.82 27 5.4 9
280 M3GM 400 LKA 3GGM 1491 95.2 95.0 0.84 0.81 31 5.4 11
315 M3GM 400 LKB 3GGM 1491 95.3 95.3 0.85 0.82 34 5.3 11
355 M3GM 400 LKC 3GGM 1490 95.8 95.8 0.86 0.85 37 5.3 10
400 M3GM 400 LKD 3GGM 1491 96.0 96.0 0.87 0.85 42 5.4 12
450 M3GM 400 LKE 3GGM 1490 96.1 96.2 0.87 0.86 47 5.3 13
500 M3GM 450 LA 3GGM 1491 96.1 96.0 0.86 0.85 53 5.4 14
560 M3GM 450 LB 3GGM 1491 96.3 96.2 0.86 0.85 59 5.4 16
class T3.

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia 1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP 3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
1500 r/min = 4 poles 3300 V 50 Hz
132 M3GM 315 LKA 848 0.8 2.4 0.15 49 11 20 1.9 220 1180 73
140 M3GM 315 LKB 900 0.8 2.5 0.15 52 11 20 2.0 230 1210 73
155 M3GM 315 LKC 997 0.8 2.4 0.15 57 11 20 2.1 240 1250 73
180 M3GM 355 LKA 1153 0.9 2.4 0.15 65 11 20 5.0 370 1750 74
200 M3GM 355 LKB 1282 0.9 2.3 0.15 71 11 20 5.5 400 1840 74
224 M3GM 355 LKC 1435 0.9 2.3 0.15 79 11 20 6.1 430 1940 74
250 M3GM 355 LKD 1602 1.0 2.3 0.15 87 10 20 6.7 460 2030 74
280 M3GM 355 LKE 1795 0.9 2.2 0.15 97 11 20 6.9 470 2060 74
315 M3GM 355 LKF 2019 1.0 2.3 0.15 107 10 20 7.8 520 2200 74
335 M3GM 355 LKG 2147 1.0 2.3 0.15 113 10 20 8.3 550 2300 74
355 M3GM 400 LKA 2277 0.7 2.2 0.11 119 13 20 9.6 560 2670 79
400 M3GM 400 LKB 2564 0.7 2.3 0.11 132 12 18 12.0 600 2790 79
450 M3GM 400 LKC 2884 0.7 2.3 0.11 147 12 18 14.4 660 3020 79
500 M3GM 400 LKD 3204 0.7 2.3 0.11 161 11 18 18.0 760 3350 79
560 M3GM 450 LA 3586 1.0 2.3 0.13 177 10 20 23.5 970 4280 83
600 M3GM 450 LB 3843 1.0 2.2 0.13 188 10 20 30.7 1070 4570 83
1500 r/min = 4 poles 6600 V 50 Hz
224 M3GM 355 LKA 1438 1.1 2.3 0.16 79 9 20 4.8 390 2050 74
250 M3GM 355 LKB 1606 1.1 2.3 0.16 87 9 20 5.5 420 2190 74
280 M3GM 400 LKA 1793 1.0 2.4 0.15 97 10 20 10.2 560 2560 79
315 M3GM 400 LKB 2018 0.7 2.3 0.12 107 14 20 9.6 560 2600 79
355 M3GM 400 LKC 2275 0.7 2.3 0.12 119 13 20 13.8 650 2900 79
400 M3GM 400 LKD 2562 0.7 2.3 0.11 132 12 20 16.2 710 3130 79
450 M3GM 400 LKE 2884 0.7 2.3 0.11 147 12 20 17.4 750 3240 79
500 M3GM 450 LA 3202 1.1 2.2 0.15 161 9 20 28.6 1030 4390 83
560 M3GM 450 LB 3586 1.1 2.2 0.15 177 9 20 30.7 1080 4550 83
1)
315LK: The given values of load inertia assume three starts from cold and
two starts from warm conditions in succession against quadratic load torque
with 90% of the rated torque at the rated speed and at 80% of the rated
voltage.
400LK, 450L: The given values of load inertia assume two starts from cold
and one start from warm conditions in succession against quadratic load
rated voltage.
2)
400LK, 450L: Starting time with given values of the load inertia from cold
condition in succession against quadratic load torque with 75% of the rated
torque at the rated speed and at rated voltage.
3)
4)

8
Output
kW
r/min
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
1000 r/min = 6 poles 3300 V 50 Hz
112 M3GM 315 LKA 3GGM 990 94.4 94.6 0.79 0.75 26 5.1 11
125 M3GM 315 LKB 3GGM 990 94.6 94.7 0.79 0.75 29 5.1 13
132 M3GM 315 LKC 3GGM 991 94.8 94.8 0.78 0.73 31 5.3 14
140 M3GM 355 LKA 3GGM 993 95.1 95.1 0.78 0.74 33 5.0 14
160 M3GM 355 LKB 3GGM 993 95.4 95.4 0.79 0.75 37 5.1 16
180 M3GM 355 LKC 3GGM 993 95.5 95.5 0.78 0.74 42 5.2 18
200 M3GM 355 LKD 3GGM 993 95.7 95.7 0.79 0.75 46 5.2 20
224 M3GM 355 LKE 3GGM 993 95.8 95.8 0.79 0.74 52 5.3 22
250 M3GM 355 LKF 3GGM 992 95.7 95.8 0.79 0.75 58 5.1 24
280 M3GM 355 LKG 3GGM 993 95.9 96.0 0.79 0.74 65 5.3 28
355 M3GM 400 LKA 3GGM 993 96.0 96.1 0.81 0.78 80 5.3 30
400 M3GM 400 LKB 3GGM 994 96.2 96.2 0.81 0.78 89 5.5 33
425 M3GM 400 LKC 3GGM 993 96.2 96.3 0.82 0.79 94 5.4 34
450 M3GM 450 LA 3GGM 993 96.2 96.4 0.84 0.83 97 5.3 29
500 M3GM 450 LB 3GGM 993 96.4 96.5 0.85 0.83 107 5.4 32
560 M3GM 450 LC 3GGM 993 96.5 96.6 0.85 0.84 119 5.4 34
1000 r/min = 6 poles 6600 V 50 Hz
150 M3GM 355 LKA 3GGM 991 94.9 94.9 0.77 0.72 18 5.2 8
160 M3GM 355 LKB 3GGM 990 95.0 95.0 0.78 0.73 19 5.2 9
180 M3GM 355 LKC 3GGM 990 95.1 95.2 0.78 0.74 21 5.0 9
200 M3GM 355 LKD 3GGM 990 95.3 95.3 0.77 0.72 24 5.2 11
280 M3GM 400 LKA 3GGM 993 95.6 95.5 0.78 0.74 33 5.1 14
315 M3GM 400 LKB 3GGM 993 95.8 95.7 0.79 0.75 37 5.2 15
355 M3GM 400 LKC 3GGM 993 96.0 95.9 0.79 0.75 41 5.4 17
375 M3GM 400 LKD 3GGM 993 96.1 96.0 0.80 0.76 43 5.4 17
400 M3GM 450 LA 3GGM 994 96.1 96.1 0.84 0.82 43 5.4 14
450 M3GM 450 LB 3GGM 994 96.2 96.3 0.84 0.83 48 5.3 15
500 M3GM 450 LC 3GGM 994 96.3 96.4 0.85 0.83 54 5.4 16
525 M3GM 450 LD 3GGM 993 96.3 96.5 0.85 0.84 56 5.5 16
class T3.

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia 1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP 3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
1000 r/min = 6 poles 3300 V 50 Hz
112 M3GM 315 LKA 1080 1.1 2.3 0.18 113 11 20 3.1 290 1230 65
125 M3GM 315 LKB 1206 1.1 2.2 0.18 125 11 20 3.3 300 1260 65
132 M3GM 315 LKC 1272 1.2 2.4 0.18 131 10 20 3.5 310 1300 65
140 M3GM 355 LKA 1347 0.8 2.2 0.14 139 14 20 5.0 370 1740 70
160 M3GM 355 LKB 1539 0.8 2.3 0.13 157 14 20 5.8 410 1870 70
180 M3GM 355 LKC 1731 0.9 2.3 0.13 175 13 20 6.1 430 1920 70
200 M3GM 355 LKD 1924 0.9 2.3 0.13 192 13 20 6.6 460 2010 70
224 M3GM 355 LKE 2154 0.9 2.3 0.13 213 12 20 7.2 490 2100 70
250 M3GM 355 LKF 2406 0.9 2.2 0.13 236 13 20 7.5 500 2130 70
280 M3GM 355 LKG 2694 0.9 2.3 0.13 261 12 20 8.3 550 2270 70
355 M3GM 400 LKA 3412 1.0 2.3 0.14 324 11 22 17.9 860 3100 78
400 M3GM 400 LKB 3843 1.1 2.4 0.14 360 11 22 21.1 980 3390 78
425 M3GM 400 LKC 4085 1.1 2.2 0.14 380 11 22 21.0 980 3380 78
450 M3GM 450 LA 4327 1.1 2.1 0.16 400 10 20 33.6 1050 4000 78
500 M3GM 450 LB 4807 1.2 2.2 0.16 439 10 20 36.6 1110 4150 78
560 M3GM 450 LC 5385 1.2 2.1 0.16 486 9 20 45.4 1290 4580 78
1000 r/min = 6 poles 6600 V 50 Hz
150 M3GM 355 LKA 1446 1.0 2.4 0.15 148 11 20 4.8 390 2040 70
160 M3GM 355 LKB 1543 1.0 2.4 0.15 157 11 20 5.0 410 2090 70
180 M3GM 355 LKC 1737 0.9 2.3 0.15 175 12 20 5.3 420 2140 70
200 M3GM 355 LKD 1929 1.0 2.4 0.15 192 11 20 5.7 440 2230 70
280 M3GM 400 LKA 2693 1.0 2.2 0.14 261 11 22 9.6 630 2740 78
315 M3GM 400 LKB 3030 1.1 2.2 0.14 291 11 22 10.9 680 2920 78
355 M3GM 400 LKC 3414 1.1 2.3 0.14 324 10 22 12.6 750 3150 78
375 M3GM 400 LKD 3606 1.1 2.2 0.14 340 10 22 14.3 830 3380 78
400 M3GM 450 LA 3844 1.2 2.2 0.17 360 10 20 30.8 1080 4030 78
450 M3GM 450 LB 4325 1.2 2.2 0.17 400 10 20 39.5 1170 4250 78
500 M3GM 450 LC 4806 1.2 2.2 0.17 439 10 20 43.9 1260 4480 78
525 M3GM 450 LD 5048 1.2 2.2 0.16 459 9 22 34.5 1260 4480 78
1)
315LK, 355LK: The given values of load inertia assume three starts from
cold and two starts from warm conditions in succession against quadratic
load torque with 90% of the rated torque at the rated speed and at 80% of the
rated voltage.
rated voltage.
2)
315LK, 355LK: Starting time with given values of the load inertia from cold
condition in succession against quadratic load torque with 80% of the
3)
The sound pressure levels are presented at no-load. Sound level values
of 6…8-pole motors at no-load are typically 1...3 dB(A) higher than the
corresponding values at no-load. The variation and measuring tolerance of
the ﬁgures is +3 dB(A).
4)

8
Output
kW
r/min
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
750 r/min = 8 poles 3300 V 50 Hz
160 M3GM 400 LKA 3GGM 744 94.6 94.6 0.76 0.71 39 5.0 19
180 M3GM 400 LKB 3GGM 744 94.8 94.9 0.77 0.73 43 4.9 19
200 M3GM 400 LKC 3GGM 744 95.0 95.1 0.78 0.73 47 5.0 21
224 M3GM 400 LKD 3GGM 744 95.2 95.2 0.78 0.74 53 5.2 23
250 M3GM 400 LKE 3GGM 745 95.4 95.4 0.78 0.73 59 5.4 26
280 M3GM 400 LKF 3GGM 745 95.6 95.6 0.78 0.74 65 5.4 29
315 M3GM 400 LKG 3GGM 744 95.6 95.6 0.78 0.74 74 5.4 33
355 M3GM 450 LA 3GGM 745 95.9 95.8 0.79 0.75 82 5.4 35
400 M3GM 450 LB 3GGM 745 96.0 95.9 0.79 0.74 92 5.4 40
450 M3GM 450 LC 3GGM 745 96.1 96.0 0.79 0.74 104 5.5 45
750 r/min = 8 poles 6600 V 50 Hz
160 M3GM 400 LKA 3GGM 744 94.5 94.4 0.75 0.70 20 5.0 10
180 M3GM 400 LKB 3GGM 744 94.7 94.7 0.76 0.71 22 4.9 10
200 M3GM 400 LKC 3GGM 744 95.0 94.9 0.76 0.71 24 5.1 12
224 M3GM 400 LKD 3GGM 744 95.1 95.0 0.76 0.70 27 5.3 13
250 M3GM 400 LKE 3GGM 744 95.2 95.1 0.76 0.71 30 5.3 15
280 M3GM 400 LKF 3GGM 744 95.3 95.2 0.75 0.69 34 5.4 17
315 M3GM 450 LA 3GGM 745 95.6 95.5 0.79 0.75 36 5.4 16
355 M3GM 450 LB 3GGM 745 95.8 95.7 0.79 0.75 41 5.3 17
400 M3GM 450 LC 3GGM 745 95.9 95.8 0.79 0.75 46 5.3 19
class T3.

