Download TMS-3000 Controller

GDC 036R303-000
Issue 9, August 1997
Installation and Operation
TMS-3000
Transport Management System
General DataComm
Warning
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Chapter 1 -Shelf Installation contains diagrams and procedures for unpacking, shelf
mounting, cable and wire connections of the TMS-3000.
Chapter 2 - Common Card Installation contains installation and optioning procedures for
common cards of the TMS-3000.
Chapter 3 - Channel Card Installation describes the installation and optioning procedures
for the channel modules of the TMS-3000.
Chapter 4 - Operation describes the function keys, screen format, and general operating
procedures for the TMS-3000. It also describes the function of indicators and test points
on each TMS module.
Chapter 5 - System Initialization describes how to check out the TMS Controller hardware
using the built-in ROM monitor program. It also describes initial installation and setup of
SCO XENIX, INFORMIX, and GTS software on various PC platforms.
Chapter 6 - Redundant Controllers describes the TMS-3000 multi-controller network
environment, including configuration, startup, and maintenance procedures.
Chapter 7 - Maintenance includes routine maintenance, corrective maintenance, and
troubleshooting procedures for the TMS-3000. It also lists telephone numbers and
addresses for technical assistance world-wide.
Chapter 8 - Connector Pin Assignments contains tables that list pin assignments for
various system connectors and modules.
Appendix A - Options provides descriptions of and installation instructions for options that
are available for the TMS-3000.
Appendix B - Technical Characteristics contains system and module specifications and
power requirements.
Appendix C - TMS-3000 Maintenance Console describes the procedures for using a TMS
Maintenance Console, a software package designed to be used with an ASCII terminal that
operates remotely from the TMS Controller.
Appendix D - Agency Rules and Regulations contains specialized information for the UK
and the Republic of Ireland.
Appendix E - EC Declaration pertains to GDC’s conformance to harmonized standards as
described in the Official Journal of the Euorpean Communities.
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NOTE
Although these options appear on the TMS Controller, the TPP and OPP cards
do not support:
TPP Redundancy
Microcell
SNA/SDLC
PIR
Please refer to the appropriate version of the TPP and OPP release notes.
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GDC Number
035R009-000
036R302-A7
036R304-000
036R603-Vnnn
036R305-000
036R340-000
036R342-000
036R452-000
S-036R042-001
036R475-000
036R477-000
036R478-000
036R479-000
036R480-000
036R483-000
036R485-000
036R610-000
036R611-000
Subject
Transport Management System
GPS-8B Power Supply
TMS Packet Processor (TPP)
TMS-3000 Technical Overview
TMS-3000 Controller
Quad Stat Mux Channel
OCM-2000
OCM Packet Processor (OPP)
Sync Status Module
Sync Status Module with Enhancements
VLBRV
T1-DS0
Digital Bridging Card
Turbo Data Channel
CELP Channel
Turbo Data Channel-2, -5
T1-FT1
TMS-3000 Maintenance Console
OCM-2000 Maintenance Console
Type of Manual
Product Portfolio
Operating and Installation
Addendum
Technical Overview
Operation
Installation and Operation
Installation and Operation
Installation and Operation
Instruction
Addendum
Installation and Operation
Installation and Operation
Installation and Operation
Installation and Operation
Installation and Operation
Installation and Operation
Operating and Installation
User Guide
User Guide
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non-TMS device and terminates on a non-TMS device.
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1 Shelf Installation
Overview
This chapter contains information on the installation of the TMS-3000. Unpacking, shelf mounting,
cable and wire connections, option selection, and system timing are all discussed here. Figure 1-1
shows the rear panel of the TMS-3000 shelf.
Many tables and diagrams are required to provide sufficient installation information for the TMS3000 system. Most of the tables and diagrams in this chapter appear with the TMS-3000 module
with which they are associated.
SHELF ASSY 036B300-001
MODEL No. TMS-3000
Serial No.
