Telco Bridge System Architecture

System Configuration
TMS1600

SS7
SS7
TMP6400-64

ISDN PRI

TMP6400

•••

VOIP
VOIP

TMP6400-64

#1

#2

#16
GigaEth
LanSwitch

OAM

TMP6400-64

TmediaTM TMP6400 Series
Base Unit
• Compact 2U form factor
• 4 X 100/1000Base-T ports
• 2 x TmediaTM Switch ports
• AC or DC power (redundant option)
• SIP, SS7, ISDN

Optional IVR – 1 slot
• 128, 256, 384, 512, 1024, 1536,
2,048 channels
• Play, record, conference, tones

Optional TDM – 1 slot
• 4, 8, 12, 16, 32, 64 T1/E1
• 1 to 3 DS3 + 2 T1/E1
• 1 OC3/STM-1 + 2 T1/E1
Optional VoIP – 4 slots
• 128, 256, 384, 512 universal
channels
• Up to 2,048 channels per unit

TMP6400-64

TMP6400 Base Unit
Number of slots
Part Number

120/240 VAC

TMP-6401-AC

✔

TMP-6401-DC
TMP-6402-AC
TMP-6402-DC

-48 VDC

PS redundancy

VoIP

IVR

TDM

4

1

1

4

1

1

✔

4

1

1

✔

4

1

1

✔
✔
✔

Dual Redundant LAN Ports
• 100/1000Base-T for control
• 100/100Base-T for VoIP
Management Ports
• 10/100/1000Base-T control port
• RS232 serial console
Power Supply Redundancy
• Using TmediaTM RPP

TmediaTM Switch Ports
• Dual redundant 2 x RJ45F
• Non-blocking up to 32,768 ch.
• Development-free scalability

TMP6400-64

Optional VoIP Modules
Universal Codecs

Wireline Codecs

Wireless Codecs

G.711

G.723.1

G.726

G.729ab

G.728

G.729e
g

iLBC

T.38

AMR

GSM-FR/
GSM-EFR

EVRC/
QCELP

TM-VOIP-1

404

128

216

154

66

84

84

100

84

84

60

TM-VOIP-2

808

256

432

308

132

168

168

200

168

168

120

TM-VOIP-3

1212

384

648

462

198

252

252

300

252

252

180

TM-VOIP-4

1616

512

864

616

264

336

336

400

336

336

240

Max. capacity

6464

2048

3456

2464

1056

1344

1344

1600

1344

1344

960

Part Number

•
•

4 x field-upgradeable slots
128 to 2048 universal codecs
per TMP6400
• G.168-128 ms echo
cancellation on all channels
simultaneously

•
•

In-band DTMF, RFC2833 and
SIP INFO method
Adaptive jitter buffers

TMP6400-64

Optional TDM Modules
•
•
•
•

1 x field-upgradeable slot
4 to 64 x T1/E1/J1
1, 2, or 3 DS3
1 OC3/STM-1 with APS

Part Number

T1/E1/J1

DS3

TM-TDM-4

4

TM-TDM-8-UPG

8

TM-TDM-16UPG

16

TM-TDM-32

32

TM-TDM-48

48

TM-TDM-64

64

TM-DS3-1

2*

1

TM-DS3-2-UPG

2*

2

TM-DS3-3-UPG

2*

3

TM-STM-1

2*

OC3/STM-1

1 (w/APS)

* for BITS synchronization and signaling

TMP6400-64

Optional IVR Modules
• 1 x field-upgradeable slot
• Play and record
• DTMF detection,
generation and
suppression
• Conferencing
– 132 active participants per
conference
– Unlimited listeners

Part Number

Number of
Channels

TM-IVR-128

128

TM-IVR-256-UPG

256

TM-IVR-384-UPG

384

TM-IVR-512-UPG

512

TM-IVR-1024

1024

TM-IVR-1536

1536

TM-IVR-2048

2048

• Supports TB-StreamServer application
– Up to 20,000 simultaneous audio streams per server