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia 1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP 3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
750 r/min = 8 poles 3300 V 50 Hz
160 M3GM 400 LKA 2053 1.0 2.1 0.18 315 14 20 12.6 590 2400 75
180 M3GM 400 LKB 2310 1.0 2.0 0.18 352 14 20 14.4 640 2510 75
200 M3GM 400 LKC 2566 1.0 2.1 0.17 388 14 20 16.2 690 2630 75
224 M3GM 400 LKD 2873 1.1 2.2 0.18 430 12 20 20.7 800 2900 75
250 M3GM 400 LKE 3206 1.2 2.3 0.18 476 12 20 24.3 900 3130 75
280 M3GM 400 LKF 3591 1.2 2.2 0.17 528 11 20 26.1 950 3270 75
315 M3GM 400 LKG 4041 1.2 2.2 0.17 587 11 20 27.9 990 3370 75
355 M3GM 450 LA 4548 1.2 2.2 0.16 655 12 20 34.4 1180 4270 76
400 M3GM 450 LB 5125 1.2 2.3 0.16 730 11 20 42.4 1240 4420 76
450 M3GM 450 LC 5766 1.2 2.3 0.16 811 11 20 46.8 1330 4650 76
750 r/min = 8 poles 6600 V 50 Hz
160 M3GM 400 LKA 2054 1.0 2.3 0.17 315 13 20 10.8 590 2600 75
180 M3GM 400 LKB 2312 0.9 2.2 0.17 352 14 20 12.6 650 2770 75
200 M3GM 400 LKC 2568 1.0 2.3 0.16 388 13 20 14.4 710 2950 75
224 M3GM 400 LKD 2876 1.1 2.3 0.16 430 12 20 16.8 780 3180 75
250 M3GM 400 LKE 3210 1.1 2.3 0.16 476 12 20 18.0 820 3300 75
280 M3GM 400 LKF 3596 1.1 2.4 0.16 528 11 20 18.6 840 3360 75
315 M3GM 450 LA 4035 1.2 2.2 0.16 587 12 20 36.6 1120 4070 76
355 M3GM 450 LB 4548 1.2 2.2 0.16 655 12 20 34.4 1180 4230 76
400 M3GM 450 LC 5126 1.1 2.2 0.16 730 12 20 37.7 1270 4450 76
1)
voltage.
450L: The given values of load inertia assume two starts from cold and one
2)
450L: Starting time with given values of the load inertia from cold condition in
3)
The sound pressure levels are presented at no-load. Sound level values
of 6…8-pole motors at no-load are typically 1...3 dB(A) higher than the
4)

8
The bullet in the
product code indicates
choice of mounting
arrangement (see
ordering information
page).
When ordering variant code for protection type has to be added to the product code according to needs:
452 DIP/Ex tD acc. to ATEX directive 94/9/EC, T=125°C, cat. 3D, IP55
804 DIP/Ex tD, IEC 61241, T125°C, IP55 (zone 22)
HV Dust ignition proof motors Ex tD categories 2D and 3D
IP 55. IP 65 - IC 411 - Insulation class F. temperature rise class B. ambient temperature 40°C
Output
kW
r/min
Efﬁciency 4)
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
3000 r/min = 2 poles 3000 V 50 Hz
132 M3GM 315 LKA 3GGM 2971 94.2 94.2 0.92 0.92 29 6.2 5
155 M3GM 315 LKB 3GGM 2972 94.5 94.5 0.92 0.92 34 6.5 6
200 5)
M3GM 355 LKA 3GGM 2974 94.4 94.4 0.90 0.90 45 5.5 9
250 5)
M3GM 355 LKB 3GGM 2975 95.0 95.0 0.90 0.90 56 6.0 11
310 5)
M3GM 355 LKC 3GGM 2973 95.5 95.6 0.91 0.92 68 5.9 11
315 5)
M3GM 355 LKD 3GGM 2974 95.5 95.6 0.91 0.92 69 6.3 11
345 5)
M3GM 355 LKE 3GGM 2983 95.8 95.8 0.91 0.90 76 6.5 15
355 5)
M3GM 400 LA 3GGM 2980 95.6 95.6 0.90 0.90 79 6.2 16
400 5)
M3GM 400 LB 3GGM 2978 95.9 95.9 0.91 0.91 88 6.1 15
440 5)
M3GM 400 LC 3GGM 2979 96.0 96.1 0.91 0.92 96 6.5 16
500 5)
M3GM 400 LKA 3GGM 2983 96.3 96.4 0.91 0.91 109 6.1 19
555 5)
M3GM 400 LKB 3GGM 2983 96.5 96.6 0.91 0.92 121 6.1 19
3000 r/min = 2 poles 3300 V 50 Hz
160 M3GM 315 LKA 3GGM 2976 94.6 94.6 0.91 0.91 32 6.3 6
200 5)
M3GM 355 LKA 3GGM 2977 94.5 94.3 0.89 0.89 41 6.1 9
250 5)
M3GM 355 LKB 3GGM 2975 95.0 95.0 0.90 0.90 51 6.0 10
310 5)
M3GM 355 LKC 3GGM 2975 95.5 95.6 0.91 0.92 62 6.4 11
330 5)
M3GM 355 LKD 3GGM 2975 95.7 95.8 0.91 0.92 66 6.5 11
355 5)
M3GM 400 LA 3GGM 2979 95.7 95.7 0.90 0.90 72 6.2 14
400 5)
M3GM 400 LB 3GGM 2978 95.8 95.9 0.91 0.91 80 6.1 14
435 5)
M3GM 400 LC 3GGM 2977 96.0 96.1 0.91 0.92 86 6.3 14
500 5)
M3GM 400 LKA 3GGM 2982 96.3 96.4 0.91 0.92 99 5.9 16
555 5)
M3GM 400 LKB 3GGM 2983 96.5 96.6 0.91 0.92 110 6.1 17
3000 r/min = 2 poles 6000 V 50 Hz
250 5)
M3GM 355 LKA 3GGM 2975 94.9 95.0 0.91 0.92 28 6.1 5
280 5)
M3GM 355 LKB 3GGM 2982 95.3 95.3 0.91 0.90 31 6.2 6
300 5)
M3GM 355 LKC 3GGM 2982 95.5 95.5 0.91 0.91 33 6.2 6
315 5)
M3GM 400 LA 3GGM 2981 95.2 95.1 0.89 0.88 35 6.4 8
355 5)
M3GM 400 LB 3GGM 2979 95.6 95.6 0.91 0.91 39 6.3 7
390 5)
M3GM 400 LC 3GGM 2978 95.7 95.8 0.91 0.91 43 6.3 8
410 5)
M3GM 400 LD 3GGM 2979 95.9 96.0 0.92 0.92 45 6.6 8
450 5)
M3GM 400 LKA 3GGM 2983 96.0 96.1 0.91 0.91 49 6.0 9
500 5)
M3GM 400 LKB 3GGM 2984 96.2 96.3 0.91 0.91 55 6.4 10
530 5)
M3GM 400 LKC 3GGM 2984 96.3 96.4 0.92 0.92 58 6.4 10
3000 r/min = 2 poles 6600 V 50 Hz
280 5)
M3GM 355 LKA 3GGM 2982 95.2 95.3 0.91 0.91 28 6.1 5
315 5)
M3GM 400 LA 3GGM 2980 95.3 95.2 0.90 0.89 32 6.4 7
355 5)
M3GM 400 LB 3GGM 2980 95.5 95.5 0.91 0.91 36 6.3 7
395 5)
M3GM 400 LC 3GGM 2979 95.8 95.8 0.91 0.91 39 6.5 7
415 5)
M3GM 400 LD 3GGM 2979 95.9 96.0 0.91 0.92 41 6.6 7
450 5)
M3GM 400 LKA 3GGM 2983 96.0 96.1 0.91 0.91 45 6.0 8
500 5)
M3GM 400 LKB 3GGM 2984 96.2 96.3 0.91 0.91 50 6.5 9
530 5)
M3GM 400 LKC 3GGM 2984 96.3 96.4 0.92 0.92 52 6.4 9

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia
1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP
3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
3000 r/min = 2 poles 3000 V 50 Hz
132 M3GM 315 LKA 424 1.2 2.6 0.17 10 8 16 2.0 230 1230 78
155 M3GM 315 LKB 498 1.3 2.8 0.17 12 7 16 2.1 240 1260 78
200 5)
M3GM 355 LKA 642 0.8 2.4 0.13 15 11 22 2.9 280 1680 78
250 5)
M3GM 355 LKB 803 0.9 2.6 0.13 18 9 16 3.2 300 1780 78
310 5)
M3GM 355 LKC 996 1.0 2.5 0.13 22 8 16 4.5 390 2150 78
315 5)
M3GM 355 LKD 1011 1.1 2.6 0.14 22 7 14 4.2 420 2240 78
345 5)
M3GM 355 LKE 1104 1.0 2.7 0.13 24 8 14 4.1 400 2220 78
355 5)
M3GM 400 LA 1138 0.9 2.6 0.13 24 9 20 6.9 460 2410 79
400 5)
M3GM 400 LB 1283 1.0 2.5 0.14 27 9 20 8.0 520 2660 79
440 5)
M3GM 400 LC 1411 1.1 2.6 0.14 29 7 16 7.8 580 2900 79
500 5)
M3GM 400 LKA 1601 0.8 2.6 0.11 32 9 16 8.8 560 2980 79
555 5)
M3GM 400 LKB 1777 0.8 2.6 0.11 35 9 14 8.4 620 3220 79
3000 r/min = 2 poles 3300 V 50 Hz
160 M3GM 315 LKA 513 0.9 2.8 0.14 12 8 16 1.9 210 1180 78
200 5)
M3GM 355 LKA 641 0.8 2.7 0.13 15 10 20 2.9 280 1670 78
250 5)
M3GM 355 LKB 803 0.9 2.6 0.13 18 9 16 3.2 300 1770 78
310 5)
M3GM 355 LKC 995 1.1 2.7 0.14 22 7 15 4.5 390 2140 78
330 5)
M3GM 355 LKD 1059 1.1 2.7 0.13 23 7 13 4.2 420 2250 78
355 5)
M3GM 400 LA 1138 0.9 2.6 0.13 24 9 20 6.9 460 2430 79
400 5)
M3GM 400 LB 1283 1.0 2.5 0.13 27 9 20 8.0 520 2650 79
435 5)
M3GM 400 LC 1395 1.1 2.5 0.14 29 8 16 7.8 580 2900 79
500 5)
M3GM 400 LKA 1601 0.8 2.5 0.11 32 10 16 9.4 590 3090 79
555 5)
M3GM 400 LKB 1777 0.8 2.6 0.11 35 9 14 8.4 620 3210 79
3000 r/min = 2 poles 6000 V 50 Hz
250 5)
M3GM 355 LKA 803 1.0 2.5 0.14 18 9 16 4.2 370 2010 78
280 5)
M3GM 355 LKB 897 0.9 2.6 0.13 20 9 18 4.1 350 2000 78
300 5)
M3GM 355 LKC 961 0.9 2.6 0.13 21 9 18 4.4 370 2090 78
315 5)
M3GM 400 LA 1009 0.9 2.7 0.14 22 9 20 6.4 430 2260 79
355 5)
M3GM 400 LB 1138 1.0 2.6 0.14 24 9 20 7.5 490 2510 79
390 5)
M3GM 400 LC 1250 1.0 2.6 0.14 26 8 17 6.7 520 2630 79
410 5)
M3GM 400 LD 1314 1.1 2.6 0.14 28 8 17 7.5 570 2810 79
450 5)
M3GM 400 LKA 1441 0.8 2.6 0.12 30 10 16 8.3 530 2820 79
500 5)
M3GM 400 LKB 1600 0.8 2.7 0.12 32 9 16 9.4 590 3050 79
530 5)
M3GM 400 LKC 1696 0.9 2.7 0.12 34 9 16 9.9 620 3170 79
3000 r/min = 2 poles 6600 V 50 Hz
280 5)
M3GM 355 LKA 897 0.9 2.6 0.14 19 10 16 4.4 370 2080 78
315 5)
M3GM 400 LA 1009 1.0 2.7 0.14 22 9 20 6.4 430 2270 79
355 5)
M3GM 400 LB 1138 1.0 2.6 0.14 24 9 20 7.5 490 2500 79
395 5)
M3GM 400 LC 1266 1.1 2.6 0.14 27 8 16 6.7 520 2630 79
415 5)
M3GM 400 LD 1330 1.2 2.6 0.15 28 8 17 7.5 570 2810 79
450 5)
M3GM 400 LKA 1441 0.8 2.6 0.12 30 10 16 8.6 550 2880 79
500 5)
M3GM 400 LKB 1600 0.9 2.7 0.12 32 9 16 9.4 590 3050 79
530 5)
M3GM 400 LKC 1696 0.9 2.7 0.12 34 9 16 9.9 620 3170 79
1)
315LK, 355LK, 400L: The given values of load inertia assume two starts from
cold and one start from warm conditions in succession against quadratic load
rated voltage.
2)
315LK, 355LK, 400L: Starting time with given values of the load inertia from
cold condition in succession against quadratic load torque with 90% of the
3)
4)
5)