General DataComm
PRI
(J15)
SEC
(J16)
PRI
(J13)
PRI
(J11)
SEC
(J14)
SEC
(J12)
PRI
(J9)
OPT
(J43)
ALARM
(J17)
EXT TMG
(J18)
SEC
(J10)
PRI
(J7)
PRI
(J5)
PRI
(J3)
PRI
(J1)
SEC
(J8)
SEC
(J6)
SEC
(J4)
SEC
(J2)
Photo
NETCON/
PRINTER
J20
VDU
J19
CHANNEL INTERFACE
CHANNEL INTERFACE
J40
J39
J38
J37
J36
J35
J34
J33
J29
J28
J27
J26
J25
J24
J23
J22
J21
PHONE JACK
J41
MODEM PORT
J42
Figure 1-1
TMS-3000 Shelf, Rear Panel
GDC 036R303-000
1-2
Shelf Installation
Unpacking and Inspection
These steps detail the unpacking and inspection requirements for the TMS-3000.
1.
Remove any extra packing material from the unit.
2.
Place the TMS-3000 unit so that you can easily access the front and back of the unit.
3.
Remove each spare module from its individual carton. Do not discard carton or packing material; save it for transporting or reshipping if necessary.
4.
Inspect the components for visible signs of damage. If you see any damage, notify the shipper
immediately.
5.
Check the packing list to see if you have all components (module types, quantities, etc.).
6.
Verify that the components of the unit and factory settings on the various modules are properly configured for your TMS-3000 applications.
The documentation package which comes with your system determines proper set-up and card arrangements for your system. In particular, ensure that:
1.
Each card is in its proper slot in the TMS-3000 shelf. Correct locations are given in your Network Documentation Package. Module locations for a completely filled redundant node are
illustrated in Figure 1-2 (In a non-redundant system, each slot marked "SEC." on the diagram
has a blank filler panel). Check that channel cards are in their correct slots. Note that installation of TPP (TMS Packet processor) cards is covered in GDC 036R302-A7.
2.
Correct aggregate interface piggybacks or interface modules are installed on the ACM (ADPCM Compression Module), the CDA (Combined Digital Aggregate) module, and the ACC
(Aggregate Control Card) .
Installation
The TMS-3000 is usually shipped already mounted in a GDC EP-2M or EP-4 cabinet. If your TMS3000 is already mounted, go to Step 4 below. Otherwise, follow these directions:
1.
If the TMS-3000 shelf assembly is not being mounted in a rack, install it in a reasonably wellventilated location. Do not locate directly above other equipment (such as power supplies)
which generate large quantities of heat. The ambient temperature should not exceed 122o F
(50o C).
2.
If the TMS-3000 is being rackmounted, install it in a standard 19-inch rack. Two GDC cabinets are available for that purpose:
EP-2T — 30 in. (76 cm) by 23 in. (59 cm) by 24 in. (61 cm) with two fans
EP-4 — 76 in. (193 cm) by 23 in. (59 cm) by 26 in. (66 cm) with blower
GDC 036R303-000
ACC, ACM, CDA, IAC, DBC, or CIC
ACC, ACM, CDA, IAC, DBC, or CIC
ACC, ACM, CDA, IAC, DBC, or CIC
ACC, ACM, CDA, IAC, DBC, or CIC
ACC, ACM, CDA, IAC, DBC, CIC, or TPP
ACC, ACM, CDA, IAC, DBC, CIC, or TPP
ACC, ACM, CDA, IAC, DBC, CIC, or TPP
ACC, ACM, CDA, IAC, DBC, CIC, or TPP
Option Slot
RCC
ESCC
ESCC
ACC, ACM, CDA, IAC, DBC, CIC, or TPP
ACC, ACM, CDA, IAC, DBC, CIC, or TPP
ACC, ACM, CDA, IAC, DBC, CIC, or TPP
ACC, ACM, CDA, IAC, DBC, CIC, or TPP
ACC, ACM, CDA, IAC, DBC, or CIC
ACC, ACM, CDA, IAC, DBC, or CIC
ACC, ACM, CDA, IAC, DBC, or CIC
ACC, ACM, CDA, IAC, DBC, or CIC
Shelf Installation
Figure 1-2
1-3
Power Supplies
SEC PRI SEC PRI SEC PRI SEC PRI
SEC PRI SEC PRI SEC PRI SEC PRI SEC PRI
Cable Tray
Expansion Shelf
(Channel and Sync Status Cards)
Expansion Shelf
Expansion Shelf
Expansion Shelf
Blower
TMS-3000 Module Locations
GDC 036R303-000
1-4
Shelf Installation
The EP-4 cabinet comes wired with a 20-ampere rated line cord and a twist-lock
NEMA L5-20P type plug. This mates with a NEMA 20R type receptacle which must
be available adjacent to the installation.
