Overload relays
- 1. TeSys E Designed for the essential Motorstarters CÔNG TY CỔ PHẦN THIẾT BỊ ĐIỆN HOÀNG PHƯƠNG ĐC: Số 10, ngõ 44, phố Võ Thị Sáu, P.Thanh Nhàn, Q.Hai Bà Trưng, TP. Hà Nội MST: 0106798886 Tel: 024.3215.1322 Website: Hoangphuong.com.vn Phone: 0944.240.317 / 0975.123.698 / 0961.008.858 Email: Codienhoangphuong@gmail.com
- 3. TeSys E contactors, 6 A to 300 A TeSys E thermal overload relays 0.1 A to 333 A TeSys E control relays 4 NO/NC contacts Coordination between protection and control components Contents
- 4. TeSysE:controlprotection, i Leader in the motor starter market for more than 80 years, Schneider Electric has designed TeSys E range to provide you with the competitive solutions you were expecting. TeSys E starters range is the perfect compromise between quality, features and price. A cost-effective offer The best price for the performance and quality level you need. A maximum of solutions with an optimal number of products. Designed to perform the essential starter's functions: control and overload protection. Simple and intuitive Easy to install. Covering 80 % of applications. With the key accessories to easily build lots of Do-It-Yourself solutions. With an intuitive commercial references system: easy to order, easy to understand and easy to remember. Guaranteed availability Available in distribution. TeSys E fully benefits from Schneider Electric world wide policies: in terms of standards of production, distribution, quality, availability, services and after-sales support.
- 5. inasimpleway Power control protection Tesys E offer Circuit control Circuit protection Tesys GS Tesys GV
- 6. TeSysE:contactors Motorstarters,contactorsrelaysupto300A TeSysE TeSys E contactors, 6 A to 300 A TeSys E thermal overload relays 0.1 A to 333 A TeSys E control relays 4 NO/NC contacts Coordination between protection and control components Glossary, definitions, technical information
- 7. andrelays Control your motors, Do It Yourself simply your solution: direct-on-line starter, reversing starter, star-delta starter Characteristics Accessories, spare parts Dimensions, mounting 8 14 19 Characteristics Dimensions, mounting 28 34 Footprint for complete compatibility with contactors (direct mounting under contactors) Characteristics Dimensions, mounting 40 43 Pilot your control circuits What coordination means 46 Better continuity of service Glossary 49 Definitions 50 Technical informations 51
- 8. TeSys E 3 polecontactors f Motorstarters,contactorsrelaysupto300A TeSysE Rated operational current AC3 A 6 9 12 18 25 32 38 40 50 65 Rated operational current AC1 A 20 25 32 36 50 60 70 80 Rated operational power in AC-3 220/230 V kW 1.1 2.2 3 4 5.5 7.5 9 11 15 18.5 380/400 V 2.2 4 5.5 7.5 11 15 18.5 18.5 22 30 415/440 V 2.2 4 5.5 9 11 15 18.5 22 25/30 37 500 V 3 5.5 7.5 10 15 18.5 18.5 22 30 37 690 V 3 5.5 7.5 10 15 18.5 18.5 30 33 37 Size 1 2 3 Width mm 45 56 75 Coil rated operating voltage 24...440 V AC according to the coil voltage code (see below) Auxiliary built in contact 1 NO or 1 NC 1 NO + 1 NC References(1) LC1E06 LC1E09 LC1E12 LC1E18 LC1E25 LC1E32 LC1E38 LC1E40 LC1E50 LC1E65 Coil voltage code 24 48 110 220 240 380 415 440 50 Hz B5 E5 F5 M5 U5 Q5 N5 R5 60 Hz B6 - F6 M6 - Q6 - R6 Contactor: how to determine the full commercial reference ? Example: LC1E 12 10 U 5 ref. LC1E1210U5 5 50 Hz Coil voltage code 240 V Auxiliary contact configuration (2) 1 Normaly Closed (NC) 0 Normaly Open (NO) Raited operational current AC3 12 A Contactor TeSys E Example 1: you need a 32 A contactor, 1 NC auxiliary contact, 24 V - 50 Hz coil C LC1E3201B5 Example 2: you need a 120 A contactor, 1 NC + NO auxiliary contact, 220 V - 50 Hz coil C LC1E120M5 (2) Only up to LC1E38. (1) Partial, see below.
- 9. from 6 to 300 A 80 95 120 160 200 250 300 110 120 150 200 250 300 320 22 25 37 45 55 75 90 37 45 55 90 110 132 160 45 45 55 90 110 132 160 45 55 75 90 110 132 160 45 45 75 90 110 132 160 4 5 6 7 85 120 168.5 213 1 NO + 1 NC - LC1E80 LC1E95 LC1E120 LC1E160 LC1E200 LC1E250 LC1E300 Utilisation categories Class AC-1: AC loads with cos j at least equal to 0.95 (resistive load, heating, distribution, etc.). Class AC-3: squirrel-cage motors with breaking taking place with the motor running. Common characteristics Contactors compatible with: LAENp auxiliary contact blocks (see page 16) LAETSD time delay auxiliary contact (from 25 A contactor) (see page 16) LAERCpp RC switch suppressor (up to 95 A) (see page 15) LAEMp mechanical interlock (see page 15) LAEPp set of power connections (up to 95 A) (see page 15)
- 10. Characteristics Power circuit characteristics Contactor type LC1E06 LC1E09 LC1E12 LC1E18 Number of poles 3 Rated operational current (Ie) (Ue y 440 V) In AC-3 (θ y 60 °C) A 6 9 12 18 In AC-3 (θ y 55 °C) – In AC-1 (θ y 60 °C) 20 25 32 In AC-1 (θ y 40 °C) – Rated operational voltage (Ue) Up to V 690 Frequency limits Of the operational current Hz 50/60 Conventional thermal current (Ith) θ y 60 °C A 20 25 32 θ y 40 °C Rated breaking capacity at 440 V Conforming to IEC 60947 A 48 72 96 144 Rated making capacity at 440 V Conforming to IEC 60947-4-1 A 60 90 120 180 Permissible short time rating No current flowing for preceding 15 minutes with θ y 40 °C 10 s A 80 105 145 1 min 45 61 84 10 min 20 30 40 Maximum permissive current No current flowing for previous 60 minutes, at θ y 40 °C For 10 s A – Protection by fuses against short-circuits (U y 690 V) Without thermal overload relay gG fuse Type 1 A 12 20 25 35 With thermal overload relay For corresponding aM or gG fuse ratings corresponding to the associated LREp thermal overload relay, please see page 33 Average impedance per pole At Ith and 50 Hz mΩ 2.5 Power dissipation per pole for the above operational currents AC-3 W 0.09 0.20 0.36 0.81 AC-1 1.0 1.6 2.6 Electrical durability AC-3 (Ue y 440 V) Million cycles 1.4 1.2 AC-1 (Ue y 440 V) 0.15 0.3 AC-4 (Ue y 440 V) 0.04 0.035 Mechanical durability 10 Power circuit connections Connection maximum c.s.a. Flexible cable with cable end 1 conductor mm2 1...4 2 conductors 1...2.5 Solid cable without cable end 1 conductor mm2 1...4 1.guatda.com/cmx.p5...6 2 conductors 1...4 1.guatda.com/cmx.p5...6 Cable with lug mm – Bar Number of bars – Bar mmx mm – Bolt diameter 1 conductor mm – Tightening torque Power circuit connection N.m 1.2 Tool Philips N° 2 or Ø6 mm flat TeSysEcontactors 6to300A Powercharacteristics
- 11. LC1E25 LC1E32 LC1E38 LC1E40 LC1E50 LC1E65 LC1E80 LC1E95 LC1E120 LC1E160 LC1E200 LC1E250 LC1E300 25 32 38 40 50 65 80 95 – 120 160 200 250 300 36 50 60 70 80 110 120 – 150 200 250 300 320 36 50 60 70 80 110 120 – 150 200 250 300 320 200 256 304 320 400 520 640 760 960 1280 1600 2000 2400 250 320 380 400 500 650 800 950 1200 1600 2000 2500 3000 240 260 310 320 400 520 640 800 – 120 138 150 165 208 260 320 400 – 50 60 72 84 110 135 – 1100 1400 1500 1800 2200 40 63 80 100 125 160 250 315 500 – 2.5 1.5 1 0.8 0.6 0.33 0.32 0.3 1.6 2.0 2.9 2.4 3.8 4.2 5.1 7.2 8.6 15 13 20 27 3.2 5.0 5.4 7.4 6.4 9.7 12 14 24 21 29 31 1 0.9 0.8 0.35 0.25 0.03 0.025 0.012 0.007 0.006 0.005 8 5 3 4 5 1...6 2.guatda.com/cmx.p5...25 4...50 10...120 – 1...4 2.guatda.com/cmx.p5...10 4...16 10...120 + 10...50 – 2.guatda.com/cmx.p5...25 4...50 10...120 – 2.guatda.com/cmx.p5...16 4...50 10...120 + 10...50 – 150 185 240 2 3 x 25 4 x 32 5 x 30 M8 M10 1.5 2.1 5 9 12 18 35 Ø8 mm flat Ø8 mm flat or Allen key n°4 Allen key n°4 Wrench