8
The bullet in the
choice of mounting
arrangement (see
page).
Output
kW
r/min
Efﬁciency 4)
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
1500 r/min = 4 poles 3000 V 50 Hz
110 M3GM 315 LKA 3GGM 1488 94.3 94.1 0.84 0.80 27 6.2 10
132 M3GM 315 LKB 3GGM 1484 94.3 94.4 0.85 0.83 32 5.3 10
160 M3GM 315 LKC 3GGM 1485 94.6 94.6 0.87 0.85 37 6.2 11
200 M3GM 315 LKD 3GGM 1485 94.8 94.9 0.87 0.85 46 6.0 14
250 M3GM 355 LKA 3GGM 1490 95.3 95.2 0.84 0.80 60 6.2 22
315 M3GM 355 LKB 3GGM 1489 95.5 95.5 0.84 0.82 75 6.0 25
355 M3GM 355 LKC 3GGM 1488 95.7 95.8 0.85 0.82 84 6.0 27
400 M3GM 355 LKD 3GGM 1489 96.0 96.0 0.86 0.84 93 5.8 29
450 M3GM 400 LA 3GGM 1490 96.4 96.5 0.86 0.84 105 6.4 32
490 M3GM 400 LB 3GGM 1489 96.1 96.1 0.85 0.83 115 6.4 35
560 M3GM 400 LKA 3GGM 1491 96.4 96.4 0.85 0.83 131 6.0 43
600 M3GM 400 LKB 3GGM 1491 96.5 96.4 0.85 0.82 140 6.4 48
710 M3GM 450 LA 3GGM 1493 96.6 96.6 0.88 0.86 161 6.4 44
735 M3GM 450 LB 3GGM 1492 96.6 96.6 0.88 0.86 166 6.2 44
1500 r/min = 4 poles 3300 V 50 Hz
132 M3GM 315 LKA 3GGM 1488 94.5 94.3 0.82 0.77 30 6.2 13
160 M3GM 315 LKB 3GGM 1484 94.7 94.8 0.84 0.82 35 5.5 12
200 M3GM 315 LKC 3GGM 1485 94.8 94.9 0.87 0.85 42 6.1 13
250 M3GM 355 LKA 3GGM 1489 95.3 95.2 0.84 0.81 55 6.0 19
315 M3GM 355 LKB 3GGM 1490 95.4 95.4 0.83 0.80 69 6.4 26
355 M3GM 355 LKC 3GGM 1489 95.7 95.7 0.84 0.81 77 6.4 27
400 M3GM 355 LKD 3GGM 1490 95.9 95.9 0.86 0.83 85 6.0 28
440 M3GM 400 LA 3GGM 1489 96.4 96.4 0.85 0.84 93 6.2 28
495 M3GM 400 LB 3GGM 1490 96.1 96.1 0.85 0.83 106 6.5 34
560 M3GM 400 LKA 3GGM 1491 96.4 96.4 0.85 0.83 119 6.0 39
600 M3GM 400 LKB 3GGM 1491 96.5 96.4 0.85 0.83 127 6.3 43
630 M3GM 450 LA 3GGM 1493 96.5 96.4 0.88 0.86 130 6.3 36
710 M3GM 450 LB 3GGM 1492 96.6 96.6 0.88 0.86 146 6.3 39
1500 r/min = 4 poles 6000 V 50 Hz
250 M3GM 355 LKA 3GGM 1486 95.2 95.3 0.84 0.81 30 5.8 10
315 M3GM 355 LKB 3GGM 1489 95.7 95.7 0.83 0.79 38 6.4 15
355 M3GM 400 LA 3GGM 1489 95.9 96.0 0.85 0.84 42 6.2 13
400 M3GM 400 LB 3GGM 1489 96.1 96.2 0.86 0.84 47 6.4 14
450 M3GM 400 LC 3GGM 1489 95.9 96.0 0.86 0.85 52 6.3 15
500 M3GM 400 LKA 3GGM 1491 96.2 96.2 0.85 0.83 58 5.9 19
560 M3GM 400 LKB 3GGM 1491 96.3 96.3 0.86 0.84 65 5.9 20
600 M3GM 400 LKC 3GGM 1492 96.4 96.4 0.85 0.82 70 6.4 24
630 M3GM 450 LA 3GGM 1493 96.4 96.4 0.87 0.85 72 6.5 21
710 M3GM 450 LB 3GGM 1493 96.6 96.5 0.88 0.86 80 6.4 22
1500 r/min = 4 poles 6600 V 50 Hz
250 M3GM 355 LKA 3GGM 1488 95.3 95.3 0.83 0.80 28 6.2 11
315 M3GM 355 LKB 3GGM 1487 95.6 95.7 0.84 0.81 34 6.3 12
355 M3GM 400 LA 3GGM 1489 95.9 96.0 0.86 0.84 38 6.1 11
400 M3GM 400 LB 3GGM 1489 96.0 96.1 0.86 0.84 42 6.3 13
450 M3GM 400 LC 3GGM 1489 96.0 95.9 0.86 0.84 48 6.5 14
500 M3GM 400 LKA 3GGM 1491 96.2 96.1 0.85 0.83 53 6.0 18
560 M3GM 400 LKB 3GGM 1491 96.3 96.3 0.86 0.84 59 5.9 18
600 M3GM 400 LKC 3GGM 1491 96.4 96.4 0.85 0.83 64 6.3 21
630 M3GM 450 LA 3GGM 1493 96.4 96.3 0.87 0.85 65 6.5 19
710 M3GM 450 LB 3GGM 1492 96.6 96.5 0.88 0.86 73 6.3 20

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia
1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP
3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
1500 r/min = 4 poles 3000 V 50 Hz
110 M3GM 315 LKA 706 1.6 2.6 0.21 41 7 20 1.9 220 1180 73
132 M3GM 315 LKB 849 1.3 2.1 0.21 49 9 20 1.9 220 1180 73
160 M3GM 315 LKC 1029 1.6 2.4 0.21 58 7 16 2.8 260 1180 73
200 M3GM 315 LKD 1286 1.0 2.7 0.15 71 8 15 2.9 270 1210 73
250 M3GM 355 LKA 1603 1.3 2.5 0.17 87 8 18 5.5 400 1850 74
315 M3GM 355 LKB 2021 1.3 2.4 0.17 107 8 16 6.3 450 1980 74
355 M3GM 355 LKC 2278 1.4 2.3 0.17 119 8 14 6.8 480 2080 74
400 M3GM 355 LKD 2565 0.9 2.4 0.13 132 9 16 8.1 540 2260 74
450 M3GM 400 LA 2885 1.5 2.3 0.16 147 7 12 12.1 660 2870 74
490 M3GM 400 LB 3141 1.5 2.3 0.16 158 7 12 12.1 660 2860 79
560 M3GM 400 LKA 3587 1.0 2.5 0.12 177 9 14 13.7 730 3200 79
600 M3GM 400 LKB 3842 1.1 2.7 0.12 188 8 12 14.9 790 3380 79
710 M3GM 450 LA 4542 0.8 2.6 0.10 217 10 20 25.6 1050 4570 83
735 M3GM 450 LB 4704 0.8 2.5 0.10 224 11 22 22.9 1060 4580 83
1500 r/min = 4 poles 3300 V 50 Hz
132 M3GM 315 LKA 847 1.7 2.6 0.21 49 7 20 1.9 220 1180 73
160 M3GM 315 LKB 1029 1.4 2.2 0.21 58 8 20 2.1 240 1250 73
200 M3GM 315 LKC 1286 1.0 2.7 0.15 71 8 15 2.9 270 1210 73
250 M3GM 355 LKA 1603 1.3 2.4 0.17 87 8 20 5.5 400 1850 74
315 M3GM 355 LKB 2019 1.4 2.5 0.17 107 7 16 6.3 450 1970 74
355 M3GM 355 LKC 2277 1.4 2.5 0.17 119 7 14 6.8 480 2070 74
400 M3GM 355 LKD 2564 1.0 2.5 0.13 132 9 16 8.1 540 2250 74
440 M3GM 400 LA 2822 1.4 2.3 0.16 144 7 12 11.3 620 2770 74
495 M3GM 400 LB 3173 1.5 2.4 0.16 159 7 11 12.1 660 2860 79
560 M3GM 400 LKA 3587 1.0 2.5 0.12 177 9 14 13.7 730 3200 79
600 M3GM 400 LKB 3842 1.0 2.6 0.12 188 8 12 14.9 790 3370 79
630 M3GM 450 LA 4031 0.8 2.5 0.10 196 11 20 23.5 980 4340 83
710 M3GM 450 LB 4543 0.8 2.5 0.10 217 11 20 25.6 1050 4570 83
1500 r/min = 4 poles 6000 V 50 Hz
250 M3GM 355 LKA 1606 1.2 2.3 0.17 87 8 20 4.1 380 2010 74
315 M3GM 355 LKB 2021 1.1 2.7 0.14 107 8 20 4.8 420 2200 74
355 M3GM 400 LA 2277 1.4 2.3 0.17 119 7 17 10.8 600 2600 74
400 M3GM 400 LB 2565 1.5 2.4 0.17 132 7 14 11.6 640 2730 74
450 M3GM 400 LC 2887 1.5 2.3 0.17 147 7 12 12.4 670 2840 79
500 M3GM 400 LKA 3203 1.0 2.5 0.13 161 9 16 12.9 700 3050 79
560 M3GM 400 LKB 3588 1.0 2.5 0.13 177 9 14 14.1 750 3220 79
600 M3GM 400 LKC 3841 1.1 2.7 0.12 188 8 12 14.9 790 3340 79
630 M3GM 450 LA 4030 0.8 2.6 0.10 196 10 20 22.8 960 4240 83
710 M3GM 450 LB 4543 0.8 2.6 0.10 217 10 20 25.6 1050 4540 83
1500 r/min = 4 poles 6600 V 50 Hz
250 M3GM 355 LKA 1605 1.4 2.5 0.17 87 7 20 4.1 380 2010 74
315 M3GM 355 LKB 2023 1.4 2.5 0.17 107 7 20 5.0 440 2280 74
355 M3GM 400 LA 2277 1.4 2.3 0.17 119 7 17 10.8 600 2600 74
400 M3GM 400 LB 2566 1.5 2.3 0.17 132 7 14 11.6 640 2710 74
450 M3GM 400 LC 2886 1.6 2.4 0.17 147 6 12 12.4 670 2840 79
500 M3GM 400 LKA 3202 1.0 2.6 0.13 161 9 15 12.9 700 3040 79
560 M3GM 400 LKB 3588 1.0 2.5 0.13 177 9 14 14.1 750 3220 79
600 M3GM 400 LKC 3842 1.0 2.6 0.13 188 8 12 14.9 790 3330 79
630 M3GM 450 LA 4030 0.8 2.6 0.10 196 10 20 22.8 960 4230 83
710 M3GM 450 LB 4543 0.8 2.4 0.10 217 11 20 25.6 1050 4530 83
1)
2)
3)
4)