NOTE
Provide the following vertical rack space for each TMS-3000 shelf component:
GPS-8A,GPS-8B or DPS-8A — 7 in. (18 cm)
TMS-3000 shelf — 14 in. (36 cm)
16-channel expansion shelf — 7 in. (18 cm)
32-channel expansion shelf — 14 in. (36 cm)
Air must be forced through the rack. A blower capable of moving 300 cfm (cubic feet per
minute) must be installed at the bottom of the shelves. Three exhaust fans capable of
moving 100 cfm must be installed at the top of the cabinet. Ideal external ambient
temperature is between 77oand 93oF (25oand 30oC). Operation between 32o and 124o F
(0o and 50oC) is allowable only when equipment is mounted in a GDC EP-2T, EP-2M,
and EP-4 cabinets (assuming proper airflow requirements have been met).
!
1.
Connect dc power harness on rear of main shelf assembly to the GPS-8A, GPS-8B, or DPS8A. The drawing package includes a wire list for the harness, where you see the terminal connections for each wire. Connections to the power supply are made by inserting the wire into
the appropriate power supply terminal and tightening the screw that fits into the terminal.
Alarm connections between the power supplies and the TMS-3000 main shelf is described
later in this chapter.
Location of power supply connectors on the TMS-3000 Harness Card are shown in Figure
1-3. Table 1-1 lists the wire color coding for the power supply harness.
2.
Check that power supply Power On/Power Off switch is Off. If GPS-8A or GPS-8B is being
used, connect power cord to grounded ac outlet; if DPS-8A, connect to –48 V battery (Refer
to Instruction Manual for DPS-8A, GDC 041R162-000 ).
Do not apply primary power until all connections have been made and all options
implemented.
!
Table 1-1
GDC 036R303-000
Power Supply Harness Color Codes
Power Supply Harness Wire
Terminal Connection
Orange
+12 V dc
Purple
–12 V dc
White/Red
+5 V dc
White/Black
GND
Shelf Installation
1-5
J18
50
J17
50
+12 V
+ 12 V
- 12 V
1
- 12 V
XA1
1
1
GND
GND
+5V
+5V
XA16
50
1
100
1
100
XA18
25
J16
Figure 1-3
J15
J14
J13
J12
J11
J10
J9
J8
J7
J6
J5
J4
J3
J2
J1
Power Supply Connectors on TMS-3000 Expansion Harness Card
AC Power On/Off Procedure for a TMS-3000
GDC products contain voltage sensing circuits that ensure that proper reset signals are generated
during power up/down switching. These circuits are designed to protect the electronics from lockups and memory loss for ac transients and power on/off conditions.
Switching power on/off via a branch circuit breaker can generate unpredictable transient conditions
since inductive and/or capacitive loads connected to the branch affect the voltage on/off sensing circuits. To ensure reliable operation, use the following procedure to turn TMS-3000 power on:
1.
Turn the branch circuit breaker on first. This gives transients, due to heavy inductive and capacitive line loads, time to settle.
2.
If the communication product is mounted in a cabinet equipped with a local circuit breaker,
such as a GDC EP-4 cabinet, turn the local breaker on next.
3.
Turn off the dc power supplies mounted in the node.
To turn TMS-3000 Power off, reverse the power-on procedure by first turning off the dc power supplies.
TMS-3000 Controller Initialization
For information on the installation and initialization of the TMS-3000 Controller, refer to Chapter
5 of this manual.