- 12. 10 Control circuit: coil characteristics with a.c. supply Contactor type LC1E06 LC1E09 LC1E12 LC1E18 Rated control circuit voltage (Uc) 50/60 Hz V 24...440 according coil voltage code Control voltage limits (θ y 55 °C) 50 Hz or 60 Hz coils Operational 0.guatda.com/cmx.p85...1.1 Uc Drop-out 0.guatda.com/cmx.p3...0.6 Uc Average consumption at 20°C and at Uc a 50 Hz coils Inrush coil VA 95 cos ϕ 0.75 Sealed coil VA 8.5 cos ϕ 0.3 a 60 Hz coils Inrush coil VA 95 cos ϕ 0.75 Sealed coil VA 8.5 cos ϕ 0.3 Heat dissipation W 2.3 Operating time Closing C ms 12...22 Opening O 4...19 Electrical durability (AC-3) AC-3 (Ue y 440 V) In millions of operating cycles 1.guatda.com/cmx.p2...1.4 AC-1 (Ue y 440 V) – Mechanical durability at Uc 10 Maximum operating rate at ambiant temperature y 60 °C In operating cycles per hour 1800 Maximum operating rate at ambiant temperature y 55 °C – Control circuit connections Connection maximum c.s.a. Flexible cable without cable end 1 or 2 conductors mm2 1...4 Flexible cable with cable end 1 conductor mm2 1...4 2 conductors 1...2.5 Solid cable without cable end 1 or 2 conductors mm2 1...4 Tightening torque N.m 1.7 Screwdriver Philips N° 2 - Ø6 mm flat Built in auxiliary contact Contacts conforming to IEC 60947-5-1 LC1E06...E38: contactor's own 1NO or 1NC LC1E40...E160: contactor's own 1NO and 1NC Rated operational voltage (Ue) Up to V 690 Rated insulation voltage (Ui) Conforming to IEC 60947-1 690 Conventional thermal current (Ith) Ambient air temperature y 60 °C A 10 Operating current frequency Hz 50/60 Hz Minimum switching capacity l = 10-8 U min V 17 I min mA 5 Short-circuit protection Conforming to IEC 60947-5-1 gG fuse: 10 A Raked making capacity Conforming to IEC 60947-5-1 A a: 140 Short-time rating Permissible for 1 s A 100 500 ms 120 100 ms 140 Insulation resistance MW 10 Non-overlap time Guaranteed between N/C and N/O contacts ms 1.5 on energisation and on de-energisation Characteristics TeSysEcontactors 6to300A Controlcircuit:coilcharacteristics Builtinauxiliarycontact
- 13. 11 LC1E25 LC1E32 LC1E38 LC1E40 LC1E50 LC1E65 LC1E80 LC1E95 LC1E120 LC1E160 LC1E200 LC1E250 LC1E300 24...440 according coil voltage code – 70 160 200 300 805 650 0.8 0.9 0.3 0.9 7 15 20 22 55 10 0.3 0.9 0.3 0.9 70 140 220 300 970 650 0.8 0.9 0.3 0.9 7.5 13 22 22 66 10 0.9 0.3 0.9 6...10 3...8 18...24 8 20...26 20...35 20...50 – 40...65 8...12 6...20 6...20 7...15 100...170 1 0.9 0.8 0.4 8 5 3 1200 – 1200 1...2.5 1...4 1...2.5 1...2.5 1...4 1.2 1.2
- 14. 12 Characteristics TeSysEcontactors 6to300A Environment Contactor type LC1E06...E18 LC1E25...E38 Rated insulation voltage (Ui) Conforming to IEC 60947-4-1, overvoltage category III, degree of pollution: 3 V 690 Rated impulse withstand voltage (Uimp) Conforming to IEC 60947 kV 6 Conforming to standards IEC 60947-4-1, IEC 60947-5-1 Product certifications GOST Degree of protection Conforming to IEC 60529 IP20 Protective treatment Conforming to IEC 60068 TH Ambiant air temperature Storage °C -60...+80 around the device Operation -5...+55 Permissible at UC (2) -20...+70 Maximum operating altitude Without derating m 3000 Operating positions Without derating ±30° in relation to normal vertical mounting plane 9 0 ° 90° 0° 8 1 Flame resistance Conforming to IEC 60695-2-1 °C 850 °C Shock resistance (3) Contactor open 7 gn 6 gn 1/2 sinewave = 11 ms Contactor closed 10 gn Vibration resistance (3) Contactor open 1.5 gn 5...300 Hz Contactor closed 3 gn (1) Derating, please call your regional sales. (2) Derating see page 49. (3) Without change of contact states, in the most unfavorable direction (coil energised at Ue). Installation recommandations Avoid fire, product damage or power loss with a safe enclosure Severe conditions such as dust, humidity, high temperature can result in people or equipments exposed to serious risks if the suitable protection of the electrical components is not taken. Spacial CRN steel enclosures is one of our solutions A complete offer with 39 dimensions from 200 x 200 x 150 mm to 1000 x 800 x 300 mm: with plain door, without plain mounting plate with plain door and plain mounting plate with glazed door, without plain mounting plate. Degree of protection IP 66. Compliance with standard IEC 62208. A wide range of accessories to fit to all your applications. Spacial CRN, suitable for any application Indoors with harsh and dirty environments like machines, manufacturing plants, and logistic centers. Specific optional devices re-enforce the protection: fans, filters. b b b b b b
- 15. 13 LC1E40...E65 LC1E80...E95 LC1E120...E160 LC1E200...E300 8 IEC 60947-4-1 IP00 – 3 0 ° 9 0 ° 7 gn
- 16. 14 Characteristics TeSysEcontactors TeSysEcontactorsformotorcontrolup to160kWat400V,incategoryAC-3 3-pole contactors Standard power ratings of 3-phase motors 50/60 Hz in category AC-3 Rated operational current in AC-3 440 V up to Instantaneous auxiliary contacts Basic reference, to be completed by adding the control voltage code Weight 220 V 230 V 380 V 400 V 415 V 500 V 690 V Fixing (1) kW kW kW kW kW A kg Connection by screw clamp terminals 1.1 2.2 2.2 3 3 6 1 0 LC1E0610pp 0.300 1.1 2.2 2.2 3 3 6 0 1 LC1E0601pp 0.300 2.2 4 4 5.5 5.5 9 1 0 LC1E0910pp 0.300 2.2 4 4 5.5 5.5 9 0 1 LC1E0901pp 0.300 3 5.5 5.5 7.5 7.5 12 1 0 LC1E1210pp 0.300 3 5.5 5.5 7.5 7.5 12 0 1 LC1E1201pp 0.300 4 7.5 9 10 10 18 1 0 LC1E1810pp 0.300 4 7.5 9 10 10 18 0 1 LC1E1801pp 0.300 5.5 11 11 15 15 25 1 0 LC1E2510pp 0.360 5.5 11 11 15 15 25 0 1 LC1E2501pp 0.360 7.5 15 15 18.5 18.5 32 1 0 LC1E3210pp 0.450 7.5 15 15 18.5 18.5 32 0 1 LC1E3201pp 0.450 9 18.5 18.5 18.5 18.5 38 1 0 LC1E3810pp 0.450 9 18.5 18.5 18.5 18.5 38 0 1 LC1E3801pp 0.450 11 18.5 22 22 30 40 1 1 LC1E40pp 0.980 15 22 25/30 30 33 50 1 1 LC1E50pp 0.980 18.5 30 37 37 37 65 1 1 LC1E65pp 0.980 22 37 45 45 45 80 1 1 LC1E80pp 1.520 25 45 45 55 45 95 1 1 LC1E95pp 1.520 37 55 55 75 75 120 1 1 LC1E120pp 2.300 45 90 90 90 90 160 1 1 LC1E160pp 2.300 Connection by bars 55 110 110 110 110 200 0 0 LC1E200pp 4.600 75 132 132 132 132 250 0 0 LC1E250pp 4.700 90 160 160 160 160 300 0 0 LC1E300pp 8.500 Control voltage code Volts 24 48 110 220 240 380 415 440 LC1Eguatda.com/cmx.p06...300 50 Hz B5 E5 F5 M5 U5 Q5 N5 R5 60 Hz B6 - F6 M6 - Q6 - R6 Seperate components Auxiliary contact blocks, add-on modules and accessories, see pages 15 to 17. Coil spare parts For maintenance, each coil can be ordered separatly, see page 18 to 21. (1) LC1E06 to E65: clip-on mounting on 35 mm 5 rail AM1 DP or screw fixing. LC1E80 to E95: clip-on mounting on 35 mm 5 rail AM1DP or 75 mm 5 rail AM1 DL or screw fixing. LC1E120 and E160: clip-on mounting on 2 x 35 mm 5 rail AM1 DP or screw fixing. LC1E06 LC1E65 LC1E120 LC1E300
- 17. 15 AccessoriesforLC1Econtactor Accessories for motor reverse assembly Contactors with screw clamp terminals Using 2 identical contactors Set of power connections Mechanical interlock Cat. no. Weight kg Cat. no. Weight kg Mechanical interlock LC1E06...E12 LAEP1 0.020 LAEM1 0.030 LC1E18/E25 LAEP12 0.026 LAEM1 0.030 LC1E32/E38 LAEP2 0.040 LAEM1 0.030 LC1E40...E65 LAEP3 0.230 LAEM1 0.030 LC1E80/E95 LAEP4 0.465 LAEM4 0.095 LC1E120/E160 – (DIY) (1) LAEM5 0.300 LC1E200/E250 – (DIY) (1) LAEM6 0.110 LC1E300 – (DIY) (1) LAEM7 0.250 (1) DIY : Do It Yourself. RC surge suppressor Effective protection for circuits highly sensitive to high frequency interference and transcient generated when the contactor coil is switched off. For use only in cases where the voltage is virtually sinusoidal, i.e. less than 5 % total harmonic distortion. Voltage limited to 3 Uc max. and oscillating frequency limited to 400 Hz max. Slight increase in drop-out time (1.2 to 2 times the normal time). b b b Mounting For use with contactor Cat. no. Weight Rating Type Va kg Screw mounting LC1E06...E95 24...48 LAERCE 0.025 50...127 LAERCG 0.025 110...240 LAERCU 0.025 380...415 LAERCN 0.025 LC1Epp LAERCp LAEM1 LAEP3 LAEP4 LAEM6/ LAEM7