8
The bullet in the
choice of mounting
arrangement (see
page).
Output
kW
r/min
Efﬁciency 4)
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
1000 r/min = 6 poles 3000 V 50 Hz
110 M3GM 315 LKA 3GGM 987 93.9 94.3 0.80 0.77 28 5.3 11
132 M3GM 315 LKB 3GGM 986 94.3 94.6 0.80 0.77 33 5.4 13
150 M3GM 315 LKC 3GGM 991 94.8 94.8 0.76 0.69 40 6.2 21
160 M3GM 355 LKA 3GGM 992 94.9 94.9 0.75 0.70 43 5.5 21
200 M3GM 355 LKB 3GGM 990 95.3 95.4 0.79 0.75 51 5.3 21
250 M3GM 355 LKC 3GGM 991 95.6 95.7 0.79 0.75 64 5.5 27
315 M3GM 400 L 3GGM 991 95.7 95.9 0.82 0.79 77 6.0 28
355 M3GM 400 LA 3GGM 991 95.9 96.1 0.82 0.80 86 5.9 30
400 M3GM 400 LB 3GGM 991 96.1 96.3 0.82 0.80 97 6.2 34
450 M3GM 400 LKA 3GGM 994 96.2 96.2 0.79 0.75 113 6.0 48
500 M3GM 400 LKB 3GGM 994 96.3 96.4 0.81 0.77 123 5.8 48
520 M3GM 400 LKC 3GGM 995 96.4 96.3 0.78 0.73 133 6.6 62
560 M3GM 450 LA 3GGM 994 96.4 96.5 0.84 0.81 133 5.9 46
630 M3GM 450 LB 3GGM 994 96.6 96.6 0.84 0.81 149 6.3 52
695 M3GM 450 LC 3GGM 995 96.7 96.7 0.84 0.81 164 6.6 60
1000 r/min = 6 poles 3300 V 50 Hz
112 M3GM 315 LKA 3GGM 991 94.4 94.5 0.79 0.74 26 5.7 12
132 M3GM 315 LKB 3GGM 987 94.3 94.6 0.80 0.76 31 5.6 13
150 M3GM 315 LKC 3GGM 991 94.8 94.8 0.76 0.69 36 6.2 19
160 M3GM 355 LKA 3GGM 992 94.9 94.8 0.75 0.69 39 5.7 20
200 M3GM 355 LKB 3GGM 990 95.3 95.4 0.79 0.75 46 5.3 19
250 M3GM 355 LKC 3GGM 990 95.5 95.7 0.80 0.76 57 5.3 23
310 M3GM 400 L 3GGM 990 95.7 95.9 0.82 0.79 69 5.8 24
345 M3GM 400 LA 3GGM 991 95.9 96.0 0.82 0.79 77 6.2 27
390 M3GM 400 LB 3GGM 991 96.0 96.2 0.82 0.80 86 6.2 30
450 M3GM 400 LKA 3GGM 994 96.2 96.3 0.80 0.76 102 5.9 41
490 M3GM 400 LKB 3GGM 994 96.3 96.3 0.81 0.77 110 5.9 44
530 M3GM 400 LKC 3GGM 994 96.4 96.4 0.79 0.74 122 6.4 54
560 M3GM 450 LA 3GGM 994 96.4 96.5 0.84 0.82 120 6.0 41
630 M3GM 450 LB 3GGM 995 96.6 96.6 0.84 0.81 135 6.4 48
695 M3GM 450 LC 3GGM 995 96.7 96.7 0.84 0.81 150 6.6 54
1000 r/min = 6 poles 6000 V 50 Hz
220 M3GM 355 LKA 3GGM 992 95.2 95.3 0.80 0.76 28 6.3 12
250 M3GM 355 LKB 3GGM 992 95.3 95.5 0.81 0.78 31 5.7 12
280 M3GM 400 L 3GGM 991 95.7 95.8 0.80 0.76 35 5.6 14
315 M3GM 400 LA 3GGM 992 95.9 95.9 0.80 0.76 40 5.8 16
350 M3GM 400 LB 3GGM 991 96.0 96.1 0.80 0.77 44 5.7 17
400 M3GM 400 LKA 3GGM 993 96.1 96.1 0.81 0.77 50 5.5 19
450 M3GM 400 LKC 3GGM 993 96.3 96.2 0.80 0.76 56 6.0 23
500 M3GM 450 LA 3GGM 995 96.3 96.3 0.83 0.80 60 6.3 22
560 M3GM 450 LB 3GGM 995 96.4 96.5 0.84 0.81 66 6.3 23
630 M3GM 450 LC 3GGM 994 96.5 96.6 0.84 0.81 75 6.3 26
650 M3GM 450 LD 3GGM 994 96.6 96.6 0.85 0.82 76 6.4 26
1000 r/min = 6 poles 6600 V 50 Hz
250 M3GM 355 LKA 3GGM 994 95.5 95.5 0.79 0.74 29 6.5 13
280 M3GM 400 L 3GGM 991 95.6 95.7 0.79 0.75 32 5.6 13
315 M3GM 400 LA 3GGM 992 95.9 95.9 0.79 0.75 36 6.1 16
355 M3GM 400 LB 3GGM 991 96.0 96.0 0.80 0.76 40 5.8 16
400 M3GM 400 LKA 3GGM 993 96.1 96.1 0.80 0.77 45 5.7 18
450 M3GM 400 LKC 3GGM 993 96.2 96.2 0.80 0.76 51 6.0 21
500 M3GM 450 LA 3GGM 994 96.3 96.3 0.84 0.82 54 6.0 18
560 M3GM 450 LB 3GGM 994 96.4 96.5 0.85 0.82 60 6.1 20
630 M3GM 450 LC 3GGM 994 96.5 96.6 0.85 0.83 67 6.1 22

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia
1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP
3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
1000 r/min = 6 poles 3000 V 50 Hz
110 M3GM 315 LKA 1065 1.5 2.2 0.23 111 9 20 2.8 270 1170 65
132 M3GM 315 LKB 1278 1.6 2.3 0.22 131 8 20 3.2 290 1240 65
150 M3GM 315 LKC 1445 1.4 2.9 0.17 148 8 16 3.3 300 1270 65
160 M3GM 355 LKA 1541 1.4 2.4 0.19 157 9 20 4.6 350 1660 70
200 M3GM 355 LKB 1928 1.4 2.2 0.19 192 9 20 5.7 410 1850 70
250 M3GM 355 LKC 2410 1.5 2.2 0.19 236 8 20 6.9 480 2030 70
315 M3GM 400 L 3036 1.6 2.2 0.18 291 8 18 14.6 670 2500 75
355 M3GM 400 LA 3422 1.6 2.2 0.18 324 8 18 17.4 770 2730 75
400 M3GM 400 LB 3854 1.7 2.3 0.18 360 7 18 20.1 870 2970 75
450 M3GM 400 LKA 4323 1.2 2.5 0.14 400 9 22 17.9 870 3090 78
500 M3GM 400 LKB 4806 1.2 2.4 0.13 439 9 22 20.5 960 3330 78
520 M3GM 400 LKC 4993 1.4 2.7 0.13 455 7 21 21.1 980 3380 78
560 M3GM 450 LA 5379 1.1 2.5 0.14 486 10 20 29.2 1040 3990 78
630 M3GM 450 LB 6049 1.2 2.6 0.14 539 9 20 34.5 1190 4360 78
695 M3GM 450 LC 6673 1.3 2.6 0.14 587 8 22 34.0 1250 4510 78
1000 r/min = 6 poles 3300 V 50 Hz
112 M3GM 315 LKA 1080 1.2 2.6 0.18 113 9 20 3.0 280 1200 65
132 M3GM 315 LKB 1277 1.6 2.3 0.22 131 8 20 3.2 290 1240 65
150 M3GM 315 LKC 1445 1.4 2.9 0.17 148 8 16 3.3 300 1270 65
160 M3GM 355 LKA 1540 1.5 2.4 0.19 157 8 20 4.6 350 1660 70
200 M3GM 355 LKB 1928 1.4 2.2 0.19 192 9 20 5.7 410 1850 70
250 M3GM 355 LKC 2412 1.4 2.1 0.19 236 9 20 6.9 480 2030 70
310 M3GM 400 L 2989 1.5 2.2 0.18 286 8 22 13.3 680 2500 75
345 M3GM 400 LA 3324 1.7 2.3 0.18 315 7 22 16.0 780 2730 75
390 M3GM 400 LB 3758 1.7 2.3 0.18 352 7 18 20.1 870 2960 75
450 M3GM 400 LKA 4324 1.2 2.4 0.14 400 9 22 18.5 890 3160 78
490 M3GM 400 LKB 4709 1.2 2.4 0.14 432 9 22 20.5 960 3310 78
530 M3GM 400 LKC 5090 1.3 2.7 0.13 463 8 20 21.1 980 3390 78
560 M3GM 450 LA 5379 1.1 2.5 0.14 486 10 20 30.3 1070 4060 78
630 M3GM 450 LB 6049 1.2 2.6 0.14 539 9 20 34.5 1190 4360 78
695 M3GM 450 LC 6673 1.3 2.6 0.14 857 8 22 34.0 1250 4510 78
1000 r/min = 6 poles 6000 V 50 Hz
220 M3GM 355 LKA 2118 1.7 2.5 0.21 210 7 16 8.1 540 2170 70
250 M3GM 355 LKB 2406 1.0 2.4 0.16 203 9 14 8.0 530 2150 70
280 M3GM 400 L 2697 1.3 2.2 0.16 261 9 20 10.5 590 2530 75
315 M3GM 400 LA 3033 1.4 2.3 0.16 291 8 20 11.8 640 2710 75
350 M3GM 400 LB 3372 1.4 2.2 0.16 319 8 20 12.7 680 2830 75
400 M3GM 400 LKA 3848 0.9 2.4 0.11 360 11 22 11.9 730 3090 78
450 M3GM 400 LKC 4326 1.0 2.6 0.11 400 10 22 14.0 820 3380 78
500 M3GM 450 LA 4801 1.2 2.6 0.14 439 9 20 28.2 1010 3880 78
560 M3GM 450 LB 5377 1.2 2.6 0.14 486 9 20 32.4 1130 4180 78
630 M3GM 450 LC 6050 1.4 2.5 0.16 539 7 20 37.2 1260 4480 78
650 M3GM 450 LD 6242 1.2 2.6 0.14 554 9 20 36.7 1250 4480 78
1000 r/min = 6 poles 6600 V 50 Hz
250 M3GM 355 LKA 2403 1.3 2.8 0.16 236 8 13 8.3 540 2200 70
280 M3GM 400 L 2697 1.3 2.2 0.17 261 9 20 10.1 570 2470 75
315 M3GM 400 LA 3031 1.5 2.4 0.16 291 8 20 11.8 640 2710 75
355 M3GM 400 LB 3419 1.4 2.3 0.16 324 8 20 12.7 680 2830 75
400 M3GM 400 LKA 3847 0.9 2.4 0.11 360 11 22 11.9 730 3090 78
450 M3GM 400 LKC 4326 1.0 2.6 0.11 400 10 22 14.0 820 3380 78
500 M3GM 450 LA 4802 1.1 2.5 0.14 439 10 20 29.2 1040 3950 78
560 M3GM 450 LB 5379 1.1 2.5 0.14 486 9 20 32.4 1130 4170 78
630 M3GM 450 LC 6051 1.2 2.5 0.14 539 9 20 36.7 1250 4470 78
1)
2)
3)
6…8-pole motors at no-load are typically 1...3 dB(A) higher than the
4)

8
The bullet in the
choice of mounting
arrangement (see
page).
Output
kW
r/min
Efﬁciency 4)
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
750 r/min = 8 poles 3000 V 50 Hz
200 M3GM 400 LA 3GGM 742 94.6 94.8 0.79 0.76 51 5.2 21
220 M3GM 400 LB 3GGM 742 94.8 95.0 0.79 0.75 56 5.5 24
250 M3GM 400 LC 3GGM 742 95.0 95.2 0.80 0.77 63 5.4 25
270 M3GM 400 LD 3GGM 741 95.0 95.3 0.80 0.77 68 5.4 26
290 M3GM 400 LE 3GGM 741 95.2 95.4 0.80 0.77 73 5.5 29
315 M3GM 400 LKA 3GGM 744 95.4 95.5 0.78 0.73 82 5.2 37
355 M3GM 400 LKB 3GGM 744 95.6 95.7 0.78 0.74 91 5.1 39
370 M3GM 400 LKC 3GGM 745 95.7 95.6 0.76 0.71 97 5.6 47
400 M3GM 450 LA 3GGM 746 96.0 95.8 0.78 0.74 102 5.8 46
450 M3GM 450 LB 3GGM 746 96.1 95.9 0.78 0.73 115 6.0 53
500 M3GM 450 LC 3GGM 746 96.2 96.1 0.78 0.74 127 6.0 58
530 M3GM 450 LD 3GGM 746 96.2 96.0 0.78 0.73 135 6.1 61
750 r/min = 8 poles 3300 V 50 Hz
200 M3GM 400 LA 3GGM 742 94.6 94.8 0.79 0.76 46 5.1 18
220 M3GM 400 LB 3GGM 742 94.8 95.0 0.80 0.76 51 5.2 20
250 M3GM 400 LC 3GGM 741 94.9 95.2 0.80 0.78 57 5.0 21
280 M3GM 400 LD 3GGM 741 95.1 95.4 0.80 0.77 64 5.4 25
290 M3GM 400 LE 3GGM 742 95.1 95.3 0.80 0.76 67 5.7 27
315 M3GM 400 LKA 3GGM 744 95.5 95.6 0.77 0.72 74 5.3 34
345 M3GM 400 LKB 3GGM 744 95.5 95.6 0.78 0.74 81 5.2 36
375 M3GM 400 LKC 3GGM 744 95.7 95.7 0.77 0.72 89 5.5 42
400 M3GM 450 LA 3GGM 745 96.0 95.8 0.78 0.74 93 5.8 42
450 M3GM 450 LB 3GGM 745 96.1 95.9 0.78 0.73 104 5.9 47
500 M3GM 450 LC 3GGM 745 96.2 96.1 0.79 0.75 114 5.8 49
530 M3GM 450 LD 3GGM 745 96.1 96.1 0.80 0.75 121 5.8 52
750 r/min = 8 poles 6000 V 50 Hz
160 M3GM 400 LA 3GGM 741 94.1 94.2 0.76 0.71 21 5.2 10
180 M3GM 400 LB 3GGM 740 94.2 94.4 0.77 0.72 24 5.0 11
200 M3GM 400 LC 3GGM 740 94.5 94.6 0.77 0.73 26 5.1 12
220 M3GM 400 LD 3GGM 740 94.6 94.7 0.78 0.74 29 4.9 12
250 M3GM 400 LE 3GGM 740 94.8 94.9 0.77 0.72 33 5.3 15
280 M3GM 400 LKA 3GGM 743 95.3 95.3 0.77 0.72 37 5.3 17
315 M3GM 400 LKB 3GGM 743 95.4 95.4 0.76 0.71 42 5.4 20
355 M3GM 450 LA 3GGM 746 95.7 95.6 0.78 0.74 45 5.8 20
400 M3GM 450 LB 3GGM 746 95.8 95.7 0.78 0.74 51 5.8 23
450 M3GM 450 LC 3GGM 745 95.9 95.9 0.80 0.76 56 5.6 24
500 M3GM 450 LD 3GGM 745 96.1 96.0 0.80 0.76 62 5.7 26
750 r/min = 8 poles 6600 V 50 Hz
160 M3GM 400 LA 3GGM 741 94.2 94.2 0.76 0.71 20 5.3 9
180 M3GM 400 LB 3GGM 741 94.3 94.3 0.76 0.70 22 5.3 11
200 M3GM 400 LC 3GGM 739 94.3 94.6 0.78 0.74 24 4.8 10
220 M3GM 400 LD 3GGM 740 94.6 94.7 0.77 0.72 26 5.2 12
250 M3GM 400 LE 3GGM 741 94.8 94.8 0.76 0.71 30 5.4 14
280 M3GM 400 LKA 3GGM 743 95.3 95.3 0.76 0.71 34 5.4 16
315 M3GM 400 LKB 3GGM 743 95.4 95.4 0.76 0.71 38 5.4 18
355 M3GM 450 LA 3GGM 745 95.7 95.6 0.79 0.75 41 5.7 18
400 M3GM 450 LB 3GGM 745 95.8 95.8 0.80 0.75 46 5.6 19
450 M3GM 450 LC 3GGM 745 95.9 95.9 0.80 0.76 51 5.5 21
500 M3GM 450 LD 3GGM 745 96.0 96.0 0.81 0.77 56 5.5 22