TMP6400-64

Optional Signaling Stacks
• Signaling stacks run onboard
• Multiple signaling
protocols and variants
simultaneously supported
• Protocols and variants
are dynamically added,
deleted and changed
• ToolpackTM API
development tool
provides access to IEs
and SDPs

Signaling Options
SIP
• RFC 3261 User Agent
SS7 HA (20+ variants, contact us or details)
• MTP2, MTP3, ISUP, SCCP, TCAP
• Up to 64 SS7 links, up to 30,000 CICs
• High-speed link supported
ISDN (14+ variants)
CAS (multiple variants)
• R1, MFC-R2, wink start, FXS loop/ground
start, FXO, Taiwan R1

TmediaTM Switch
TMS1600 Series

TMS1600

TMS1600 System Features
• Carrier Grade
Architecture
• SelfDiscovering for
hardware additions &
removals
• Non-blocking 32768
channels switching
• Development free,
Plug & Play

TMS1600

TMS1600 System Features
Interconnect up to 16 TmediaTM
TMP6400 platforms to create a powerful
and cost-effective telecom system
> Any-to-any timeslot switching between
1,024 T1/E1/J1s, 48 DS3s or 16
OC3/STM-1s

LAN Ports
 Dual redundant 100/1000Base-T for control
Management Ports
 1000Base-T control port
 RS-232 serial console (RJ45F)

> Perfectly non-blocking up to 32,768
channels

Tmedia Switch Ports

> Carrier-grade redundant dual star
architecture (for TMS redundancy)

 Each interface supports 2,048 channels

 16 High-speed interfaces (RJ45F)

 Non-blocking switching between all channels
 Interconnects up to 16 TMP6400 devices

Next ….
Tmedia Web Portal
Web Based OAM

Tmedia Web Portal
 The Tmedia Web Portal is a Web-Based OAM&P tool that enables the
user to easily configure a Tmedia system and to monitor its performance
 The Web Portal, can be accessed from any computer using a standard
web browser and is hosted by the Toolpack application server.
 Using the OAM&P, the user defines
- the physical hardware and its interfaces,
- the signaling interfaces,
- logical Network Access Points (NAP) with signaling types,
such as: SIP, SS7, and ISDN

Procedure to configure system
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.

Log In
Start up the TMP6400 Toolpack app / verifying it is running.
Add Tmedia units
Configure a TMS Network
Add line interfaces
Create line services
Configure system clocking
Configure the ISDN signaling
Configure SIP signaling
Configure SS7 signaling
Configure profiles
Configure NAPs
Configure Routing Module

Logon
 To log on:
1.The HTTP port is set to 12358 by default during the installation process;
HTTP://<server IP address>:12358
The log on screen is displayed
2. Enter your user name and password Click Login

Logoff
 When you are finished working in the Web Portal,
it is recommended that you log out
from your session.
 If you do not log out, the session between
the Web Browser on your PC and the Web Portal
remains active.
To log out from the Web Portal:
Select Logout from the navigation panel

Start up application / verifying running
 To Verify that Application is running
Select Instances from the navigation panel.
 Click the Status tab, from the Application Instances
window, to view the application path.

Start up application / verifying running
 Verify that the target state is set to Run,
the current state displays Ready,
and the current HA state displays Active.


Add Tmedia Unit - verifying
 Select Hardware from Navigation panel.
 Verify the hardware list to assure that the hardware is not already installed.

Add Tmedia Unit - adding new hw
 Select Hardware from Navigation panel.
 Click Create New Hardware
from the information panel,
to add a new TMP6400.
 Enter the serial number of the TMP6400.
 Enter a name for the hardware device.
• Select TBGateway from the Adapter Type field.
• Select Enabled from the Target State field.
• Click Create
to store your settings.