Fused Links
Fused links in the interface circuits protect the TMS-3000 from damages during operation. To prevent large circulating currents due to differences in ground potential, the TMS-3000 should be powered by the same power source as the equipment with which it interfaces. If you don't know if the
equipment is powered by the same power source, confirm that a potential difference of less than
0.25 V rms (as measured by a high impedance digital multimeter or equivalent) exists between the
grounding circuits of the respective power outlets.
GDC 036R303-000
1-6
Shelf Installation
!
TMS-3000 incorporates internal fused links which may open if the ground potential
exceeds 0.25 V rms between this unit and equipment interfaced with this unit. Do
not apply power to the TMS-3000 until you have finished connecting it to
peripheral equipment.
Fused links on the TMS-3000 are located on the rear of the harness card.
Each interface circuit (both channel and aggregate) contains a fused link between the chassis
ground (earth) connector pin (Pin 1 of the 25-pin connector) and the chassis ground circuit of the
TMS-3000. Each link is located directly below each 25-pin connector. Each link appears as an
extremely thin solder line, with one end connected to the chassis ground plane on the harness card.
Fused links that have opened because of excessive ground currents between equipment can be
restored as follows:
1.
Normalize the potential difference between associated grounding circuits to less than 0.25 V
rms (as measured with a high impedance digital multimeter or equivalent).
2.
Disconnect all power connections.
3.
Restore fused link with a single strand of No. 32 to 40 AWG gauge copper wire (No. 32 is
the standard strand of seven-strand No. 24 gauge wire). Solder the single strand to the appropriate terminals on the rear of the harness card.
4.
Reconnect power connections and resume normal operations.
!
When several cabinets are installed together, use a copper braided ground strap between the cabinets to ensure sufficient grounding.
Compliance With Subpart J, Part 15 of FCC Rules
For full compliance with Subpart J of Part 15 of FCC rules (governing radiated RF energy from
computing devices), use shielded cables with metal hooded connectors for all TMS-3000 aggregate
and channel connections. Each cable hood must make firm contact with TMS-3000 frame ground.
At the end of the cable hood are two screws that should be screwed in firmly to make ground contact. The hooded cable grounding arrangement is illustrated in Figure 1-4.
Follow this procedure when using customer supplied cables. Unshielded cables or improperly installed shielded cables may interfere with nearby radio communications.
GDC 036R303-000
Shelf Installation
Figure 1-4
1-7
Typical Hooded Cable Grounding Arrangement
Power Supply to TMS-3000 Alarm Connections
Any TMS-3000 node can report power supply failures (as an alarm condition) to the Controller.
Two separate power supply failures (Primary and Secondary) are reported. To enable node reporting of power supply failures, make the following connections (the metal backplane shield on the
main shelf must be removed to make these connections):
Primary power supply Alarm Bus connector to TMS-3000 main shelf connector XA10A, Pin A14.
Secondary power supply Alarm Bus connector to TMS-3000 main shelf connector XA10A, Pin A2.
In most cases, TMS-3000 shelves are shipped from the factory already connected.
TMS-3000 Node External Timing Connections
GTS software is used to set each TMS-3000 node to receive a master timing reference signal from
an external source or to be the master timing source for the network.
In most cases, a reference timing signal is received from an aggregate and requires no special cabling. If timing is obtained from channel equipment, a special Y-cable splits timing from the other
signals entering the channel interface and transports the timing signal to external timing connector
J18 on the TMS-3000 main shelf backplane. Two cables are available for this purpose: 028H504001 (for unbalanced signals) and 028H505-001 (for balanced signals, EIA-422 adapter required).
The 9-pin connector of the cable connects to J18; the 25-pin connectors mate to a TMS-3000 channel interface connector and to a 25-pin crossover cable, which connects to the data service unit or
modem that supplies the reference timing signal.
Select "External" as the timing source for the node when using this arrangement. Any other external
timing source connects directly to J18.
GDC 036R303-000
1-8
Shelf Installation
On the TMS-3000, 9-pin connector J18 (located on the rear backplane of the main shelf) lets you
use a balanced or unbalanced external clocking source.