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia
1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP
3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
750 r/min = 8 poles 3000 V 50 Hz
200 M3GM 400 LA 2575 1.0 2.4 0.15 388 11 22 13.6 630 2370 75
220 M3GM 400 LB 2831 1.1 2.5 0.15 423 10 22 15.0 680 2490 75
250 M3GM 400 LC 3219 1.1 2.4 0.14 476 10 22 17.7 780 2730 75
270 M3GM 400 LD 3479 1.1 2.4 0.15 510 10 22 19.1 830 2830 75
290 M3GM 400 LE 3736 1.1 2.4 0.14 545 9 22 20.5 870 2960 75
315 M3GM 400 LKA 4041 1.2 2.1 0.18 587 11 20 20.0 880 3080 75
355 M3GM 400 LKB 4557 1.1 2.1 0.17 655 12 20 22.0 950 3270 75
370 M3GM 400 LKC 4745 1.3 2.3 0.18 680 10 22 21.8 1000 3380 75
400 M3GM 450 LA 5124 1.1 2.4 0.14 730 11 20 30.8 1080 4050 76
450 M3GM 450 LB 5763 1.2 2.5 0.14 811 10 20 33.0 1140 4200 76
500 M3GM 450 LC 6404 1.2 2.5 0.14 892 10 20 37.3 1260 4500 76
530 M3GM 450 LD 6787 1.2 2.6 0.14 940 10 20 39.5 1330 4620 76
750 r/min = 8 poles 3300 V 50 Hz
200 M3GM 400 LA 2576 1.0 2.3 0.15 388 11 22 13.6 630 2370 75
220 M3GM 400 LB 2833 1.0 2.4 0.15 423 10 22 15.0 680 2490 75
250 M3GM 400 LC 3224 1.0 2.2 0.15 476 11 22 17.7 780 2720 75
280 M3GM 400 LD 3607 1.1 2.4 0.14 528 10 22 19.1 830 2840 75
290 M3GM 400 LE 3734 1.2 2.5 0.15 545 9 22 20.5 870 2950 75
315 M3GM 400 LKA 4041 1.2 2.2 0.17 587 11 20 20.0 880 3100 75
345 M3GM 400 LKB 4428 1.2 2.2 0.18 638 11 22 20.5 950 3260 75
375 M3GM 400 LKC 4811 1.3 2.3 0.17 688 10 20 23.3 990 3390 75
400 M3GM 450 LA 5124 1.1 2.4 0.14 730 11 20 30.8 1080 4040 76
450 M3GM 450 LB 5764 1.1 2.5 0.14 811 10 20 33.0 1140 4190 76
500 M3GM 450 LC 6406 1.1 2.4 0.14 892 11 20 37.3 1260 4490 76
530 M3GM 450 LD 6790 1.1 2.4 0.14 940 11 20 39.5 1330 4620 76
750 r/min = 8 poles 6000 V 50 Hz
160 M3GM 400 LA 2062 1.1 2.5 0.16 315 10 22 10.2 560 2400 75
180 M3GM 400 LB 2322 1.0 2.4 0.16 352 11 22 10.7 580 2460 75
200 M3GM 400 LC 2580 1.1 2.4 0.15 388 10 22 12.1 640 2640 75
220 M3GM 400 LD 2840 1.0 2.3 0.15 423 10 22 13.0 680 2760 75
250 M3GM 400 LE 3225 1.1 2.5 0.15 476 9 22 14.4 740 2930 75
280 M3GM 400 LKA 3597 1.0 2.4 0.13 528 11 20 15.0 790 3240 75
315 M3GM 400 LKB 4047 1.0 2.5 0.13 587 10 20 15.9 830 3350 75
355 M3GM 450 LA 4547 1.1 2.4 0.15 655 11 20 28.6 1020 3850 76
400 M3GM 450 LB 5124 1.1 2.4 0.15 730 10 20 30.8 1080 4000 76
450 M3GM 450 LC 5766 1.1 2.3 0.15 811 11 20 35.2 1200 4300 76
500 M3GM 450 LD 6406 1.1 2.3 0.15 892 11 20 39.5 1330 4600 76
750 r/min = 8 poles 6600 V 50 Hz
160 M3GM 400 LA 2061 1.1 2.6 0.16 315 10 22 10.7 580 2450 75
180 M3GM 400 LB 2319 1.1 2.6 0.16 352 10 22 10.7 580 2460 75
200 M3GM 400 LC 2583 1.0 2.2 0.15 388 11 22 12.1 640 2630 75
220 M3GM 400 LD 2838 1.1 2.4 0.15 423 10 22 13.0 680 2750 75
250 M3GM 400 LE 3223 1.2 2.6 0.15 476 9 22 14.4 740 2930 75
280 M3GM 400 LKA 3596 1.0 2.5 0.13 528 10 20 15.0 790 3230 75
315 M3GM 400 LKB 4047 1.0 2.5 0.13 587 10 20 15.9 830 3350 75
355 M3GM 450 LA 4548 1.1 2.4 0.15 655 12 20 29.7 1050 3920 76
400 M3GM 450 LB 5125 1.1 2.3 0.15 730 11 20 31.9 1110 4070 76
450 M3GM 450 LC 5767 1.1 2.3 0.15 811 12 20 35.2 1200 4300 76
500 M3GM 450 LD 6408 1.0 2.2 0.15 892 12 20 39.5 1330 4590 76
1)
2)
3)
4)

8 The bullet in the
choice of mounting
arrangement (see
page).
Output
kW
r/min
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
3000 r/min = 2 poles 3300 V 50 Hz
180 5)
M3GM 355 LKA 3GGM 2979 94.4 94.3 0.90 0.90 37 5.3 7
200 5)
M3GM 355 LKB 3GGM 2980 94.9 94.8 0.91 0.91 41 5.3 7
224 5)
M3GM 355 LKC 3GGM 2980 95.1 95.1 0.91 0.92 45 5.4 7
250 5)
M3GM 355 LKD 3GGM 2980 95.4 95.4 0.91 0.92 50 5.4 8
265 5)
M3GM 355 LKE 3GGM 2978 95.4 95.5 0.91 0.92 53 5.3 8
280 5)
M3GM 400 LKA 3GGM 2981 95.4 95.3 0.91 0.91 57 5.3 10
315 5)
M3GM 400 LKB 3GGM 2982 95.6 95.6 0.90 0.90 64 5.3 12
355 5)
M3GM 400 LKC 3GGM 2983 95.9 95.9 0.91 0.91 71 5.4 12
400 5)
M3GM 400 LKD 3GGM 2983 96.1 96.2 0.92 0.92 79 5.4 11
450 5)
M3GM 400 LKE 3GGM 2982 96.2 96.4 0.92 0.93 89 5.3 12
3000 r/min = 2 poles 6600 V 50 Hz
224 5)
M3GM 400 LKA 3GGM 2982 94.9 94.6 0.88 0.88 23 5.4 5
250 5)
M3GM 400 LKB 3GGM 2982 95.0 94.9 0.88 0.88 26 5.4 5
280 5)
M3GM 400 LKC 3GGM 2982 95.2 95.2 0.91 0.91 28 5.4 5
315 5)
M3GM 400 LKD 3GGM 2982 95.3 95.4 0.91 0.91 32 5.4 5
355 5)
M3GM 400 LKE 3GGM 2982 95.6 95.7 0.91 0.92 36 5.4 5
400 5)
M3GM 400 LKF 3GGM 2982 95.9 96.1 0.91 0.92 40 5.4 6

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia
1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP
3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
3000 r/min = 2 poles 3300 V 50 Hz
180 5)
M3GM 355 LKA 577 0.5 2.5 0.11 13 15 20 3.1 290 1750 78
200 5)
M3GM 355 LKB 641 0.6 2.5 0.11 15 14 20 3.9 340 1980 78
224 5)
M3GM 355 LKC 718 0.6 2.5 0.11 16 14 20 4.2 360 2070 78
250 5)
M3GM 355 LKD 801 0.6 2.5 0.11 18 13 20 4.6 390 2210 78
265 5)
M3GM 355 LKE 850 0.6 2.4 0.11 19 13 20 4.6 390 2210 78
280 5)
M3GM 400 LKA 897 0.4 2.5 0.09 20 19 25 5.6 430 2440 79
315 5)
M3GM 400 LKB 1009 0.5 2.5 0.09 22 17 25 6.0 440 2500 79
355 5)
M3GM 400 LKC 1137 0.5 2.5 0.09 24 16 25 7.6 500 2740 79
400 5)
M3GM 400 LKD 1281 0.5 2.5 0.10 27 15 20 10.0 570 3090 79
450 5)
M3GM 400 LKE 1441 0.6 2.4 0.10 30 14 20 10.8 600 3190 79
3000 r/min = 2 poles 6600 V 50 Hz
224 5)
M3GM 400 LKA 717 0.8 2.4 0.13 16 12 20 6.4 480 2530 79
250 5)
M3GM 400 LKB 801 0.8 2.4 0.12 18 11 20 6.4 480 2530 79
280 5)
M3GM 400 LKC 897 0.5 2.5 0.10 20 17 25 6.7 460 2510 79
315 5)
M3GM 400 LKD 1009 0.5 2.4 0.10 19 15 20 6.7 460 2510 79
355 5)
M3GM 400 LKE 1137 0.5 2.4 0.10 23 15 20 7.7 510 2740 79
400 5)
M3GM 400 LKF 1281 0.5 2.4 0.10 27 15 20 10.4 580 3090 79
1)
2)
3)
4)
5)