TMS1600
 Tmedia TMS1600 : a key scalability component to build large-scale carrier
grade VoIP and TDM solutions.
TMS1600 Switch provides the means by which a combination of TMP6400
units can be interconnected to create a 32,768 perfectly non-blockingsystem.

Add TMS1600 …
 Select Hardware from the navigation panel.
 Click Create New Hardware from the information panel,
to add a new TMS1600.
 Enter the serial number of TMS1600.
 Enter a name for the hardware device.
• Select TMS from the Adapter Type field.
• Select Enabled from the Target State field.
• Click Create to store your settings.

Configure TMS1600 …
 Select TMS Network from the navigation panel.
 Click Configure New TMS Network
to access the TMS Network cfg window.
 Select the name of the primary switch from the Primary Adapter field.
This switch will operate as the active or main switch.
• Select the name of the secondary switch from the Secondary Adapter field.
This switch will function as the backup switch.
• Click Create to save the configuration.

Line Interfaces & line Service
For each T1/E1/J1 line that the Tmedia unit will use, a line interface with a related
line service is configured in a one-to-one relationship.
The configuring of the line interface activates the hardware and the line service is
configured to transport traffic and signaling payload.
A conceptual image is shown below

Add Line Interfaces
 Select Line Interfaces from the navigation panel.
Click Create New Line Interface
from the Information panel

Add Line Interfaces
 To create a T1/E1/J1 line interface:
• Enter a name for the line interface, and set the Line Type
• The local indexes for trunks are zero-based values. This means that
local index 0 is trunk 1 and local index 1 is trunk 2. Enter a local index
number, assigning a different value to each T1/E1/J1 line interface.
• Enter a local index number, assigning a different index to each
T1/E1/J1 line interface.
• Set the Line Length,
Encoding and Signal Level
• Click Create

 Select Line Interfaces from the navigation panel.
Click New Child Line Service from the Line Interface
Information panel

 Enter a name for the line service and click Create

 Repeat this procedure for each T1/E1/J1 line that you will use.

Clocking
 Select Clocking from the navigation panel.
 Click Create New System Clock Reference.
 Select a hardware adapter
• Select a Clock Reference Type and Source
• Click Create

ISDN Signaling Stack
ISDN signaling stacks are signaling
resources that are assigned to
a specific line of the Tmedia unit.
 Based on the Q.931 switch variant
that will be used by the system,
a selection of ISDN variants
are available.
 For each line service requiring
ISDN signaling,
an ISDN signaling stack is created
with its own distinct
signaling variant.

Configuring ISDN Signaling
 Select ISDN from the navigation panel.
 Click Create New ISDN Stack.
 Enter a name for the ISDN stack
• Select the line service requiring ISDN signaling
• Select the variant
• Click Create, to save the changes

 Notes :
To use an ISDN signaling stack,
it must be assigned to
a Network Access Point (NAP),

Configuring SIP
 Select SIP from the navigation panel.
 Click Create New SIP from the information panel
 Enter a name for the SIP configuration
• Enter a name for the SIP Configuration stack
• Select the Tmedia unit that will host SIP signaling
• Click Create, to save the changes


create SIP new transport server
 Click Create New Transport Server from the SIP Configuration window.
 Enter a name for the transport server
• Select a port type and number.
(egUDP, port 53 for SIP traffic to the DNS server.
• Click Create to save changes.

create SIP new transport server

SIP – configure DNS
• Click DNS Params in the SIP configuration window.
• Enter the IP address of the DNS
• Select the transport server
• Click Save to store your settings

Create SAP
• The Service Access Point is used to bind the SIP stack with a transport server.
Depending on the system configuration, multiple SAPS can be configured.
To create a SAP:
1.Click Create New SAP from the SIP configuration window.
2.Enter a name for the SAP •
Click Create to save the settings
3. Use the << key to select one or
more transport servers for the newly
created service access point

SS7 – MTP L2
The configuration of an MTP2
layer consists of the following:
• Creating an MTP2 configuration
• Creating an MTP2 Link

Create MTP-2 cfg
Select MTP2 from the navigation panel.
 Enter a name for the MTP2 configuration, and
click Save to store the configuration settings.