Table 1-2 provides pin functions and technical specifications for connector J18. Figure 1-5 illustrates the J18 connector pins as viewed from the TMS-3000 rear backplane.
The TMS-3000 node also outputs an external timing source for transfer of timing. This output is a
balanced RS-422 interface clock signal at the rate of 512 KHz and is phase locked with the node
reference clock.
Table 1-2
Pin No.
External Clock Input (J18) Function
Function
Unbalanced Clock*
Balanced Clock*
1
Protective Ground
Signal Ground
Cable shield
2
External Timing Input A
Clock input
Clock A input
3
External Timing Input B
No connection
Clock B input
Not used
Not used
4-7
—
8
External Timing Output B
512 KHz Clock Output B
9
External Timing Output A
512 KHz Clock Output
A
* See Table 2-5 for ESCC option settings for balanced and unbalanced interfaces.
EXT TMG
External timing Output A
9
External timing Output B
8
7
6
Figure 1-5
5
4
3
2
External timing Input A
External timing Input B
1
Protective ground
External Clock Connector (J18) TMS-3000 Rear Backplane View
Alarm Relay Connections
The RCC (Redundancy Control Card) in the TMS-3000 contains two relays — one for major
alarms, and one for minor alarms — that allow connections to activate external equipment. The
alarm relays are deenergized during normal operation and provide two sets each of normally open
and normally closed contacts (Relay Type 2, Form C). Appropriate relays are energized to signal
alarm conditions. Connections are made to a 15-pin connector, J17 on the TMS-3000 main harness
card. Table 1-3 lists the J17 pins used to connect the normally open or normally closed contacts of
the relays to the external equipment.
Do not exceed maximum ratings of the relay contacts: 3 W, 0.25 A, 28 V.
GDC 036R303-000
Shelf Installation
1-9
Table 1-3
Alarm Relay Connections, Rear Panel Connector J17
Pin Number
Function
Relay State
1
Minor Alarm 2
Common
(CO)
2
Major Alarm 2
Common
(CO)
3
Spare
4
Spare
5
Major Alarm 2
Deenergized ( NO)
6
Major Alarm 1
Deenergized (NO)
7
Minor Alarm 2
Deenergized (NO)
8
Minor Alarm 1
Deenergized (NO)
Common
(CO)
(CO)
9
Major Alarm 1
10
Spare
11
Minor Alarm 1
Common
12
Major Alarm 2
Energized
(NC)
13
Major Alarm 1
Energized
(NC)
14
Minor Alarm 2
Energized
(NC)
15
Minor Alarm 1
Energized
(NC)
!
The main harness backplane current rating is 1.4 A maximum. Any dc or ac
voltage supplied by a power supply through the alarm port connector J17
should be fused accordingly. Failure to fuse the alarm port connector can
result in severe damage to the TMS-3000 main harness backplane.
GDC 036R303-000
1-10
Shelf Installation
TMS-3000 Controller Interface Connections
Asynchronous
GDC 028H303 cable connects serial Port 1 of the Controller to connector J20 on the TMS-3000
backplane. You also need a shielded EIA/TIA-232-E extension cable (GDC 027H506-XXX).
The two cables are combined in GDC 027H004-XXX. Refer to Chapter 5, System Initialization
to connect the keyboard, monitor, and system unit together. Chapter 5 also provides a description
of TMS-3000 Controller initialization.
Connect the Maintenance Console to the TMS-3000 using GDC 028H305. One end of the cable
connects to EIA Connector J19 on the TMS-3000 backplane; the other end connects to the Maintenance Console connector marked MODEM or COMM (See Figure 1-6).
NOTE
Some of the TMS common cards (ESCC, ACM, CDA, TPP, and OPP) have a front
monitor port for connecting the Maintenance Console. The cable required for this
connection is GDC 024H140.
An interactive control port for the Controller may be extended to a remote NETCON site. This
application uses the NETCON CRT link facility to control TMS-3000 through the CRT of a
NETCON operator.
Connections at the Controller site are made to serial Port 1 located at the back of the controller.