8 The bullet in the
choice of mounting
arrangement (see
page).
Output
kW
r/min
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
1500 r/min = 4 poles 3300 V 50 Hz
132 M3GM 315 LKA 3GGM 1486 94.4 94.4 0.85 0.83 29 5.2 10
140 M3GM 315 LKB 3GGM 1486 94.6 94.6 0.85 0.83 30 5.4 10
155 M3GM 315 LKC 3GGM 1485 94.7 94.8 0.85 0.83 33 5.3 11
180 M3GM 355 LKA 3GGM 1490 94.8 94.6 0.83 0.79 40 5.4 15
200 M3GM 355 LKB 3GGM 1490 95.1 94.9 0.84 0.81 44 5.3 15
224 M3GM 355 LKC 3GGM 1490 95.3 95.2 0.84 0.82 49 5.2 16
250 M3GM 355 LKD 3GGM 1490 95.5 95.4 0.84 0.82 54 5.4 18
280 M3GM 355 LKE 3GGM 1490 95.5 95.5 0.85 0.82 61 5.2 20
315 M3GM 355 LKF 3GGM 1490 95.7 95.7 0.85 0.83 68 5.3 22
335 M3GM 355 LKG 3GGM 1490 95.9 95.8 0.85 0.83 72 5.4 23
355 M3GM 400 LKA 3GGM 1489 95.8 95.8 0.85 0.83 76 5.0 23
400 M3GM 400 LKB 3GGM 1490 96.0 96.0 0.85 0.83 86 5.2 27
450 M3GM 400 LKC 3GGM 1490 96.2 96.2 0.86 0.84 95 5.3 28
500 M3GM 400 LKD 3GGM 1490 96.4 96.4 0.86 0.85 105 5.4 29
560 M3GM 450 LA 3GGM 1491 96.3 96.2 0.86 0.86 117 5.4 31
600 M3GM 450 LB 3GGM 1491 96.4 96.4 0.87 0.86 125 5.4 32
1500 r/min = 4 poles 6600 V 50 Hz
224 M3GM 355 LKA 3GGM 1487 95.2 95.2 0.84 0.82 24 5.3 8
250 M3GM 355 LKB 3GGM 1487 95.4 95.4 0.85 0.82 27 5.4 9
280 M3GM 400 LKA 3GGM 1491 95.2 95.0 0.84 0.81 31 5.4 11
315 M3GM 400 LKB 3GGM 1491 95.3 95.3 0.85 0.82 34 5.3 11
355 M3GM 400 LKC 3GGM 1490 95.8 95.8 0.86 0.85 37 5.3 10
400 M3GM 400 LKD 3GGM 1491 96.0 96.0 0.87 0.85 42 5.4 12
450 M3GM 400 LKE 3GGM 1490 96.1 96.2 0.87 0.86 47 5.3 13
500 M3GM 450 LA 3GGM 1491 96.1 96.0 0.86 0.85 53 5.4 14
560 M3GM 450 LB 3GGM 1491 96.3 96.2 0.86 0.85 59 5.4 16

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia
1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP
3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
1500 r/min = 4 poles 1500 r/min = 4 poles
132 M3GM 315 LKA 848 0.8 2.4 0.15 49 11 20 1.9 220 1180 73
140 M3GM 315 LKB 900 0.8 2.5 0.15 52 11 20 2.0 230 1210 73
155 M3GM 315 LKC 997 0.8 2.4 0.15 57 11 20 2.1 240 1250 73
180 M3GM 355 LKA 1153 0.9 2.4 0.15 65 11 20 5.0 370 1750 74
200 M3GM 355 LKB 1282 0.9 2.3 0.15 71 11 20 5.5 400 1840 74
224 M3GM 355 LKC 1435 0.9 2.3 0.15 79 11 20 6.1 430 1940 74
250 M3GM 355 LKD 1602 1.0 2.3 0.15 87 10 20 6.7 460 2030 74
280 M3GM 355 LKE 1795 0.9 2.2 0.15 97 11 20 6.9 470 2060 74
315 M3GM 355 LKF 2019 1.0 2.3 0.15 107 10 20 7.8 520 2200 74
335 M3GM 355 LKG 2147 1.0 2.3 0.15 113 10 20 8.3 550 2300 74
355 M3GM 400 LKA 2277 0.7 2.2 0.11 119 13 20 9.6 560 2670 79
400 M3GM 400 LKB 2564 0.7 2.3 0.11 132 12 18 12.0 600 2790 79
450 M3GM 400 LKC 2884 0.7 2.3 0.11 147 12 18 14.4 660 3020 79
500 M3GM 400 LKD 3204 0.7 2.3 0.11 161 11 18 18.0 760 3350 79
560 M3GM 450 LA 3586 1.0 2.3 0.13 177 10 20 23.5 970 4280 83
600 M3GM 450 LB 3843 1.0 2.2 0.13 188 10 20 30.7 1070 4570 83
1500 r/min = 4 poles 6600 V 50 Hz
224 M3GM 355 LKA 1438 1.1 2.3 0.16 79 9 20 4.8 390 2050 74
250 M3GM 355 LKB 1606 1.1 2.3 0.16 87 9 20 5.5 420 2190 74
280 M3GM 400 LKA 1793 1.0 2.4 0.15 97 10 20 10.2 560 2560 79
315 M3GM 400 LKB 2018 0.7 2.3 0.12 107 14 20 9.6 560 2600 79
355 M3GM 400 LKC 2275 0.7 2.3 0.12 119 13 20 13.8 650 2900 79
400 M3GM 400 LKD 2562 0.7 2.3 0.11 132 12 20 16.2 710 3130 79
450 M3GM 400 LKE 2884 0.7 2.3 0.11 147 12 20 17.4 750 3240 79
500 M3GM 450 LA 3202 1.1 2.2 0.15 161 9 20 28.6 1030 4390 83
560 M3GM 450 LB 3586 1.1 2.2 0.15 177 9 20 30.7 1080 4550 83
1)
voltage.
rated voltage.
2)
3)
4)

8 The bullet in the
choice of mounting
arrangement (see
page).
Output
kW
r/min
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
1000 r/min = 6 poles 3300 V 50 Hz
112 M3GM 315 LKA 3GGM 990 94.4 94.6 0.79 0.75 26 5.1 11
125 M3GM 315 LKB 3GGM 990 94.6 94.7 0.79 0.75 29 5.1 13
132 M3GM 315 LKC 3GGM 991 94.8 94.8 0.78 0.73 31 5.3 14
140 M3GM 355 LKA 3GGM 993 95.1 95.1 0.78 0.74 33 5.0 14
160 M3GM 355 LKB 3GGM 993 95.4 95.4 0.79 0.75 37 5.1 16
180 M3GM 355 LKC 3GGM 993 95.5 95.5 0.78 0.74 42 5.2 18
200 M3GM 355 LKD 3GGM 993 95.7 95.7 0.79 0.75 46 5.2 20
224 M3GM 355 LKE 3GGM 993 95.8 95.8 0.79 0.74 52 5.3 22
250 M3GM 355 LKF 3GGM 992 95.7 95.8 0.79 0.75 58 5.1 24
280 M3GM 355 LKG 3GGM 993 95.9 96.0 0.79 0.74 65 5.3 28
355 M3GM 400 LKA 3GGM 993 96.0 96.1 0.81 0.78 80 5.3 30
400 M3GM 400 LKB 3GGM 994 96.2 96.2 0.81 0.78 89 5.5 33
425 M3GM 400 LKC 3GGM 993 96.2 96.3 0.82 0.79 94 5.4 34
450 M3GM 450 LA 3GGM 993 96.2 96.4 0.84 0.83 97 5.3 29
500 M3GM 450 LB 3GGM 993 96.4 96.5 0.85 0.83 107 5.4 32
560 M3GM 450 LC 3GGM 993 96.5 96.6 0.85 0.84 119 5.4 34
1000 r/min = 6 poles 6600 V 50 Hz
150 M3GM 355 LKA 3GGM 991 94.9 94.9 0.77 0.72 18 5.2 8
160 M3GM 355 LKB 3GGM 990 95.0 95.0 0.78 0.73 19 5.2 9
180 M3GM 355 LKC 3GGM 990 95.1 95.2 0.78 0.74 21 5.0 9
200 M3GM 355 LKD 3GGM 990 95.3 95.3 0.77 0.72 24 5.2 11
280 M3GM 400 LKA 3GGM 993 95.6 95.5 0.78 0.74 33 5.1 14
315 M3GM 400 LKB 3GGM 993 95.8 95.7 0.79 0.75 37 5.2 15
355 M3GM 400 LKC 3GGM 993 96.0 95.9 0.79 0.75 41 5.4 17
375 M3GM 400 LKD 3GGM 993 96.1 96.0 0.80 0.76 43 5.4 17
400 M3GM 450 LA 3GGM 994 96.1 96.1 0.84 0.82 43 5.4 14
450 M3GM 450 LB 3GGM 994 96.2 96.3 0.84 0.83 48 5.3 15
500 M3GM 450 LC 3GGM 994 96.3 96.4 0.85 0.83 54 5.4 16
525 M3GM 450 LD 3GGM 993 96.3 96.5 0.85 0.84 56 5.5 16

8
3)
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia
1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP
3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
1000 r/min = 6 poles 3300 V 50 Hz
112 M3GM 315 LKA 1080 1.1 2.3 0.18 113 11 20 3.1 290 1230 65
125 M3GM 315 LKB 1206 1.1 2.2 0.18 125 11 20 3.3 300 1260 65
132 M3GM 315 LKC 1272 1.2 2.4 0.18 131 10 20 3.5 310 1300 65
140 M3GM 355 LKA 1347 0.8 2.2 0.14 139 14 20 5.0 370 1740 70
160 M3GM 355 LKB 1539 0.8 2.3 0.13 157 14 20 5.8 410 1870 70
180 M3GM 355 LKC 1731 0.9 2.3 0.13 175 13 20 6.1 430 1920 70
200 M3GM 355 LKD 1924 0.9 2.3 0.13 192 13 20 6.6 460 2010 70
224 M3GM 355 LKE 2154 0.9 2.3 0.13 213 12 20 7.2 490 2100 70
250 M3GM 355 LKF 2406 0.9 2.2 0.13 236 13 20 7.5 500 2130 70
280 M3GM 355 LKG 2694 0.9 2.3 0.13 261 12 20 8.3 550 2270 70
355 M3GM 400 LKA 3412 1.0 2.3 0.14 324 11 22 17.9 860 3100 78
400 M3GM 400 LKB 3843 1.1 2.4 0.14 360 11 22 21.1 980 3390 78
425 M3GM 400 LKC 4085 1.1 2.2 0.14 380 11 22 21.0 980 3380 78
450 M3GM 450 LA 4327 1.1 2.1 0.16 400 10 20 33.6 1050 4000 78
500 M3GM 450 LB 4807 1.2 2.2 0.16 439 10 20 36.6 1110 4150 78
560 M3GM 450 LC 5385 1.2 2.1 0.16 486 9 20 45.4 1290 4580 78
1000 r/min = 6 poles 6600 V 50 Hz
150 M3GM 355 LKA 1446 1.0 2.4 0.15 148 11 20 4.8 390 2040 70
160 M3GM 355 LKB 1543 1.0 2.4 0.15 157 11 20 5.0 410 2090 70
180 M3GM 355 LKC 1737 0.9 2.3 0.15 175 12 20 5.3 420 2140 70
200 M3GM 355 LKD 1929 1.0 2.4 0.15 192 11 20 5.7 440 2230 70
280 M3GM 400 LKA 2693 1.0 2.2 0.14 261 11 22 9.6 630 2740 78
315 M3GM 400 LKB 3030 1.1 2.2 0.14 291 11 22 10.9 680 2920 78
355 M3GM 400 LKC 3414 1.1 2.3 0.14 324 10 22 12.6 750 3150 78
375 M3GM 400 LKD 3606 1.1 2.2 0.14 340 10 22 14.3 830 3380 78
400 M3GM 450 LA 3844 1.2 2.2 0.17 360 10 20 30.8 1080 4030 78
450 M3GM 450 LB 4325 1.2 2.2 0.17 400 10 20 39.5 1170 4250 78
500 M3GM 450 LC 4806 1.2 2.2 0.17 439 10 20 43.9 1260 4480 78
525 M3GM 450 LD 5048 1.2 2.2 0.16 459 9 22 34.5 1260 4480 78
1)
315LK, 355LK: The given values of load inertia assume three starts from
cold and two starts from warm conditions in succession against quadratic
load torque with 90% of the rated torque at the rated speed and at 80% of the
rated voltage.
rated voltage.
2)
315LK, 355LK: Starting time with given values of the load inertia from cold
3)
4)

8
The bullet in the
choice of mounting
arrangement (see
page).
Output
kW
r/min
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
IN
A
IS
IN
I0
A
750 r/min = 8 poles 3300 V 50 Hz
160 M3GM 400 LKA 3GGM 744 94.6 94.6 0.76 0.71 39 5.0 19
180 M3GM 400 LKB 3GGM 744 94.8 94.9 0.77 0.73 43 4.9 19
200 M3GM 400 LKC 3GGM 744 95.0 95.1 0.78 0.73 47 5.0 21
224 M3GM 400 LKD 3GGM 744 95.2 95.2 0.78 0.74 53 5.2 23
250 M3GM 400 LKE 3GGM 745 95.4 95.4 0.78 0.73 59 5.4 26
280 M3GM 400 LKF 3GGM 745 95.6 95.6 0.78 0.74 65 5.4 29
315 M3GM 400 LKG 3GGM 744 95.6 95.6 0.78 0.74 74 5.4 33
355 M3GM 450 LA 3GGM 745 95.9 95.8 0.79 0.75 82 5.4 35
400 M3GM 450 LB 3GGM 745 96.0 95.9 0.79 0.74 92 5.4 40
450 M3GM 450 LC 3GGM 745 96.1 96.0 0.79 0.74 104 5.5 45
750 r/min = 8 poles 6600 V 50 Hz
160 M3GM 400 LKA 3GGM 744 94.5 94.4 0.75 0.70 20 5.0 10
180 M3GM 400 LKB 3GGM 744 94.7 94.7 0.76 0.71 22 4.9 10
200 M3GM 400 LKC 3GGM 744 95.0 94.9 0.76 0.71 24 5.1 12
224 M3GM 400 LKD 3GGM 744 95.1 95.0 0.76 0.70 27 5.3 13
250 M3GM 400 LKE 3GGM 744 95.2 95.1 0.76 0.71 30 5.3 15
280 M3GM 400 LKF 3GGM 744 95.3 95.2 0.75 0.69 34 5.4 17
315 M3GM 450 LA 3GGM 745 95.6 95.5 0.79 0.75 36 5.4 16
355 M3GM 450 LB 3GGM 745 95.8 95.7 0.79 0.75 41 5.3 17
400 M3GM 450 LC 3GGM 745 95.9 95.8 0.79 0.75 46 5.3 19