- 18. 16 Instantaneous auxiliary contact blocks for connection by screw lamps terminals For use in normal operating environment Clip-on mounting Number of contacts per block Cat. no. Weight kg Front 1 NO / 1 NC LAEN11 0.035 LAEN22 2 NO LAEN20 0.035 2 NC LAEN02 0.035 2 NO / 2 NC LAEN22 0.060 Time delay auxiliary contact blocks for connection by screw clamp terminals 8 A - 690 V Clip-on mounting Number of contacts per block Time delay Setting range Cat. no. (1) Weight Type kg LAETSD Front 1 NO / 1 NC On-delay 1...30 s LAETSD 0.060 (1) For use only LC1E25 to LC1E300. Instantaneous and time delay contact characteristics Contact block type LAEN11, 20, 02, 22 LAETSD Number of contacts 2 or 4 2 Rated operational voltage (Ue) Up to V 690 Rated insulation voltage (Ui) Conforming to IEC 60947-5-1 690 Conventional thermal current (Ith) For ambient temperature θ y 60 °C A 8 Frequency of the operational current Hz 50/60 Minimum switching capacity U min V 17 I min mA 5 Short-circuit protection Conforming to IEC 60947-5-1 A 10 Rated making capacity Conforming to IEC 60947-5-1 Irms a 140 Short-time rating Permissible for 1 s A 100 500 ms 120 100 ms 140 Insulation resistance mΩ 10 Non-overlap time Guaranteed between NC and NO contacts ms 1.5 (on energisation and on de-energisation) Overlap time Guaranteed between LAE N22 N/C and N/O contacts ms – Time delay Ambient air temperature for operation °C – -20...+70 Repeat accuracy – ±2 % Drift up to 0.5 million operating cycles – +15 % Drift depending on ambient air temperature – 0.25 % per °C Mechanical durability In millions of operating cycles 10 4 Rated operational power of contacts (Conforming to IEC 60947-5-1) a.c. supply categories AC14/15 V 24 48 115 230 400 440 1 million operating cycles VA 60 120 280 560 960 1050 3 million operating cycles 16 32 80 160 280 300 10 million operating cycles 4 8 20 4 70 80 Characteristics TeSysEcontactors AccessoriesforLC1Econtactor
- 19. 17 AccessoriesforLC1E Environment Contact block type LAEN11, 20, 02, 22 LAETSD Conforming to standard IEC 60947-5-1 Product certifications GOST Protective treatment Conforming to IEC 60068 TH Degree of protection Conforming to IEC 60529 IP20 Ambiant air temperature Storage °C -60...+80 Operation -5...+55 Permissible for operation at Uc -20...+70 Maximum operating altitude Without derating m 3000 Connection by cable Philips N° 2 and Ø 6 mm. Flexible or solid cable with or without cable end mm2 Min: 1 x 1 Max: 2 x 2.5 Accessories compatibility Contactor Built in contacts LAENpp LAETSD LAERCp LAEM LAEPp LC1E06 1 NO or 1NC 1 - 1 1 1 LC1E09 LC1E12 LC1E18 LC1E25 1 or 1 LC1E32 LC1E38 LC1E40 1 NO + 1NC LC1E50 LC1E65 LC1E80 LC1E95 LC1E120 - DIY (1) LC1E160 LC1E200 - 2 or 0 1 or 1 LC1E250 LC1E300 (1) Do It Yourself.
- 20. 18 Characteristics TeSysEcontactors CoilreplacementforTeSysE, LC1E06toE38 For 3-pole contactors LC1E06...E18 Specifications Average consumption at 20 °C: inrush (cos ϕ = 0.75) 50 Hz: 95 VA; 60 Hz: 95 VA sealed (cos ϕ = 0.3) 50 Hz: 8.5 VA; 60 Hz: 8.5 VA Operating range (θ y 55 °C): 0.guatda.com/cmx.p85...1.1 Uc. b b Control circuit voltage Uc Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Weight V Ω H 50 Hz Ω H 60 Hz kg 24 8.70 0.24 LAEX1B5 7.80 0.15 LAEX1B6 0.056 48 37.0 1.00 LAEX1E5 - - - 0.056 110 190 4.64 LAEX1F5 170 3.07 LAEX1F6 0.056 220 750 19.7 LAEX1M5 690 11.6 LAEX1M6 0.056 240 890 23.4 LAEX1U5 - - - 0.056 380 2250 58.3 LAEX1Q5 2110 35.4 LAEX1Q6 0.056 415 2610 69.0 LAEX1N5 - - - 0.056 440 2690 78.2 LAEX1R5 2760 50.7 LAEX1R6 0.056 For 3-pole contactors LC1E25 Specifications Average consumption at 20 °C: inrush (cos ϕ = 0.75) 50 Hz: 70 VA; 60 Hz: 70 VA sealed (cos ϕ = 0.3) 50 Hz: 7 VA; 60 Hz: 7.5 VA Operating range (θ y 55 °C): 0.guatda.com/cmx.p85...1.1 Uc. b b Control circuit voltage Uc Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Weight V Ω H 50 Hz Ω H 60 Hz kg 24 5.37 0.21 LAEX12B5 5.37 0.18 LAEX12B6 0.067 48 21.7 0.84 LAEX12E5 - - - 0.067 110 124 4.41 LAEX12F5 124 3.68 LAEX12F6 0.067 220 515 17.6 LAEX12M5 516 14.7 LAEX12M6 0.067 240 562 21.0 LAEX12U5 - - - 0.067 380 1550 52.6 LAEX12Q5 1550 43.8 LAEX12Q6 0.067 415 1690 62.8 LAEX12N5 - - - 0.067 440 1990 70.6 LAEX12R5 1990 58.9 LAEX12R6 0.067 For 3-pole contactors LC1E32/E38 Specifications Average consumption at 20 °C: inrush (cos ϕ = 0.75) 50 Hz: 70 VA; 60 Hz: 70 VA sealed (cos ϕ = 0.3) 50 Hz: 7 VA; 60 Hz: 7.5 VA Operating range (θ y 55 °C): 0.guatda.com/cmx.p85...1.1 Uc. b b Control circuit voltage Uc Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Weight V Ω H 50 Hz Ω H 60 Hz kg 24 5.37 0.21 LAEX2B5 5.37 0.18 LAEX2B6 0.073 48 21.7 0.84 LAEX2E5 - - - 0.073 110 124 4.41 LAEX2F5 124 3.68 LAEX2F6 0.073 220 515 17.6 LAEX2M5 516 14.7 LAEX2M6 0.073 240 562 21.0 LAEX2U5 - - - 0.073 380 1550 52.6 LAEX2Q5 1550 43.8 LAEX2Q6 0.073 415 1690 62.8 LAEX2N5 - - - 0.073 440 1990 70.6 LAEX2R5 1990 58.9 LAEX2R6 0.073 (1) The last two digits in the reference represent the voltage code. LAEX1pp LAEX2pp
- 21. 19 CoilreplacementforTeSysE, LC1E40toE160 For 3-pole contactors LC1E40...E65 Specifications Average consumption at 20 °C: inrush (cos ϕ = 0.75): 50 Hz: 160 VA; 60 Hz: 140 VA sealed (cos ϕ = 0.3) 50 Hz: 15 VA; 60 Hz: 13 VA Operating range (θ y 60 °C): 0.guatda.com/cmx.p85...1.1 Uc b b Control circuit voltage Uc Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Weight V Ω H 50 Hz Ω H 60 Hz kg 24 1.98 0.12 LAEX3B5 1.98 0.10 LAEX3B6 0.110 48 7.97 0.48 LAEX3E5 - - - 0.110 110 42.3 2.51 LAEX3F5 42.3 2.09 LAEX3F6 0.110 220 182 10.0 LAEX3M5 182 8.36 LAEX3M6 0.110 240 202 12.0 LAEX3U5 - - - 0.110 380 512 30.3 LAEX3Q5 512 25.3 LAEX3Q6 0.110 415 635 35.8 LAEX3N5 - - - 0.110 440 682 40.1 LAEX3R5 682 33.4 LAEX3R6 0.110 For 3-pole contactors LC1E80/E95 Specifications Average consumption at 20 °C: inrush (cos ϕ = 0.75) 50 Hz: 200 VA; 60 Hz: 220 VA sealed (cos ϕ = 0.3) 50 Hz: 20 VA; 60 Hz: 22 VA Operating range (θ y 55 °C): 0.guatda.com/cmx.p85...1.1 Uc. b b Control circuit voltage Uc Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Weight V Ω H 50 Hz Ω H 60 Hz kg 24 1.4 0.09 LAEX4B5 1.05 0.06 LAEX4B6 0.145 48 5.5 0.35 LAEX4E5 - - - 0.145 110 31.0 1.90 LAEX4F5 22.0 1.20 LAEX4F6 0.145 220 127 7.50 LAEX4M5 98 4.80 LAEX4M6 0.145 240 152 8.70 LAEX4U5 - - - 0.145 380 381 22.0 LAEX4Q5 300 14.0 LAEX4Q6 0.145 415 463 26.0 LAEX4N5 - - - 0.145 440 513 30.0 LAEX4R5 392 19.0 LAEX4R6 0.145 LAEX4pp For 3-pole contactors LC1E120/E160 Specifications Average consumption at 20 °C: inrush (cos ϕ = 0.8) 50 Hz: 300 VA sealed (cos ϕ = 0.8) 50 Hz: 22 VA Operating range (θ y 55 °C): 0.guatda.com/cmx.p85...1.1 Uc. b b Control circuit voltage Uc Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Weight V Ω H 50 Hz Ω H 60 Hz kg 24 1.24 0.09 LAEX5B5 0.87 0.07 LAEX5B6 0.210 48 4.51 0.36 LAEX5E5 - - - 0.210 110 26.5 2.00 LAEX5F5 20.0 1.45 LAEX5F6 0.210 220 105 7.65 LAEX5M5 79.6 5.69 LAEX5M6 0.210 240 125 8.89 LAEX5U5 - - - 0.210 380 339 22.3 LAEX5Q5 243 17.0 LAEX5Q6 0.210 415 368 27.7 LAEX5N5 - - - 0.210 440 442 30.3 LAEX5R5 339 22.3 LAEX5R6 0.210 (1) The last two digits in the reference represent the voltage code. LAEX5pp