Typically, a modem link connects the port to a NETCON I/O port at another site.
NOTE
The Controller can be connected to a modem through which it can communicate
with a NETCON at a remote node. A NETCON-CRT link is described in GDC
058R675 and Chapter 4 of this manual. When the PC is connected to the TMS3000 through serial Port 0, serial Port 1 can be used to link a modem on NETCON
to the PC only if the PC monitor and keyboard are not connected or the PC is
logged off. Serial Port 1 on the back of the PC is the leftmost I/O Port. Serial Port
0 is to the right of serial Port 1. See Figure 1-7.
Synchronous
GDC 027H328 connects the synchronous port of the Controller to connector J20 on the TMS3000 backplane. The synchronous port is provided by a Digiboard Digichannel PC/8i+ or MC/
8i+ installed in the PC. Refer to Appendix A of this manual for installation instructions.
GDC 036R303-000
Shelf Installation
1-11
SERIAL PORT 0
TMS
Controller
028H303-XXX
SERIAL PORT 1
J20
TMS-3000
NODE
J19
Connect the TMS Maintenance
Console to the TMS-3000 using
GDC Cable 028H305-XXX. One
end connects to J19; the other
end connects to the Maintenance
Console port labelled "Modem" or
"Comm".
028H305-XXX
TMS Maintenance Console
Figure 1-6
Controller Hookup To TMS-3000 Node and Maintenance Console
028H303-XXX
SERIAL PORT 0
TMS
Controller
J20
TMS 3000
NODE
SERIAL PORT 1
Note that use of the NETCON
Controller requires the PC monitor
and keyboard to be disconnected.
External
Modem
Figure 1-7
External
Modem
NETCON
Controller
Controller Hookup to TMS-3000 Node Using NETCON Controller
Dial Backup Connections
To install Dial Backup using two external modems:
1.
Install cable 028H303 to the output port (Port 1) on the Controller. The DB-25 end of this
cable connects to the input of an external auto-dial modem. The VF output of this external
modem is connected into the phone line at the remote end. The output of the phone line
connects into the remote external modem.
2.
Utilizing GDC 028H502-XXX, connect one end to the output of the external modem. Connect the other side to J42 on the rear of the Main Shelf Backplane.
3.
Using the main menu and node configuration screens of the Controller, proceed to initiate
Dial Backup.
GDC 036R303-000
1-12
Shelf Installation
Supervisory Pass-Through Installation
Using GDC 028H303-025 or 028H320, connect the Controller output (Port 1) to connector J20 (TMS
Controller Input) on the TMS-3000 Backplane of the node at the local site. Next, using GDC 028H502XXX, connect the output connector (J42) of this node to J20 of the next node at the site. See Figure 1-8.
The supervisory route continues using the same GDC Cables until the desired number of nodes at the
site are connected.
Utilizing the configuration screens of the Main Controller, software establishes the supervisory data
communication path to each node at the site.
Nodes at the Local Site
027H303-XXX or
J20
028H320-XXX
Port 1
RCC
J42
TMS-3000
TMS-3000
Controller
028H502-XXX
J20
J42
RCC
TMS-3000
028H502-XXX
J20
J42
RCC
TMS-3000
028H502-XXX
TMS Nodes
Figure 1-8
GDC 036R303-000
Supervisory Pass Through Installation
Supervisory Pass
Through connects
through the RCC.
Shelf Installation
1-13
Summary
In this chapter we provided procedures for installation of the TMS-3000. Unpacking, shelf mounting, cable and wire connections, option selection, and system timing were all discussed.
What's Next?
In the next chapter we cover procedures for installation and optioning of TMS common cards.
GDC 036R303-000
2 Common Card Installation
Overview
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NOTE
The TMS-3000 utilizes the following components in the main shelf. Note that the terms
"Card" and "Module" are commonly used and interchanged in the field (and in this
manual). For example, Redundancy Control Card and Redundancy Control Module
refer to the same component.