8
Output
kW
Motor type
Torque
Power
factor
cos φk
Load
inertia
1)
kgm2
Starting
time
cold 2)
s
Maximum
stalling
time hot
s
Rotor
inertia
kgm2
Rotor
weight
kg
Motor
weight
kg
Sound
pressure
level LP
3)
dB(A)
TN
Nm
TS
TN
Tmax
TN
750 r/min = 8 poles 3300 V 50 Hz
160 M3GM 400 LKA 2053 1.0 2.1 0.18 315 14 20 12.6 590 2400 75
180 M3GM 400 LKB 2310 1.0 2.0 0.18 352 14 20 14.4 640 2510 75
200 M3GM 400 LKC 2566 1.0 2.1 0.17 388 14 20 16.2 690 2630 75
224 M3GM 400 LKD 2873 1.1 2.2 0.18 430 12 20 20.7 800 2900 75
250 M3GM 400 LKE 3206 1.2 2.3 0.18 476 12 20 24.3 900 3130 75
280 M3GM 400 LKF 3591 1.2 2.2 0.17 528 11 20 26.1 950 3270 75
315 M3GM 400 LKG 4041 1.2 2.2 0.17 587 11 20 27.9 990 3370 75
355 M3GM 450 LA 4548 1.2 2.2 0.16 655 12 20 34.4 1180 4270 76
400 M3GM 450 LB 5125 1.2 2.3 0.16 730 11 20 42.4 1240 4420 76
450 M3GM 450 LC 5766 1.2 2.3 0.16 811 11 20 46.8 1330 4650 76
750 r/min = 8 poles 6600 V 50 Hz
160 M3GM 400 LKA 2054 1.0 2.3 0.17 315 13 20 10.8 590 2600 75
180 M3GM 400 LKB 2312 0.9 2.2 0.17 352 14 20 12.6 650 2770 75
200 M3GM 400 LKC 2568 1.0 2.3 0.16 388 13 20 14.4 710 2950 75
224 M3GM 400 LKD 2876 1.1 2.3 0.16 430 12 20 16.8 780 3180 75
250 M3GM 400 LKE 3210 1.1 2.3 0.16 476 12 20 18.0 820 3300 75
280 M3GM 400 LKF 3596 1.1 2.4 0.16 528 11 20 18.6 840 3360 75
315 M3GM 450 LA 4035 1.2 2.2 0.16 587 12 20 36.6 1120 4070 76
355 M3GM 450 LB 4548 1.2 2.2 0.16 655 12 20 34.4 1180 4230 76
400 M3GM 450 LC 5126 1.1 2.2 0.16 730 12 20 37.7 1270 4450 76
1)
voltage.
450L: The given values of load inertia assume two starts from cold and one
2)
450L: Starting time with given values of the load inertia from cold condition
3)
4)

8
1)
R = On request.
Code 1)
Variant Motor size
315 355 400 450
Hazardous environments
Following codes have to be added to the product code according to needs.
452 DIP/Ex tD acc. to ATEX directive 94/9/EC , T= 125 ºC, cat. 3D, IP55 P P P P
456 Ex nA design, fulfilling IEC 60079-15, with certificate. P P P P
480 Ex nA II acc. to ATEX directive 94/9/EC, temp. class T3 P P P P
804 DIP/Ex tD, IEC 61241, T125 ºC, IP55 (zone 22) P P P P
Balancing
423 Balanced without key P P P P
424 Full key balancing. P P P P
Bearings and lubrication
036 Transport lock for bearings. P P P P
037 Roller bearing at D-end. P P P P
107 Pt100 2-wire in bearings P P P P
651 Dial type thermometers (2 pcs) for bearings, without contacts. P P P P
654 Provision for vibration sensors (M8x1). P P P P
178 Stainless steel/acid proof bolts. P P P P
398 Motor designed for ambient temperature -20°C to -40°C. P P P P
Cooling system
044 Unidirectional fan, clockwise seen from D-end. NA P P P
045 Unidirectional fan, counter clockwise seen from D-end. NA P P P
Coupling
035 Assembly of customer supplied coupling-half P P P P
Drain holes
065 Plugged existing drain holes. P P P P
448 Draining holes with metal plugs. P P P P
Heating elements
450 Heating element, 100-120 V. P P P P
451 Heating element, 200-240 V. P P P P
Painting
114 Special paint colour, standard grade. P P P P
Protection
005 Metal protective roof, vertical motor, shaft down. P P P P
158 Degree of protection IP 65. P P P P
403 Degree of protection IP 56. P P P P
002 Restamping output, continuous duty. R R R R
135 Mounting of additional identification plate, stainless P P P P
HV Non-sparking and dust ignition proof
motors - Variant codes

8
1)
R = On request.
Code 1)
Variant Motor size
315 355 400 450
Standards and regulations
010 Fulfilling CSA Safety Certificate. P P P P
778 GOST Export/Import Certificate (Russia) P P P P
782 Fulfilling CQST Certificate requirements (China). P P P P
653 Pt-100 (12 pcs) inside stator slots. P P P P
Terminal box
021 Terminal box LHS (seen from D-end). P P P P
655 No terminal box, three (3) leads out 1.5 m (5 ft). P P P P
656 No terminal box, six (6) leads out 1.5 m (5 ft). P P P P
750 Star point terminal box. P P P P
Testing
Routine test report included as standard.
146 Type test with report for motor from specific delivery patch. P P P P
147 Type test with report for motor from specific delivery patch, customer witnessed. P P P P
762 Noise level test. P P P P
701 Insulated bearing at N-end. P P P P
Foundation and installation
Foundation studs P P P P
Sole plates without anchor bolts P P P P
Sole plates with anchor bolts P P P P
Slide rails for belt drives P P P P

8
M000258
M000257
M000259
M000256
HV Non-sparking and dust ignition
proof cast iron motors Sizes 315-450
Dimension drawings
Foot-mounted: IM B3 (IM 1001)
Tolerances:
A, B, C ± 0.8
D ISO m6
F ISO h9
H +0 -1.0
For detailed drawings please see our web-pages
'www.abb.com/motors&generators' or contact us.
Motor size Poles A AA AB AC AD B B’ B’’ BA BB C D DB E EG
315 LK 2 508 100 590 654 555 508 560 710 336 851 216 65 M20 140 42
315 LK 4-6 508 100 590 654 555 508 560 710 336 851 216 90 M24 170 52
355 LK 2 610 120 700 746 627 630 710 900 447 1077 254 70 M20 140 42
355 LK 4-6 610 120 700 746 627 630 710 900 447 1077 254 100 M24 210 51
400 L 2 710 150 840 834 627 900 1000 - 410 1156 224 80 M20 170 42
400 L 4-8 710 150 840 834 627 900 1000 - 410 1156 224 110 M24 210 50
400 LK 2 710 150 840 834 627 900 1000 1120 410 1316 224 80 M20 170 42
400 LK 4-8 710 150 840 834 627 900 1000 1120 410 1316 224 110 M24 210 50
450 L 2 800 160 950 966 613 1000 1120 1250 451 1421 250 80 M20 170 42
450 L 4-8 800 160 950 966 613 1000 1120 1250 451 1421 250 120 M24 210 50
Motor size Poles F G GA GD H HA HC HD K L LD O
315 LK 2 18 58 69 11 315 40 644 1055 28 1490 355 115
315 LK 4-6 25 81 95 14 315 40 644 1055 28 1521 385 115
355 LK 2 20 62.5 74.5 12 355 52 725 1138 35 1764 398 250
355 LK 4-6 28 90 106 16 355 52 725 1138 35 1834 468 130
400 L 2 22 71 85 14 400 45 814 1225 35 1851 458 300
400 L 4-8 28 100 116 16 400 45 814 1225 35 1891 498 200
400 LK 2 22 71 85 14 400 45 814 1225 35 2011 478 300
400 LK 4-8 28 100 116 16 400 45 814 1225 35 2051 518 200
450 L 2 22 71 85 14 450 81 933 1378 42 2147 485 300
450 L 4-8 32 109 127 18 450 81 933 1378 42 2187 525 200

8
M000258
M000257
M000260
M000261
Dimension drawings
Flange-mounted;IM V1 (IM 3011)
Tolerances:
D ISO m6
F ISO h9
N ISO js6 (315_)
Motor size Poles AC D DB E EG F G GA GD HB
315 LK 4-6 645 90 M24 170 52 25 81 95 14 731
355 LK 4-6 740 100 M24 210 51 28 90 106 16 774
400 L 4-8 827 110 M24 210 50 28 100 116 16 816
400 LK 4-8 810 110 M24 210 50 28 100 116 16 816
450 L 4-8 966 120 M24 210 50 32 109 127 18 887
Motor size Poles L LA LB LD M N O P S T
315 LK 4-6 1521 25 1351 1115 600 550 115 660 23 6
355 LK 4-6 1834 25 1624 1386 740 680 130 800 23 6
400 L 4-8 1891 26 1681 1400 940 880 200 1000 28 6
400 LK 4-8 2051 26 1841 1540 940 880 200 1000 28 6
450 L 4-8 2187 33 1977 1645 1080 1000 200 1149 28 6

8
Dimension drawings
Foot- and ﬂange-mounted motors: IM B35 (IM 2001)
Tolerances:
A, B, D ± 0.8
D ISO m6
F ISO h9
H +0 -1.0
Motor size Poles A AA AB AC AD B B’ B’’ BA BB C D DB E EG F G
315LK 2 508 100 590 885 555 508 560 710 336 851 216 65 M20 140 42 18 58
315LK 4-6 508 100 590 885 555 508 560 710 336 851 216 90 M24 170 52 25 81
355LK 2 610 120 700 1027 627 630 710 900 447 1077 254 70 M20 140 42 20 62.5
355LK 4-6 610 120 700 1027 627 630 710 900 447 1077 254 100 M24 210 51 28 90
400L 2 710 150 840 1127 627 900 1000 - 410 1156 224 80 M20 170 42 22 71
400L 4-12 710 150 840 1127 627 900 1000 - 410 1156 224 110 M24 210 50 28 100
400LK 2 710 150 840 1127 627 900 1000 1120 410 1316 224 80 M20 170 42 22 71
400LK 4-8 710 150 840 1127 627 900 1000 1120 410 1316 224 110 M24 210 50 28 100
450L 2 800 160 950 1188 613 1000 1120 1250 451 1421 250 80 M20 170 42 22 71
450L 4-8 800 160 950 1188 613 1000 1120 1250 451 1421 250 120 M24 210 50 32 109
Motor size Poles GA GD H HA HC HD K L LD O LA LB M N P S T
315LK 2 69 11 315 40 643 1055 28 1490 355 115 25 1350 600 550 660 23 6
315LK 4-6 95 14 315 40 643 1055 28 1521 385 115 25 1350 600 550 660 23 6
355LK 2 74.5 12 355 52 725 1138 35 1764 398 250 25 1624 740 680 800 23 6
355LK 4-6 106 16 355 52 725 1138 35 1834 468 130 25 1624 740 680 800 23 6
400L 2 85 14 400 45 814 1225 35 1851 458 300 26 1681 940 880 1000 28 6
400L 4-12 116 16 400 45 814 1225 35 1891 498 200 26 1681 940 880 1000 28 6
400LK 2 85 14 400 45 814 1225 35 2011 478 300 26 1841 940 880 1000 28 6
400LK 4-8 116 16 400 45 814 1225 35 2051 518 200 26 1841 940 880 1000 28 6
450L 2 85 14 450 81 933 1378 42 2147 485 300 33 1977 1080 1000 1149 28 6
450L 4-8 127 18 450 81 933 1378 42 2187 525 200 33 1977 1080 1000 1149 28 6
M000361

8
Accessories
Sole plates
Frame size Set code
315 SLRA315-M3
355 SLRA355-M3
400 SLRA400-M3
450 SLRA450-M3
The set code has to be mentioned on order.
Frame size Set code
315 FOST315-M3
355 FOST355-M3
400 FOST400-M3
450 FOST450-M3
Foundation studs Slide rails
With anchor bolts for concrete foundation
Frame size Set code
315 SOPL315A-M3
355 SOPL355A-M3
400 L SOPL400A-M3
400 LK SOPL400A-M3LK
450 SOPL450A-M3
Without anchor bolts
Frame size Set code
315 SOPL315-M3
355 SOPL355-M3
400 L SOPL400-M3
400 LK SOPL400-M3LK
450 SOPL450-M3
Sole plates
M000262
M000263
M000327
M000327