- 22. 20 TeSysEcontactors Coilreplacementfor TeSys E, LC1E200toE300 LAEX6pp LAEX7pp For 3-pole contactors LC1E200...E250 Specifications Average consumption at 20 °C: inrush (cos ϕ = 0.9) 50 Hz: 805 VA; 60 Hz: 970 VA sealed (cos ϕ = 0.3) 50 Hz: 55 VA; 60 Hz: 66 VA Heat dissipation: 18...24 W. Operating time à Uc: closing = 20...35 ms, opening = 7...15 ms. b b Control circuit voltage Uc Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Weight V Ω H 50 Hz Ω H 60 Hz kg 24 0.18 0.03 LAEX6B5 0.13 0.02 LAEX6B6 0.510 48 0.71 0.12 LAEX6E5 - - - 0.510 110 4.2 0.65 LAEX6F5 2.7 0.44 LAEX6F6 0.510 220 17 2.59 LAEX6M5 11.1 1.80 LAEX6M6 0.510 240 20 3.09 LAEX6U5 - - - 0.510 380 51.3 7.8 LAEX6Q5 34 5.3 LAEX6Q6 0.510 415 62.3 9.1 LAEX6N5 - - - 0.510 440 62.3 9.1 LAEX6R5 43.5 6.9 LAEX6R6 0.510 For 3-pole contactors LC1E300 Specifications Average consumption at 20 °C: inrush (cos ϕ = 0.9) 50 Hz or 60 Hz: 650 VA sealed (cos ϕ = 0.3) 50 Hz or 60 Hz: 10 VA. Heat dissipation: 8 W. Operating time à Uc: closing = 40...65 ms, opening = 100...170 ms. Operate on networks with harmonic numbers y 7. Operating cycles/hour (θ y 55 °C): y 2400 b b Control circuit voltage Uc Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Average resistance at 20 °C ±10 % Inductance of closed circuit Cat. no. (1) Weight V Ω H 50 Hz Ω H 60 Hz kg 24 20 (2) LAEX7B5 20 (2) LAEX7B6 0.770 48 67 (2) LAEX7E5 - - - 0.770 110 440 (2) LAEX7F5 440 (2) LAEX7F6 0.770 220 1578 (2) LAEX7M5 1578 (2) LAEX7M6 0.770 240 1968 (2) LAEX7U5 - - - 0.770 380 4631 (2) LAEX7Q5 4631 (2) LAEX7Q6 0.770 415 4631 (2) LAEX7N5 - - - 0.770 440 6731 (2) LAEX7R5 6731 (2) LAEX7R6 0.770 (1) The last two digits in the reference represent the voltage code. (2) Please consult your Regional Sales Office. Characteristics
- 23. 21 ReplacementcontactsforTeSysE, LC1E120to300 LAEC6 Sets of contacts Per pole: 2 fixed contacts, 1 moving contact , 2 deflectors, 1 back-plate, clamping screws and washers. For contactor Type Replacement for Cat. no. 50 Hz Weight kg 3-pole LC1E120 3 poles LAEC5 (1) 0.350 LC1E160 3 poles LAEC51 (1) 0.350 LC1E200 3 poles LAEC6 (1) 0.350 LC1E250 3 poles LAEC61 (1) 0.660 LC1E300 3 poles LAEC7 (1) 2.000 (1) Available S1 2012.
- 24. 22 Dimensionsandmouting TeSysEcontactors LC1E06toE95 LC1E06...E25 LC1E32/38 c2 c1 90 LAERCp LAERCp c2 c1 LC1 E06...E18 E25 LC1 E32/38 c 80 85 c 86 c1 with LAEN 113 118 c1 with LAEN 120 c2 with LAETSD - 136 c2 with LAETSD 138 LC1E06...E25 LC1E32/38 50 C G 2 x Ø4.5 2 x Ø4.8 60/70 C G 2 x Ø4.5 LC1 E06 E09 E12 E18 E25 LC1 E32/38 c 80 80 80 80 85 c 86 G 35 35 35 35 35 G 40 LC1E40...E65 LC1E80/95 c2 LAERCp c2 LAERCp LC1 E40...E65 LC1 E80/95 a 75 a 85 b1 with LAERCp 135 b1 with LAERCp 135 c 114 c 121 c1 with LAENp 147 c1 with LAENp 153 c2 with LAETSD 165 c2 with LAETSD 171 2 x LC1E06...E65 with LAEM1 2 x LC1E80/95 with LAEM4 b 184 121 127 LC1 Eguatda.com/cmx.p06...25 Eguatda.com/cmx.p32...38 Eguatda.com/cmx.p40...65 a 74 84 127 b 104 126 164 c 80 86 114
- 25. 23 LC1E120and160A LC1E120/160 On panel with accessories On 2 mounting rails DZ5 MB on 120 mm centres c (AM1 DP200 or DR200) 134.5 c (AM1 DE200 or EDppp) 150 On Panel LC1E120 LC1E160 c (AM1 DP200 or DR200) 132 132 G 91/110 96/110 2 x LC1E120 or LC160 with LAEM5 2 x LC1E120 or 160 a c e1 e2 G For 120 and 160 266 148 56 18 242/256 c, e1 and e2: including cabing 158 c a c1 c2 10 100 = = 158 c 130 = = 158 c G = = 158 e1 e2 c G a = = 130 = = a 120 c Without add-on blocks 132 c1 With LAEN 150 c2 With LAETSD 168
- 26. 24 TeSysEcontactors LC1E200,E250andE300A LC1E200 - LC1E250 - LC1E300 On panel X1 (mm) = minimum electrical clearence according to operating voltage and breaking capacity. 220...500 V 600...690 V LC1E200 10 15 LC1E250, 300 10 15 a b b1 c f G G1 J J1 L M P Q Q1 S Y Z LC1E200 168.5 174 137 181 130 111 80 106 120 113.5 154 40 29 59.5 20 44 13.5 LC1E250 168.5 197 137 181 130 111 80 106 120 113.5 172 48 21 51.5 25 44 13.5 LC1E300 213 206 145 219 147 154.5 96 106 120 145 181 48 43 74 25 38 20.5 f = minimum distance required for coil removal. a b b1 c G1 J J1 L P1 2 x LC1E200 357 174 137 181 80 78 59.5 113.5 78 2 x LC1E250 357 197 137 181 80 78 59.5 113.5 62 2 x LC1E300 447 206 145 219 96 124 65.5 145 107 2 x LC1E200 or LC1E250 with LAEM6 - 2 x LC1E300 with LAEM7 X1 (mm) = minimum electrical clearence according to operating voltage and breaking capacity. 220...500 V 600...690 V LC1E200 10 15 LC1E250, 300 10 15 110/120 = = = G1 J1 = = G1 = J1 J a b P1 L c b b1 X1 X1 J J1 b1 = = G1 G Z = = Y L c b X1 X1 f M f a Dimensionsandmouting
- 27. 25 Schemes TeSysEcontactors LC1E06...300A Contactors LC1Eguatda.com/cmx.p06...38 LC1Eguatda.com/cmx.p40...95 LC1E120/160 LC1E200, 250, 300 A1 A2 13/NO 14 1/L1 2/T1 3/L2 5/L3 4/T2 6/T3 A1 A2 1/L1 2/T1 3/L2 5/L3 22 21/NC 4/T2 6/T3 A1 A2 13/NO 14 1/L1 2/T1 3/L2 5/L3 22 21/NC 4/T2 6/T3 A1 A2 13/NO 14 1/L1 2/T1 3/L2 5/L3 22 21/NC 4/T2 6/T3 A1 A2 1/L1 2/T1 3/L5 4/T2 5/L3 6/T3 Reversing contactors 2 x LC1Eguatda.com/cmx.p06...38 2 x LC1Eguatda.com/cmx.p40...95 Horizontaly mounted A1 A2 1 2 3 4 5 6 L1 L2 L3 1 2 3 4 5 6 U V W A1 A2 22 21/NC 22 21/NC 14 A1 A2 1 2 3 4 5 6 L1 L2 L3 1 2 3 4 5 6 U V W 13/NO 14 13/NO A1 A2 22 21/NC 22 21/NC 2 x LC1E120, 160 2 x LC1E200, 250, 300 Horizontaly mounted 14 A1 A2 1 2 3 4 5 6 L1 L2 L3 1 2 3 4 5 6 U V W 13/NO 14 13/NO A1 A2 22 21/NC 22 21/NC A1 A2 1 2 3 4 5 6 L1 L2 L3 1 2 3 4 5 6 U V W A1 A2 Front mounting add-on contact blocks 1NO + 1NC (LAEN11) 2NO (LAEN20) 2NC (LAEN02) 2NO +2NC (LAEN22) 53/NO 54 62 61/NC 53/NO 54 64 63/NO 52 51/NC 62 61/NC 62 61/NC 83/NO 84 71/NC 72 53/NO 54
- 28. 26 Schemes TeSysEcontactors LC1E06...300A Time delay auxiliary contacts On delay 1NO + 1NC (LAETSD) 56 55/NC 67/NO 68 Mechanical interlock LAEMp A1 A2 – KM2 – KM1 A1 A2 – KM1 – KM2
- 29. 27
- 30. 28 Common characteristics Class: 10 A. Operating voltage: max. 690 V AC. TeSysEthermal Motorstarters,contactorsrelaysupto300A TeSysE Thermal overload relay Commercial reference Possible Imax calibration Compatible with contactor (size 1 2) Commercial reference LC1E06 LC1E09 LC1E12 LC1E18 LC1E25 LC1E32 LC1E38 LRE01 0,10 ...0,16 A b b b b b b b LRE02 0,16 … 0,25 A b b b b b b b LRE03 0,25… 0,40 A b b b b b b b LRE04 0,40…0,63 A b b b b b b b LRE05 0,63…1 A b b b b b b b LRE06 1…1,6 A b b b b b b b LRE07 1,6 … 2,5 A b b b b b b b LRE08 2,5… 4 A b b b b b b b LRE10 4…6 A b b b b b b b LRE12 5,5… 8 A b b b b b b LRE14 7… 10 A b b b b b b LRE16 9…13 A b b b b b LRE21 12…18 A b b b b LRE22 16… 24 A b b b LRE32 23… 32 A b b b LRE35 30…38 A b
- 31. 29 overloadrelays Thermal overload relay Commercial reference Possible Imax calibration Compatible with contactor (size 3 4) Commercial reference LC1E40 LC1E50 LC1E65 LC1E80 LC1E95 LRE322 17…25 A b b b b b LRE353 23…32 A b b b b b LRE355 30… 40 A b b b b b LRE357 37… 50 A b b b b LRE359 48… 65 A b b b LRE361 55… 70 A b b LRE363 63… 80 A b b LRE365 80.. 104 A b Thermal overload relay Commercial reference Possible Imax calibration Compatible with contactor (size 5, 6 7) Commercial reference LC1E120 LC1E160 LC1E200 LC1E250 LC1E300 LRE480 58…81 A b b b b b LRE481 62…99 A b b b b b LRE482 84…135 A b b b b b LRE483 124…198 A b b b b LRE484 146…234 A b b b LRE485 174…279 A b b LRE486 208…333 A b
- 32. 30 Presentation, description TeSysEthermaloverloadrelays Presentation TeSys E thermal overload relays are designed to protect a.c. circuits and motors against: overloads phase failure Long starting time prolonged stalled rotor condition. The thermal relay controls permanently the current driven by the motor. When this current exceeds the setting it's auxiliary contacts will change state, causing the motor to stop. b b b b Description 1 Adjustment dial Ir. 2 Test button. Operation of the Test button allows: - checking of control circuit wiring, - simulation of relay tripping (actuates both the N/O and N/C contacts). 3 Stop button. Actuates the N/C contact; does not affect the N/O contact. 4 Reset button. 5 Trip indicator. 6 Setting locked by sealing the cover. 7 Selector for manual or automatic reset. LREpp, LRE48p 6 2 LRE relays are supplied with the selector in the manual position, protected by a cover. Deliberate action is required to move it to the automatic position. LRE3pp