ACC (Aggregate Control Card)
ACM (ADPCM Compression Module)
CDA (Combined Digital Aggregate) Module
CIC (Channel Interface Card)
DBC (Digital Bridging Card)
ESCC (Enterprise System Control Card)
IAC (ISDN Aggregate Control Card)
RCC (Redundancy Control Card)
TPP (TMS Packet Processor)
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Part Numbers
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Table 2-1
7066KHOIZLWK1RQUHGXQGDQW&RPPRQ/RJLF0
Equipment Supplied
Main Shelf Assembly
Assembly Filler Card
PCB Assembly, ESCC
PCB Assembly, Redundancy Control II
Designation
—
—
—
—
GDC Part No.
036B300-001
036C011-001
036P336-001
036P302-001
GDC 036R303-000
2-2
Common Card Installation
7066KHOIZLWK5HGXQGDQW&RPPRQ/RJLF0
Table 2-2
Equipment Supplied
Assembly Shelf TMS-3000
Assembly Filler Card TMS-3000
PCB Assembly, ESCC
PCB Assembly, Redundancy Control II
Designation
—
—
—
—
GDC Part No.
036B300-001
036C011-001
036P336-001
036P302-001
7061RQUHGXQGDQW([SDQVLRQ6KHOI0
Table 2-3
Equipment Supplied
Assembly Expansion Shelf TMS-3000
PCB Assembly, Expansion Card TMS-3000
Designation
—
—
GDC Part No.
036B301-001
036P307-002
7065HGXQGDQW([SDQVLRQ6KHOI0
Table 2-4
Equipment Supplied
Assembly Expansion Shelf
PCB Assembly, Expansion Card TMS-3000
Designation
—
—
GDC Part No.
036B301-001
036P307-002
Option Selection Devices
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Program Plugs
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7RUHPRYHDSURJUDPSOXJ
1.
Gently lift the plug from the socket with the extractor tongs provided with the TMS-3000.
To install a program plug:
1.
Determine the correct pin alignment.
2.
Carefully insert the program plug into the socket.
GDC 036R303-000
Common Card Installation
2-3
Switches
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Jumper Plugs
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GDC 036R303-000
2-4
Common Card Installation
Enterprise System Control Card
This section covers ESCC options. Associated tables and drawings provide detailed installation information.
ESCC Option Selection
7
6
5
4
3
2
1
0
ESCC options are selected by varying the positions of option Switches S2, S3 and S4 that are located on the ESCC printed circuit board assembly, as illustrated in Figure 2-2. Use Tables 2-5 and
2-6 to determine how to select each option.
S2
1 2 3 4 5 6 7 8
8
7
6
5
4
3
2
1
1 2 3 4 5 6 7 8
H
G
F
E
D
REAR MAINT
WDOGEN
COMPACT
1 2 3 4 5 6 7 8
S4
J20 EN
S4
S3
MISC
ESCC PCB Assembly GDC 036P336
Figure 2-2
GDC 036R303-000
Option Switch Locations
S3
Common Card Installation
Table 2-5
Option
Node Address
2-5
(6&&2SWLRQ'HVFULSWLRQ
Selection
1 thru 126
Switch
S2-1 thru
S2-7
S3-1
S3-1
S3-2
S3-2
S3-3
S3-3
S3-4
Setting
See Table 2-5
OFF
ON*
OFF
ON*
OFF*
ON
OFF
S3-4
ON*
Clock Bus 7 Frequency Special Rate
(PROG2)
1.344 MHz
S3-5
OFF
S3-5
ON*
External Timing
Source Impedance
Unbalanced
S3-6
OFF
Balanced
S3-6
ON*
Disabled
Enabled
Disabled
Enabled
Disabled
Enabled
Disabled
Enabled
Disabled
Enabled
Disabled
Enabled
Disabled
Enabled
Disabled
Enabled
Not Used
S4-1
S4-1
S4-2
S4-2
S4-3
S4-3
S4-4
S4-4
S4-5
S4-5
S4-6
S4-6
S4-7
S4-7
S4-8
S4-8
S2-8 , S37, S3-8
OFF
ON*
OFF
ON*
OFF
ON*
OFF
ON*
OFF
ON*
OFF
ON*
OFF
ON*
OFF
ON*
ON*
Node Type
Compact
TMS-3000
Watchdog
Disabled
Enabled
Monitor Port
Back
Front
Clock Bus 6 Frequency Special Rate
(PROG1)
1.536 MHz.
J20 RSET
J20 SER1TDATA
J20 SER1DTR
J20 TSET
J20 SER1RDATA
J20 SER1DSR
J20 LOCKFREQINB
J20 LOCKFREQINA
Not Used
Description
Used to select the address for the node (See Table 25).