Create MTP-2 link
 The MTP2 link is used to link the MTP2 physical layer with a line service
carrying SS7 signaling.
 Parameters below are configured in the MTP2 link:
• Mode of connection: Normal or HSL
• Line service
• Timeslot used
• Protocol Type
• Destination Point Code (DPC)
• Timeslot rate

Create a new MTP-2 link
 Click Create New Mtp2 Link, to access MTP2 link configuration window.

 Enter a name for the MTP2 link
• Select the connection mode. Normal requires that you choose the
timeslot used. HSL uses all timeslots.
• Select the line service carrying the SS7 payload, set the protocol type,
DPC, and the timeslot rate
Click Create to save the settings

Create MTP-3 cfg
 Select MTP3 from the navigation panel.
 Provide a name for the MTP3 configuration
• Click Create to save the settings

Create MTP-3 network
 Click Create New MTP3 Network

Enter a name for the network and select the SS7 DPC length.
• Click Create to store the settings

Create MTP-3 Point Code
 Click Create New MTP3 Point Code

 Provide a name for the point code.
Click Create to save the point code.

Create MTP-3 LinkSet
 Click Create New MTP3 LinkSet

 Provide a name for the linkset.
• Select an origin point code and an adjacent point code
• Click Create to save the linkset

Create MTP-3 Route
 Click Create New MTP3 Route

 Provide a name that indicates this is your self route.
• Select OPC for an origin point code.
(DPC is for a route leading away from you).
• Select a point code and
click Create to create the MTP3 Route

Create MTP-3 Route


 Provide a name that indicates this is your self route.
• Select OPC for an origin point code.
(DPC is for a route leading away from you).
• Select a point code and
click Create to create the MTP3 Route

Create MTP-3 Route
 Using the << key to associate a linkset with the route.

Create SS7 Stack – ISUP
• Create ISUP Configuration
• Create ISUP Network
– Use MTP3 network here

• Create ISUP userpart
– Select appropriate options in the web portal

• Create ISUP interface
– Contains Circuits from OPC to DPC
– Create circuit groups by selecting the check box (or shortcut
“Select All”)

Create SIP
• Create SIP configurations
• Create SIP profile
– Fill in the SDP
– This would be used for SIP compatibility negotiation

• Create SIP Transport Server
– Select the IP interface for SIP traffic

• Create SIP Service Access Point
– Select the IP interface for SIP traffic

Create NAP
•
•

Create Network Access Point (NAP) for each group
Each Network Access Point (NAP) needs a unique name in
CAPITAL
– NAP for ISUP
• Select the circuit group and click “<<“
• All selected circuit belongs to the same NAP
• May select the circuit usage

– NAP for ISDN
• Select the ISDN stack and click “<<“

– NAP for SIP
• Select the SIP SAP and click “<<“
• Select the IP interface for RTP traffic
• Input the destination IP and port.

•

Fill in extra information if required.

Troubleshooting tools
tb640debug
Provide a snapshot on all configurations in the system.
/lib/tb/toolpack/pkg/2.4.0/bin/release/pcc-linux/tb640debug
tbsigtrace
Provide signaling trace on SS7, ISDN and SIP
Capture in pcap format. Viewable in Wireshark or Ethereal
tblogtrace
Capture logs from TMG3200 telecom module
/lib/tb/toolpack/setup/12358/2.4/apps/tblogtrace
Toolpack module’s log
Contain all logs of daily activities
/lib/tb/toolpack/setup/12358/2.4/apps/
Use “du –sh” to check each folder size
Use “df” to check the disk space

Telco Bridge System Architecture

Telco Bridge System Architecture

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