- 33. 31 Characteristics TeSysEthermaloverloadrelays Power circuit characteristics Relay type Ref. LREguatda.com/cmx.p01...21 LREguatda.com/cmx.p22...35 LREguatda.com/cmx.p322...365 LREguatda.com/cmx.p480...484 LRE485/LRE486 Size 1 3 5-6 Tripping class Conforming to IEC 60947-4-1 10 A Rated insulation voltage Conforming to IEC 60947-4-1 V 690 Rated impulse withstand voltage (Uimp) kV 6 Frequency limits Of the operating current Hz 50...60 Setting range Depending on model A 0.guatda.com/cmx.p1...18 16...38 17...104 58...333 Power circuit connections Connection by screw clamp terminals Minimum/maximum c.s.a. Flexible cable without cable end 1 conductor mm² 1.guatda.com/cmx.p5...6 2.guatda.com/cmx.p5...10 4...35 - Flexible cable with cable end 1 conductor 1...4 1.guatda.com/cmx.p5...6 4...35 - Solid cable without cable end 1 conductor 1...6 2.guatda.com/cmx.p5...10 4...35 - Tightening torque N.m 1.7 2.5 9 - Connection by bars or lugs Pitch Without spreaders mm - 50 58 Bars or cables with lugs Cross section - y 6 x 25 6 x 30 Screws Type - M10 M12 Tightening torque N.m - 35 58 Auxiliary contact characteristics Conventional thermal current A 5 Max. sealed consumption of the operating coils of controlled contactors (Occasional operating cycles of contact 95-96) a.c. supply V 24 48 110 220 380 600 120 240 380 480 A - - - - - - 3 1.5 0.95 0.75 VA 100 200 400 600 600 600 - - - - Protection against short- circuits By gG, maximum rating or by GB2 A 5 Connection by screw clamp terminals Minimum/maximum c.s.a. Flexible cable without cable end 1 conductor mm² 2 x 1...2.5 Flexible cable with cable end 1 conductor 2 x 1...2.5 Solid cable without cable end 1 conductor 2 x 1...2.5 Tightening torque N.m 1.7 Environment Conforming to standard IEC 60947-4-1, IEC 60947-5-1 Product certifications GOST Degree of protection Conforming to IEC 60529 IP20 IP00 Protective treatment Conforming to IEC 60068 TH Ambiant air temperature Storage °C -60...+80 Normal operation without derating (IEC 60947-4-1) -20...+60 Minimim/maximum operating temperature (with derating) (1) -20...+70 Operating positions without derating In relation to normal vertical mounting plane Any position Flame resistance Conforming to IEC 60068-2-1 °C 850 Shock resistance Permissive acceleration conforming to IEC 60068-2-7 6 gn - 11 ms Vibration resistance Permissive acceleration conforming to IEC 60068-2-6 3 gn Dielectric strenght at 50 Hz Conforming to IEC 60255-5 kV 6 Surge withstand Conforming to IEC 60801-5 6 Operating characteristics Temperature compensation °C -20...+60 Tripping threshold Conforming to IEC 60947-4-1 A 1.14 ± 0.06 Ir Sensitivity to phase failure Conforming to IEC 60947-4-1 Tripping current 130 % of Ir on two phase, the last one at 0 (1) Contact your regional sales.
- 34. 32 Characteristics TeSysEthermaloverloadrelays Tripping curves Average operating time related to multiples of the setting current Time Class 10A x the setting current (Ir) 1. Balanced operation, 3-phase, without prior current flow (cold state). 2. 2-phase operation, without prior current flow (cold state). 3. Balanced operation, 3-phase, after a long period at the set current (hot state).
- 35. 33 TeSysEthermaloverloadrelays 3-polethermaloverloadrelays Differential thermal overload relays for use with fuses or magnetic circuit-breakers GV2 L and GV3 L Compensated relays with manual or automatic reset, with relay trip indicator, for a.c. b b b Relay setting range (A) Fuses to be used with selected relay For use with con- tactor LC1 Reference Weight kg aM (A) gG (A) Class 10 A(1) for connection by screw clamp terminals 0.10…0.16 0.25 2 E06…E38 LRE01 0.130 0.16…0.25 0.5 2 E06…E38 LRE02 0.130 0.25…0.40 1 2 E06…E38 LRE03 0.130 0.40…0.63 1 2 E06…E38 LRE04 0.130 0.63…1 2 4 E06…E38 LRE05 0.130 1…1.6 2 4 E06…E38 LRE06 0.130 1.6…2.5 4 6 E06…E38 LRE07 0.130 2.5…4 6 10 E06…E38 LRE08 0.130 4…6 8 16 E06…E38 LRE10 0.130 5.5…8 12 20 E09…E38 LRE12 0.130 7…10 12 20 E09…E38 LRE14 0.130 9…13 16 25 E12…E38 LRE16 0.130 12…18 20 35 E18…E38 LRE21 0.130 16…24 25 50 E25…E38 LRE22 0.130 23…32 40 63 E25…E38 LRE32 0.130 30…38 40 80 E38 LRE35 0.130 17...25 25 50 E40…E95 LRE322 0.470 23...32 40 63 E40…E95 LRE353 0.470 30...40 40 100 E40…E95 LRE355 0.470 37...50 63 100 E50…E95 LRE357 0.460 48...65 63 100 E65…E95 LRE359 0.460 55...70 80 125 E80…E95 LRE361 0.480 63...80 80 125 E80…E95 LRE363 0.��� 480 80...104 80 160 E95 LRE365 0.520 Class 10 A(1) for connection by connectors(2) 51...81 100 125 E120...E300 LRE480 1.670 62...99 125 160 E120...E300 LRE481 1.670 84...135 160 200 E120...E300 LRE482 1.670 124...198 200 250 E160...E300 LRE483 1.670 146...234 250 315 E200...E300 LRE484 1.670 174...279 315 315 E250...E300 LRE485 1.760 208...333 400 400 E300 LRE486 1.760 (1) Standard IEC 60947-4-1 specifies a tripping time for 7.2 times the setting current IR :� class 10 A: between 2 and 10 seconds. (2) Independent mounting of the contactor up to end of 2011; version 2012: direct mounting under contactor. LRE48p (version 2011) LRE48p (version 2012) LRE3pp LREpp
- 36. 34 Dimensionsandmounting TeSysEthermaloverloadrelays DirectconnectiontoLREcontactors LRE01...E35 Direct mounting under LC1Eguatda.com/cmx.p06...38 contactors with screw clamp connections b a LC1Epp LREpp 45 c With contactor LC1E06...E18 LC1E25 LC1E32/E38 a 123 137 137 b 84 92 92 c 0 0 11 LRE3pp Direct mounting under LC1Eguatda.com/cmx.p06...38 contactors with screw clamp connections LC1Epp LREpp b f c a e d With contactor on DIN rail AM1-DL201 AM1-DL200 f 7 17 With contactor LC1E40 LC1E50 LC1E65 LC1E80 LC1E95 a 175 175 175 180 180 b 119 119 119 124 124 c 4.5 4.5 4.5 9.5 9.5 d 72.4 72.4 72.4 76.9 76.9 e 111 111 111 115.5 115.5 Electrical diagram all relays 2 1 4 3 6 5 Auto Reset Man. Test Auto 96 95 98 97
- 37. 35 Connectiontoaterminalblock LRE01...E35 connected to LAEB1 terminal block Independent mounting on 50 mm centres; or on rail AM1 DP200 or DE200 Independent mounting on 110 mm centres LAEB1 45 81 86 LAEB1 44.5 Mounting on DIN rail AM1Dppp Mounting customer back plate LRE322...E365, connected to LAEB3 terminal block Independent mounting on 50 mm centres; or on rail AM1 DP200 or DE200 LAEB3 LAEB3 Mounting on DIN rail AM1Dppp AM1-DP200 AM1-DE200 d 2 9.5
- 38. 36 TeSysEthermaloverloadrelays Independantmountingandconnection LRE48p Independent mounting on mounting plate 2011 version LRE48p: with separate mounting only. 45 14.5 26 M N 6 x ØP R B 4 x Ø6.5 (Mounting holes for M6 screw) 12.8 3 2/T1 6/T3 A A C S D E F T 4/T2 Dimensions and mounting Range (A) A B C D E F M N P R S T 51...81 50 174 192 28 40 50 93 117 11 25 5 130 62...99 84...135 124...198 146...234 174...279 58 200 218 29 40 50 103 133 12.5 30 6 130 208...333 The LRE48pp is mounted separatly from the contactor (LCEguatda.com/cmx.p120...300) on a mounting plate with 4 x M6 screws (torque = 6 N.m). The connections with the contactor are done with bars and cables with lugs. Dimensionsandmounting
- 39. 37 Independantmountingandconnection LRE48p Independent mounting on mounting plate 2012 version LRE48p: with direct mounting under contactors LC1Eguatda.com/cmx.p120...300 or separate mounting (without accessory). 26 151 4 x Ø6.5 (Mounting holes for M6 screw) C B 52.5 52.5 A A 59 D T 45 R 6 x ØP S Dimensions and mounting Range (A) A B C D P R S T 58...81 34.8 144 160 29.5 20 3 130 62...99 84...135 30.5 5 124...198 40 154 170 31 25 6 146...234 48 12 174...279 30 130 208...333 The LRE48pp is mounted separatly from the contactor (LCEguatda.com/cmx.p120...300) on a mounting plate with 4 x M6 screws (torque = 6 N.m). The connections with the contactor are done with bars and cables with lugs.