8
L
LL
Protective roof
Motor
size
Pole
no
L LL
315 LK 4-6 1591 1421
355 LK 4-6 1951 1741
400 L 4-8 2008 1798
400 LK 4-8 2168 1958
450 L 4-8 2389 2179
Variant code 005
M000264
Accessories
Provision for vibration sensors
Provision for vibration sensors M8x1. XYZ-directions. Available only for D-end.
Y
Z
X
M000362

8
Motor construction
Typical exploded view of high voltage cast iron motor
1 Stator frame
2 End shield, D-end
3 Screws for end shield, D-end
4 End shield, N-end
5 Screws for end shield, N-end
6 Rotor with shaft
7 Key, D-end
8 Main terminal box
9 Middle box
13 Bearing, D-end
14 Inner bearing cover
18 Bearing, N-end
20 Spring
22 Fan
23 Fan cover
25 Rating plate
26 Lubrication plate
27 Auxiliary terminal box
32 Additional identiﬁcation plate
M000363

8
HV Non-sparking and dust ignition proof cast iron
motors in brief, basic design
Motor size 315 355 400 450
Stator Material Cast iron EN-GJL-250 EN 1561
Paint colour shade Blue, Munsell 8B 4.5/3.25 / NCS 4822 B05G / RAL 5014
Paint thickness Two-pack epoxy paint, thickness ≥ 180 µm
Bearing end shields Material Cast iron EN-GJL-200 SFS-EN 1561
Paint thickness Two-pack epoxy paint, thickness ≥ 180 µm
Bearings D-end 2 pole 6316M/C3 6316M/C3 6317M/C3 6317M/C3
4-8 pole 6319/C3 6322/C3 6324/C3 6326M/C3
N-end 2 pole 6316M/C3 6316M/C3 6317M/C3 6317M/C3
4-8 pole 6316/C3 6316/C3 6319/C3 6322/C3
Axially-locked Inner bearing cover As standard, locked at D-end
bearings
Bearing seal As standard, labyrinth seal in both ends.
Lubrication Regreasable bearings
Regreasing nipples M10x1 DIN 71412 A
Rating and Material Stainless steel, EN 10088, thickness 0.5 mm.
lubrication plate
Terminal box Frame material Structural steel S235JRG2-EN-10025, thickness 3 mm.
Cover material Structural steel S235JRG2-EN-10025, thickness 3 mm.
Cover screws material Blue passivated.
Connections Cable entries Blind gland plate.
Grounding locations on frame and terminal box (in- and outside)
Fan Material Glass reinforced polypropylene, aluminum, steel or glass reinforced polyamide fan with
metal hub.
Direction of rotation / fans (IC411)
- glass reinforced polypropylene bidirectional
- aluminum birectional
- steel bidirectional
- glass reinforced polyamide fan unidirectional.
Paint thickness Two-pack epoxy polyester powder, thickness ≥ 80 µm
Stator winding Material Form wound copper, VPI
Winding protection PT100, 6 pieces
Balancing method Half key balancing as standard
Heating elements 2x80 W 2x80 W 2x80 W 2x80 W
Drain holes Standard, open on delivery.
Enclosure IP 55, higher protection as option.

ABB / Cat. BU / Ex-motors EN 01-2008 253
ABB High voltage motor's product offer
for hazardous areas
Flameproof motors
Type of protection: Ex d IIB/IIC T4, Ex de, IIB/IIC T4
Features: LV-11kV, 50/60 Hz, 2-18 poles, VSD applications, IP55, IC411, IC511, Horizontal or Vertical
Motor type IEC frame size Output kW
Ribs cooled 355 - 500 150 - 1250 kW
Tubes cooled 500 - 710 800 - 4500 kW
Pressurised motors
Type of protection: Ex px, Ex pxe; Temperature classes T1-T4, Gas groups A, B anc C
Features: 50/60 Hz, 2-24 poles, VSD applications, acc. to ATEX Directive and IEC standards
Induction motors 355 - 1120 up to 23 MW (31000 HP)
Synchronous motors 710 - 2500 up to 55 MW (74000 HP)
Increased safety motors
Type of protection: Ex e, Temperature classes T1-T3, Gas groups A, B and C
Features: 50/60 Hz, 2-24 poles, VSD applications, acc. to ATEX Directive and IEC Standards
Non-sparking motors
Type of protection: Ex nA, T1-T4, Gas groups A,B and C
Features: 50/60 Hz, 2-24 poles, VSD applications, acc. to ATEX Directive and IEC Standards, CSA/US certiﬁed
Motors for North America (NEC and CEC)
Type of protection: Class I Division 2, Class I Zone 2, Class II Division 2, Class III; T1-T4
Features: 50/60 Hz, 2-24 poles, VSD applications, designed for North American markets, CSA/US-certiﬁed
More information for these motors
can be found from web-pages:

254 ABB / Cat. BU / Ex-motors EN 01-2008
ABB Motors’ total product offer
ABB offers several comprehensive ranges of AC motors
and generators. We manufacture synchronous motors for
even the most demanding applications, and a full range
of low and high voltage induction motors. Our in-depth
knowledge of virtually every type of industrial
processing ensures we always specify the best solution
for your needs.
High voltage and synchronous motors
and generators
– High voltage cast iron motors
– Induction modular motors
– Slip ring motors
– Motors for hazardous areas
– Synchronous motors and generators
– DC motors and generators
General purpose motor for
standard applications
– Aluminum motors
– Steel motors
– Cast iron motors
– Open drip proof motors
– Global motors
– Brake motors
– Single phase motors
– Servomotors
Marine motors
– Aluminum motors
– Steel motors
– Cast iron motors
– Open drip proof motors
M000328
Process performance motors for
more demanding applications
– Aluminum motors
– Cast iron motors (IEC and NEMA)
– Motors for high ambient
temperatures
– Permanent magnet motors
– High speed motors
– Wind turbine generators
– Smoke venting motors
– Water cooled motors
– Motors for roller table drives
Motors for hazardous areas
– Flameproof motors
– Increased safety motors
– Non-sparking motors
– Dust ignition proof motors
Low voltage motors and generators

ABB / Cat. BU / Ex-motors EN 01-2008 255
Visit our web site
Motors and Generators
=> Motors
=> Low Voltage Motors
General purpose motors
Process performance motors
=> Motors for hazardous areas
Hazardous environment
International standards
Certiﬁcates
Gas protection
Dust ignition protection
Product range
Marine motors
NEMA motors
Permanent magnet motors
Smoke venting motors
Water cooled motors
Fan application motors
Roller table motors
=> Generators
Wind turbine generators

online.abb.com/bol
Low Voltage Motors
Manufacturing sites (*) and some of the larger sales companies.
9AKK104006EN01-2008
CatalogueBU/Ex-motors
PrintedinFinland,01-2008/8000,WaasaGraphicsOy
Australia
ABB Australia Pty Ltd
601 Blackburn Road
Notting Hill VIC 3168
Tel: +61 (0) 8544 0000
Fax: +61 (0) 8544 0001
Austria
ABB AG
Clemens Holzmeisterstrasse 4
AT-1810 Wien
Tel: +43 (0) 1 601 090
Fax: +43 (0) 1 601 09 8305
Belgium
Asea Brown Boveri S.A.-N.V.
Hoge Wei 27
BE-1930 Zaventem
Tel: +32 (0) 2 718 6311
Fax: +32 (0) 2 718 6657
Canada
ABB Inc., BA Electrical Machines
10300 Henri-Bourassa Blvd, West,
Saint-Laurent, Quebec
Canada H4S 1N6
Tel: +1 514 832-6583
Fax: +1 514 332-0609
China*
ABB Shanghai Motors Co., Ltd.
88 Tianning Road
Minhang(Economical and Techno-
logical Development Zone)
200245 Shanghai
Tel: +86 21 5472 3133
Fax: +86 21 5472 5025
Chile
Asea Brown Boveri S.A.
P.O.Box 581-3
Santiago
Tel: +56 (0) 2 5447 100
Fax: +56 (0) 2 5447 405
Denmark
ABB A/S
Automation Products
Emil Neckelmanns Vej 14
DK-5220 Odense SØ
Tel: +45 65 47 70 70
Fax: +45 65 47 77 13
Finland*
ABB Oy
Motors
P.O.Box 633
FI-65101 Vaasa
Tel: +358 (0) 10 22 11
Fax: +358 (0) 10 22 47372
France
ABB Entrelec
ZA La Boisse BP 90145
300 Rue des Prés-Seigneurs
FR-01124 Montluel Cedex
Tel: +33 4 37 40 40 00
Fax: +33 4 37 40 40 72
Germany
ABB Automation Products GmbH
Motors & Drives
Wallstaedter Strasse 59
DE-68526 Ladenburg
Tel: +49 (0) 6203 717 717
Fax: + 49 (0) 6203 717 600
Hong Kong
ABB (Hong Kong) Ltd.
Tai Po Industrial Estate,
3 Dai Hei Street,
Tai Po, New Territories,
Hong Kong
Tel: +852 2929 3838
Fax: +852 2929 3505
India*
ABB Ltd.
32, Industrial Area, N.I.T
Faridabad 121 001
Tel: +91 (0) 129 502 3001
Fax: +91 (0) 129 502 3006
Indonesia
PT. ABB Sakti Industri
JL. Gajah Tunggal Km.1
Jatiuwung, Tangerang 15136
Banten, Indonesia
Tel: + 62 21 590 9955
Fax: + 62 21 590 0115 - 6
Ireland
Asea Brown Boveri Ltd
Components Division
Belgard Road
Tallaght, Dublin 24
Tel: +353 (0) 1 405 7300
Fax: +353 (0) 1 405 7327
Italy*
ABB SACE SpA
LV Motors
Via dell' Industria 18
IT-20010 Vittuone, Milano
Tel: +39 02 90341
Fax: +39 02 9034 7289
Japan
ABB K.K.
26-1 Cerulean Tower
Sakuragaoka-cho, Shibuya-ku
Tokyo 150-8512
Tel: +81 (0) 3 578 46251
Fax: +81 (0) 3 578 46260
Korea
ABB Korea Ltd.
7-9ﬂ, Oksan Bldg., 157-33
Sungsung-dong, Kangnam-ku
Seoul
Tel: +82 2 528 2329
Fax: +82 2 528 2338
Malaysia
ABB Malaysia Sdn. Bhd.
Lot 608, Jalan SS 13/1K
47500 Subang Jaya, Selangor
Tel: +60 3 5628 4888
Fax: +60 3 5631 2926
Mexico
ABB México, S.A. de C.V.
Apartado Postal 111
CP 54000 Tlalnepantla
Edo. de México, México
Tel: +52 5 328 1400
Fax: +52 5 390 3720
The Netherlands
ABB B.V.
Dept. LV motors (APP2R)
P.O.Box 301
NL-3000 AH Rotterdam
Tel: +31 (0) 10 4078 879
Fax: +31 (0) 10 4078 345
Norway
ABB AS
P.O.Box 154 Vollebekk
NO-0520 Oslo
Tel: +47 22 872 000
Fax: +47 22 872 541
Russia
ABB Industrial & Building Systems
Ltd.
Business Centre "Krugozor"
Obrucheva 30/1, Building 2
Moscow 117861
Tel: +7 495 960 2200, 956 93 93
Fax: +7 495 960 2209, 230 63 46
Singapore
ABB Industry Pte Ltd
2 Ayer Rajah Crescent
Singapore 139935
Tel: +65 6776 5711
Fax: +65 6778 0222
Spain*
Automation Products - Fábrica
Motores
P.O.Box 81
ES-08200 Sabadell
Tel: +34 93 728 8500
Fax: +34 93 728 8741
Sweden*
ABB AB
LV Motors
SE-721 70 Västerås
Tel: +46 (0) 21 329 000
Fax: +46 (0) 21 329 140
Switzerland
ABB Schweiz AG
Normelec/CMC Components
Motors&Drives
Badenerstrasse 790
Postfach
CH-8048 Zürich
Tel: +41 (0) 58 586 0000
Fax: +41 (0) 58 586 0603
Taiwan
ABB Ltd.
6F, No. 126, Nanking East Road,
Section 4i
Taipei, 105 Taiwan, R.O.C.
Tel: +886 (0) 2 2577 6090
Fax: +886 (0) 2 2577 9467
Thailand
ABB Limited (Thailand)
161/1 SG Tower,
Soi Mahadlekluang 3,
Rajdamri, Bangkok 10330
Tel: +66 2 665 1000
Fax: +66 2 665 1042
The United Kingdom
ABB Ltd
Drives, Motors and Machines
Daresbury Park
Daresbury, Warrington
Cheshire, WA4 4BT
Tel: +44 (0) 1925 741 111
Fax: +44 (0) 1925 741 212
USA
ABB Inc.
Low Voltage Motors
16250 W. Glendale Drive
New Berlin, WI 53151
Tel: +1 262 785 3200
Fax: +1 262 780 8888
Venezuela
P.O.Box 6649
Carmelitas,
Caracas 1010A
Tel: +58 (0) 2 238 2422
Fax: +58 (0) 2 239 6383

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