- 40. 38 TeSysEthermaloverloadrelays Independantmountingandconnection Dimensionsandmounting LRE48p Independent mounting on mounting plate 2012 version LRE48p: with direct mounting. 26 4 x Ø6.5 (Mounting holes for M6 screw) C 52.5 52.5 A A 59 D T 45 R 6 x ØP S B Dimensions and mounting Range (A) A B C D P R S T 58...81 34.8 144 160 29.5 20 3 130 62...99 84...135 30.5 5 124...198 40 154 170 31 25 6 146...234 48 12 174...279 30 130 208...333 The LRE48pp is mounted separatly from the contactor (LCEguatda.com/cmx.p120...300) on a mounting plate with 4 x M6 screws (torque = 6 N.m). The connections with the contactor are done with bars and cables with lugs.
- 41. 39
- 42. 40 TeSysEcontrolrelays Motorstarters,contactorsrelaysupto300A TeSysE Contact configuration Coil V AC/Hz 50 Hz 50 Hz 50 Hz 24 CAE40B5 CAE22B5 CAE31B5 48 CAE40E5 CAE22E5 CAE31E5 110 CAE40F5 CAE22F5 CAE31F5 220 CAE40M5 CAE22M5 CAE31M5 240 CAE40U5 CAE22U5 CAE31U5 380 CAE40Q5 CAE22Q5 CAE31Q5 415 CAE40N5 CAE22N5 CAE31N5 440 CAE40R5 CAE22R5 CAE31R5 Characteristics 4 NO/NC contacts. Weight: 0.280 kg.
- 43. 41 Characteristics TeSysEcontrolrelays Control circuit characteristics Type CAEa Rated control circuit voltage (Uc) V 24...440 Control voltage limits Operation Coil type: 50 Hz 0.guatda.com/cmx.p85...1.1 Uc Drop-out 0.guatda.com/cmx.p3...0.6 Uc Average consumption at 20 °C and at Uc a 50 Hz VA Sealed and closed: 70 Maintain: 8 Operating time (rated control circuit voltage, ambient temperature 20 °C) Between coil energisation and opening of the N/C contact ms 4...19 closing of the N/O contact 12...22 Between coil de-energisation and opening of the N/C contact 4...12 closing of the N/O contact 6...17 Momentary supply failure Maximum power-off time without influencing sealed state 2 Maximum operating rate Operating cycles per second 1800 Mechanical durability In millions of operating cycles Coil type: 50 Hz 10 Control connection (coil) Connecting to screw clamp terminals Flexible cable without cable end 1 conductor mm2 1...2.5 2 conductors 1...2.5 Flexible cable with cable end 1 conductor 1...2.5 2 conductors 1...2.5 Solid cable without cable end 1 conductor 1...2.5 2 conductors 1...2.5 Tightening torque N.m 1.2 Characteristics of built in instantaneous contacts Number of contacts 4 Rated operational voltage (Ue) Up to V 690 Rated insulation voltage (Ui) Conforming to IEC 60947-5-1 690 Conventional thermal current (lth) Operational environment temperature y 40 °C A 10 Operating current frequency Hz 50 Minimum switching capacity U min V 17 l min mA 5 Short-circuit protection Conforming to IEC 60947-5-1 A gG fuse: 10 A Rated making capacity Conforming to IEC 60947-5-1 A a: 140 Short-time rating Permissible for 500 ms A 120 100 ms 140 Insulation resistance M Ω 10 Non-overlap time Guaranteed non-overlap between N/C and N/O contacts ms 1.5 on energisation and on de-energisation Tightening torque Philips n°2 N.m 1.2 Non-overlap distance Contact LAENpp connecting with auxiliary contacts Instantaneous contacts connection Connecting to screw clamp terminals Flexible cable without cable end 1 conductor mm2 1...2.5 2 conductors 1...2.5 Flexible cable with cable end 1 conductor 1...2.5 2 conductors 1...2.5 Solid cable without cable end 1 conductor 1...2.5 2 conductors 1...2.5 Tightening torque N.m 1.2
- 44. 42 Characteristics TeSysEcontrolrelays Environment Type CAEa Rated insulation voltage (Ui) Conforming to IEC 60947-5-1 V 690 Rated impulse withstand voltage (Uimp) Conforming to IEC 60947 kV 6 Electrical insulation IEC 60536 Up to 400 V reinforced insulation Conforming to standards IEC 60947-5-1 Certifications GOST Protective treatment Conforming to IEC 60068 TH Degree of protection Conforming to IEC 60529 IP20 Ambient air temperature around the device Storage °C -60...+80 0.guatda.com/cmx.p85...1.1 UC -5...+55 For operation at Uc -20...+70 Maximum operating altitude Without derating m 3000 Operating position Without derating in the following positions 9 0 ° 90° 0° 8 1 Shock resistance (1) 1/2 sine ware, 11 ms Control relay open 7 gn Control relay closed 10 gn Vibration resistance (1) 5...300 Hz Control relay open 1.5 gn Control relay closed 3 gn (1) No change of contact state at coil voltage Ue in worst conditions.
- 45. 43 Mountingdimension TeSysEcontrolrelays Controlrelaysandauxiliaryblocks CAEpp c1 90 LAERCp CAE 32 50 c 80 80 c1 with LAEN 113 113 CAE On mounting plate AM1-P 50 C G 2 x Ø4.5 2 x Ø4.8 CAEa c 80 CAE40 CAE31 CAE22 A1 A2 43/NO 44 33/NO 34 23/NO 24 13/NO 14 22 21/NC 43/NO 44 13/NO 14 33/NO 34 22 21/NC 43/NO 44 31/NC 32 13/NO 14
- 46. 44 Accessories TeSysEcontrolrelays Auxiliarycontactblocks RCsuppressor CAEppp LAERCp LAENp 2 contacts LAENp 4 contacts Instantaneous auxiliary contact blocks For use in normal operating environments Number of contacts Maximum number of relays that can be mounted Composition Cat. no. Weight Front mounted Side mounted NO NC kg 2 1 - 1 1 LAEN11 0.030 1 - 2 - LAEN20 0.030 1 - - 2 LAEN02 0.030 4 1 - 2 2 LAEN22 0.050 Coil suppressor modules RC suppressor Effective protection for circuits highly sensitive to high frequency interference and transcient generates when the contactor coil is switched off. For use only in cases where the voltage is virtually sinusoidal, i.e. less than 5 % total harmonic distortion. Voltage limited to 3 Uc max. and oscillating frequency limited to 400 Hz max. Slight increase in drop-out time (1.2 to 2 times the normal time). b b b Mounted on Operational voltage Cat. no. Weight kg CAE40pp aguatda.com/cmx.p24...48 V LAERCE 0.012 aguatda.com/cmx.p110...240 V LAERCU 0.012 aguatda.com/cmx.p50...120 V LAERCG 0.012 aguatda.com/cmx.p380...415 V LAERCN 0.012
- 47. 45
- 48. 46 Coordinationbetween protection controlcomponents Motorstarters,contactorsrelaysupto300A TeSysE Coordination: safety and faster restart after a short circuit This benefit is obtained by choosing contactors with Schneider Electric guaranteed coordination. What exactly is coordination? A contactor is said to be coordinated with the upstream protection device when its behaviour is controlled in the event of a short circuit. This behaviour can be: type 1: guaranteed not to pose a danger to the workforce and not to damage the installation. It is accepted that the contactor should be destroyed or repaired. type 2: type 1 + put back into service possible after any maintenance operation (contact separation, for example). Compliance tests Only the very stringent certified tests performed by Schneider Electric can guarantee the behaviour described by IEC 60947-4-1.
- 49. 47 Coordinationwithprotections TeSysELC1E06to300 Type1coordination(IEC947-4-1) 400-440V Direct on line starter Motors Switch- fuse(1) Fuse-link type: Fuse size Switch- Fuse Fuse-link type: Fuse size Contactors Thermal o/l relays: 400V 440V P(KW) Ie P(KW) Ie Ie max Type gG cal(A) Type aM cal(A) Type Type Ith 0,06 0,2 0,06 0,19 0,25 GS* G 4 T000 GS* G 2 T000 LC1E06 LRE02 0.16..0.25 0,09 0,3 0,09 0,28 0,4 GS* G 4 T000 GS* G 2 T000 LC1E06 LRE03 0.25..0.4 - - 0,12 0,37 0,63 GS* G 4 T000 GS* G 2 T000 LC1E06 LRE04 0.4..0.63 0,12 0,44 - - 1 GS* G 4 T000 GS* G 2 T000 LC1E06 LRE05 0.63..1 0,18 0,6 0,18 0,55 1 GS* G 4 T000 GS* G 2 T000 LC1E06 LRE05 0.63..1 0,37 1,1 0,37 1 1,6 GS* G 4 T000 GS* G 2 T000 LC1E06 LRE06 1..1,6 0,55 1,5 0,55 1,36 1,6 GS* G 6 T000 GS* G 2 T000 LC1E06 LRE06 1..1,6 0,75 1,9 0,75 1,68 2,5 GS* G 10 T000 GS* G 4 T000 LC1E06 LRE07 1,6..2,5 - - 1,1 2,37 2,5 GS* G 10 T000 GS* G 4 T000 LC1E06 LRE07 1,6..2,5 1,1 2,7 - - 4 GS* G 10 T000 GS* G 4 T000 LC1E06 LRE08 2,5..4 1,5 3,6 1,5 3,06 4 GS* G 16 T000 GS* G 4 T000 LC1E06 LRE08 2,5..4 2,2 4,9 2,2 4,42 6 GS* G 16 T000 GS* G 6 T000 LC1E06 LRE10 4..6 3 6,5 3 5,77 8 GS* G 20 T000 GS* G 8 T000 LC1E09 LRE12 5,5..8 4 8,5 4 7,9 9 GS* G 25 T000 GS* G 12 T000 LC1E09 LRE14 7..10 5,5 11,5 5,5 10,4 12 GS* G 32 T000 GS* G 16 T000 LC1E12 LRE16 9..13 7,5 15,5 7,5 13,7 18 GS* G 40 T000 GS* G 16 T000 LC1E18 LRE21 12..18 9 18,1 9 16,9 24 GS* G 50 T000 GS* G 25 T000 LC1E25 LRE22 16..24 11 22 11 20,1 24 GS* G 50 T000 GS* G 25 T000 LC1E25 LRE22 16..24 15 29 15 26,5 32 GS* G 80 T000 GS* G 32 T000 LC1E32 LRE32 23..32 18,5 35 18,5 32,8 40 GS* G 80 T000 GS* G 40 T000 LC1E40 LRE355 30..40 22 41 22 39 50 GS* G 100 T000 GS* G 50 T000 LC1E50 LRE357 37..50 30 55 30 51,5 65 GS* KK 125 T00 GS* KK 80 T00 LC1E65 LRE359 48..65 37 66 37 64 70 GS* KK 160 T00 GS* KK 100 T00 LC1E80 LRE361 55..70 - - 45 76 80 GSx L 200 T0 GS* KK 100 T00 LC1E80 LRE363 63..80 45 80 - - 95 GSx L 200 T0 GS* KK 100 T00 LC1E95 LRE365 80..104 55 97 55 90 120 GSx L 200 T0 GS* L 125 T0 LC1E120 LRE482 84..135 75 132 75 125 160 GSx N 250 T1 GS* L 160 T0 LC1E160 LRE483 124..198 90 160 90 146 200 GSxQQ 350 T2 GS* N 200 T1 LC1E200 LRE483 124..198 110 195 110 178 234 GSxQQ 400 T2 GS* N 250 T1 LC1E250 LRE484 146..234 132 230 132 215 234 GS2 S 450 T3 GS* QQ 315 T2 LC1E250 LRE484 146..234 160 280 160 256 300 GS2 S 630 T3 GS* QQ 400 T2 LC1E300 LRE486 208..333 (1) Proposed Switch-Fuse are for Blade fuse type. Other fuse type and according switch-fuse can be used.
- 50. 48 TeSysELC1E06to300 Type1coordination(IEC947-4-1) 400-440V Star-delta starter Motors Switch- fuse (1) Fuse- link type: Fuse size Switch- Fuse Fuse- link type: Fuse size Line contactor Delta contactor Star contactor Thermal o/l relays: 400V 440V P (KW) Ie I rD P (KW) Ie IrD Ie max Type gG cal(A) Type aM cal(A) Type Type Type Type Ith 1,5 3,6 2,08 1,5 3,06 1,8 4 GS* G 10 T000 GS* G 4 T000 LC1E06 LC1E06 LC1E06 LRE07 1,6..2,5 2,2 4,9 2,83 2,2 4,42 2,6 6 GS* G 16 T000 GS* G 6 T000 LC1E06 LC1E06 LC1E06 LRE08 2,5..4 3 6,5 3,75 3 5,77 3,3 8 GS* G 16 T000 GS* G 8 T000 LC1E06 LC1E06 LC1E06 LRE08 2,5..4 4 8,5 4,9 4 7,9 4,6 10 GS* G 20 T000 GS* G 12 T000 LC1E06 LC1E06 LC1E06 LRE10 4..6 - - - 5,5 10,4 6 12 GS* G 20 T000 GS* G 16 T000 LC1E06 LC1E06 LC1E06 LRE10 4..6 5,5 11,5 6,64 - - - 16 GS* G 20 T000 GS* G 16 T000 LC1E09 LC1E09 LC1E09 LRE14 7..10 7,5 15,5 8,95 7,5 13,7 7,9 16 GS* G 32 T000 GS* G 16 T000 LC1E09 LC1E09 LC1E09 LRE14 7..10 9 18,1 10,5 9 16,9 9,8 20 GS* G 32 T000 GS* G 25 T000 LC1E12 LC1E12 LC1E09 LRE16 9..13 11 22 12,7 11 20,1 12 24 GS* G 50 T000 GS* G 25 T000 LC1E18 LC1E18 LC1E09 LRE21 12..18 15 29 16,7 15 26,5 15 32 GS* G 63 T000 GS* G 32 T000 LC1E18 LC1E18 LC1E09 LRE21 12..18 18,5 35 20,2 18,5 32,8 19 40 GS* G 80 T000 GS* G 40 T000 LC1E25 LC1E25 LC1E09 LRE22 16..24 22 41 23,7 22 39 23 43 GS* G 80 T000 GS* G 50 T000 LC1E25 LC1E25 LC1E09 LRE32 23..32 30 55 31,8 30 51,5 30 55 GS* KK 100 T00 GS* KK 80 T00 LC1E32 LC1E32 LC1E18 LRE35 30..38 37 66 38,1 37 64 37 70 GS* KK 125 T00 GS* KK 100 T00 LC1E40 LC1E40 LC1E40 LRE355 30..40 45 80 46,2 45 76 44 85 GSx L 160 T0 GS* KK 100 T00 LC1E50 LC1E50 LC1E40 LRE357 37..50 55 97 56 55 90 52 110 GSx L 200 T0 GS* L 125 T0 LC1E65 LC1E65 LC1E40 LRE359 48..65 75 132 76,2 75 125 72 140 GSx N 250 T1 GS* L 160 T0 LC1E80 LC1E80 LC1E65 LRE365 80..104 90 160 92,4 90 146 84 165 GSxQQ 350 T2 GS* N 200 T1 LC1E95 LC1E95 LC1E80 LRE365 80..104 110 195 113 110 178 103 210 GSxQQ 400 T2 GS* N 250 T1 LC1E120 LC1E120 LC1E95 LRE482 84..135 132 230 133 132 215 124 280 GS2 S 450 T3 GS* QQ 315 T2 LC1E160 LC1E160 LC1E120 LRE483 124..198 160 280 162 160 256 148 300 GS2 S 500 T3 GS* QQ 315 T2 LC1E200 LC1E200 LC1E160 LRE483 124..198 220 388 224 220 350 202 405 GS2 S 630 T3 GS* QQ 400 T2 LC1E250 LC1E250 LC1E200 LRE484 146..234 260 480 277 220 430 248 500 GS2 S 800 T3 GS2 S 500 T3 LC1E300 LC1E300 LC1E250 LRE486 208..333 (1) Proposed Switch-Fuse are for Blade fuse type. Other fuse type and according switch-fuse can be used. Coordinationwithprotections
- 51. 49 Glossary Altitude The rarefied atmosphere at high altitude reduces the dielectric strength of the air and hence the rated operational voltage of the contactor. It also reduces the cooling effect of the air and hence the rated operational current of the contactor (unless the temperature drops at the same time). No derating is necessary up to 3000 m. Derating factors to be applied above this for main pole operational voltage and current (a.c.supply) are as follows: Altitude 3500m 4000m 4500m 5000m Rated operational voltage 0.90 0.80 0.70 0.60 Rated operational current 0.92 0.90 0.88 0.86 Ambient air temperature The temperature of the air surrounding the device, measured near to the device. The operating characteristics are given: with no restriction for temperatures between -5 and +55 °C with restrictions, if necessary, for temperatures between -40 and +70 °C. b b Rated operational current (le) This is defined taking into account the rated operational voltage, operating rate, ulilisation category and ambient temperature around the device. Conventional thermal current (lth) (1) The current which a closed contactor can sustain for a minimum of 8 hours without its temperature rise exceeding the limits given in the standards. Permissible short-time rating The current which a closed contactor can for a short time after a period of no load, without dangerous overheating. Rated operational voltage (Ue) This is the voltage value which, in conjunction with the rated operational current, determines the use of the contactor or starter, and on which the corresponding tests and the utilisation category are based. For 3-phase circuits, it is expressed as the voltage between phases. Rated control circuit voltage (Uc) The rated value of the control circuit voltage, on which the operating characteristics are based. For a.c. applications, the values are given for a sinusoidal wave form (less than 5% total harmonic distortion). Rated insulation voltage (Ui) This is the voltage value used to define the insulation characteristics of a device and referred to in dielectric tests determining leakage paths. As the specifications are not identical for all standards, the rated value given for each of them is not necessarily the same. Rated impulse withstand voltage (Uimp) The peak value of a voltage surge which the device is able to withstand without breaking down. Rated operational power (expressed in kW) The rated power of the standard motor which can be switched by the contactor, at the rated operational voltage. Rated breaking capacity (2) This is the current value which the contactor can break in accordance with the breaking conditions specified in the IEC standard. Rated making capacity (2) This is the current value which the contactor can make in accordance with the making conditions specified in the IEC standard. On-load factor (m) This is the ratio between the time the current flows (t) and the duration of the cycle (T). m=t/T Cycle duration: duration of current flow + time at zero current. Pole impedance The impedance of one pole is the sum of the impedance of all the circuit components between the input terminal and the output terminal. The impedance comprises a resistive component (R) and an inductive component (X = Lω). The total impedance therefore depends on the frequency and is normally given for 50 Hz. This average value is given for the pole at its rated operational current. Electrical durability This is the average number of no-load operating cycles (i.e. with zero current flow through the main pole) which the contactor can perform without mechanical failure. Mechanical durability This is the average number of on-load operating cycles which the main pole contacts can perform without maintance. The electrical durability depends on the utilisation category, the rated operational current and the rated operational voltage. (1) Conventional thermal current, in free air, conforming to IEC standards. (2) For a.c. applications, the breaking and making capacities are expressed by rms value of the symmetrical component of the short-circuit current. Taking into account the maximum asymmetry which may exist in the circuit, the contacts therefore have to withstand a peak asymmetrical current which may be twice the rms symetrical component. Note: these definitions are extracted from standard IEC 60947-1.
- 52. 50 Application Definitions Contactor utilisation categories conforming to IEC 60947-4 The standard utilisation categories define the current values which the contactor must be able to make or break. These values depend on: the type of load being switched: squirrel cage or slip ring motor, resistors the conditions under which making or breaking takes place: motor stalled, starting or running, reversing, plugging. a.c. applications Category AC-1: This category applies to all types of a.c. load with a power factor equal to or greater than 0.95. Examples: heating, lighting, distribution. Category AC-3: This category applies to squirrel cage motors with breaking during normal running of the motor. On closing, the contactor makes the starting current, which is about 7 times the rated current of the motor. On opening, it breaks the rated current drawn by the motor; at this point, the voltage at the contactor terminals is about 20 % of the mains supply voltage. Breaking is light. For example: all standard squirrel cage motors: lifts, escalators, conveyor belts, bucket elevators, compressors, pumps, mixers, air condition units, etc... Category AC-4: The contactor closes at a current peak which may be as high as 5 or 7 times the rated motor current. On opening it breaks this same current at a voltage which is higher, the lower the motor speed. This voltage can be the same as the mains voltage. Breaking is severe. This category covers applications with plugging and inching of squirrel cage and slip ring motors. For example: printing machines, wire drawing machines, cranes and hoists, metallurgy industry. b b b b b
- 53. 51 Technicalinformation Currentofasynchronoussquirrelcage motorsatnominalload 3-phase 4-pole motors Current values for power in kW Rated operational power (1) Indicative rated operational current values at: 230 V 400 V 500 V 690 V kW A A A A 0.06 0.35 0.2 0.16 0.12 0.09 0.52 0.3 0.24 0.17 0.12 0.7 0.44 0.32 0.23 0.18 1 0.6 0.48 0.35 0.25 1.5 0.85 0.68 0.49 0.37 1.9 1.1 0.88 0.64 0.55 2.6 1.5 1.2 0.87 0.75 3.3 1.9 1.5 1.1 1.1 4.7 2.7 2.2 1.6 1.5 6.3 3.6 2.9 2.1 2.2 8.5 4.9 3.9 2.8 3 11.3 6.5 5.2 3.8 4 15 8.5 6.8 4.9 5.5 20 11.5 9.2 6.7 7.5 27 15.5 12.4 8.9 11 38 22 17.6 12.8 15 51 29 23 17 18.5 61 35 28 21 22 72 41 33 24 30 96 55 44 32 37 115 66 53 39 45 140 80 64 47 55 169 97 78 57 75 230 132 106 77 90 278 160 128 93 110 340 195 156 113 132 400 230 184 134 160 487 280 224 162 200 609 350 280 203 250 748 430 344 250 315 940 540 432 313 355 1061 610 488 354 400 1200 690 552 400 500 1478 850 680 493 560 1652 950 760 551 630 1844 1060 848 615 710 2070 1190 952 690 800 2340 1346 1076 780 900 2640 1518 1214 880 1000 2910 1673 1339 970
- 54. 52 Standardisation Conformity to standards Schneider Electric products satisfy, in the majority of cases, European (for example: CENELEC) or international (IEC) standards. These product standards precisely define the performance of the designated products (such as IEC 60947 for low voltage equipment). When used correctly, as designated by the manufacturer and in accordance with regulations and correct practices, these products will allow users to build equipment, machine systems or installations that conform to their appropriate standards (for example: IEC 60204-1, relating to electrical equipment used on industrial machines). Schneider Electric is able to provide proof of conformity of its production to the standards it has chosen to comply with, through its quality assurance system. On request, and depending on the situation, Schneider Electric can provide the following: a declaration of conformity a certificate of conformity (ASEFA/LOVAG) a homologation certificate or approval, in the countries where this procedure is required or for particular specifications, such as those existing in the merchant navy. b b b Code Certification authority Country Name Abbreviation GOST Gosudarstvenne Komitet Standartov GOST Russia IEC International Electrotechnical Commission IEC Worldwide Regulations European Directives Opening up of European markets assumes harmonisation of the regulations pertaining to each of the member countries of the European Union. The purpose of the European Directive is to eliminate obstacles hindering the free circulation of goods within the European Union, and it must be applied in all member countries. Member countries are obliged to transcribe each Directive into their national legislation and to simultaneously withdraw any contradictory regulations. The Directives, in particular those of a technical nature which concern us, only establish the objectives to be achieved, referred to as “essential requirements”. The manufacturer must take all the necessary measures to ensure that his products conform to the requirements of each Directive applicable to his production. As a general rule, the manufacturer certifies conformity to the essential requirements of the Directive(s) for his product by affixing the e mark. The e mark is affixed to Schneider Electric brand products concerned, in order to comply with French and European regulations. Significance of the e mark The e mark affixed to a product signifies that the manufacturer certifies that the product conforms to the relevant European Directive(s) which concern it; this condition must be met to allow free distribution and circulation within the countries of the European Union of any product subject to one or more of the E.U. Directives. The e mark is intended solely for national market control authorities. The e mark must not be confused with a conformity marking. European Directives (continued) For electrical equipment, only conformity to standards signifies that the product is suitable for its designated function, and only the guarantee of an established manufacturer can provide a high level of quality assurance. For Schneider Electric brand products, one or several Directives are likely to be applicable, depending on the product, and in particular: the Low Voltage Directive 2006/95/EC: the e mark relating to this Directive has been compulsory since 16th January 2007. the Electromagnetic Compatibility Directive 89/336/EEC, amended by Directives 92/31/EEC and 93/68/EEC: the e mark on products covered by this Directive has been compulsory since 1st January 1996. ASEFA-LOVAG certification The function of ASEFA (Association des Stations d’Essais Française d’Appareils électriques - Association of French Testing Stations for Low Voltage Industrial Electrical Equipment) is to carry out tests of conformity to standards and to issue certificates of conformity and test reports. ASEFA laboratories are authorised by the French authorisation committee (COFRAC). ASEFA is now a member of the European agreement group LOVAG (Low Voltage Agreement Group). This means that any certificates issued by LOVAG/ASEFA are recognised by all the authorities which are members of the group and carry the same validity as those issued by any of the member authorities. Note For further details on a specific product, please refer to the Characteristics pages in this catalogue or consult your Regional Sales Office. b b b b b Technicalinformation Productstandardsandcertifications Application
- 56. © ����� �� ���������� ��������� �� ����������� ��������� 2010 - Schneider Electric - All rights reserved. 10-2010 COM-POWER-PCP02 EN As standards, specifications and designs change from time to time, please ask for confirmation of the information given in this publication. This document has been printed on ecological paper Design: Schneider Electric Photos: Schneider Electric Printed: Schneider Electric Industries SAS 35, rue Joseph Monier CS 30323 F- 92506 Rueil Malmaison Cedex RCS Nanterre 954 503 439 Capital social 896 313 776 € www.schneider-electric.com