Configures ESCC for operation as a Compact node.
Configures ESCC for operation as a TMS node.
Disables watchdog (for testing purposes).
Enables watchdog.
Selects back port for maintanance console.
Selects front port for maintenance console.
Selects special rate (PROG1) as clock frequency on
Clock Bus 6.
Selects 1.536 MHz as clock frequency on Clock Bus
6.
Selects special rate (PROG2) as clock frequency on
Clock Bus 7.
Selects 1.344 MHz as clock frequency on Clock Bus
7.
Selects unbalanced impedance for an external timing source, if any, on serial Port J18. Choose unbalanced impedance for EIA-232-D and RS-423
interfaces.
Selects balanced impedance for an external timing
source, if any, on serial Port J18. Choose balanced
impedance for V.35 and RS-422 interfaces.
Disables signal RSET on serial Port J20.
Enables signal RSET on serial Port J20.
Disables signal SER1TDATA on serial Port J20.
Enables signal SER1TDATA on serial Port J20.
Disables signal SER1DTR on serial Port J20.
Enables signal SER1DTR on serial Port J20.
Disables signal TSET on serial Port J20.
Enables signal TSET on serial Port J20.
Disables signal SER1RDATA on serial Port J20.
Enables signal SER1RDATA on serial Port J20.
Disables signal SER1DSR on serial Port J20.
Enables signal SER1DSR on serial Port J20.
Disables signal LOCKFREQINB on serial Port J20.
Enables signal LOCKFREQINB on serial Port J20.
Disables signal LOCKFREQINA on serial Port J20.
Enables signal LOCKFREQINA on serial Port J20.
These option switches must be set in the ON position.
* Default selection
GDC 036R303-000
2-6
Common Card Installation
(6&&1RGH$GGUHVV2SWLRQ
Table 2-6
Node
Switch Settings
Address S2-1 S2-2 S2-3 S2-4 S2-5 S2-6 S2-7
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
OFF
ON
OFF
ON
OFF
ON
OF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
GDC 036R303-000
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON ON
ON ON
ON ON
ON ON
ON ON
ON ON
ON ON
ON ON
ON ON
ON ON
ON ON
ON ON
ON ON
ON ON
ON ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
OFF ON
ON OFF
ON OFF
ON OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
Node
Switch Settings
Address
S2-1
S2-2
S2-3
S2-4
S2-5
S2-6
S2-7
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
Common Card Installation
Table 2-6
2-7
(6&&1RGH$GGUHVV2SWLRQ&RQW
Node
Switch Settings
Address S2-1 S2-2 S2-3 S2-4 S2-5 S2-6 S2-7
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
Node
Address
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
Switch Settings
S2-1
S2-2
S2-3
S2-4
S2-5
S2-6
S2-7
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ESCC Installation
7RLQVWDOOWKH(6&&LQWKH706VKHOISURFHHGDVIROORZV
1.
Place the ESCC front panel Enable/Disable switch in the Disable position.
2.
Position the ESCC in the receptacle guides (top and bottom) of the slot shown in Figure
2-3 and carefully slide the ESCC into the receptacle until it stops. Tilt the top ejector knob
up and the bottom ejector knob down and gently push the ESCC into the rear connector.
The knobs automatically assume their normal position.
3.
Place the ESCC front panel Enable/Disable switch in the Enable position.
GDC 036R303-000
Common Card Installation
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Figure 2-3
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Redundancy Control Card
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Aggregate Control Card
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Part Numbers
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EOHEUHDNVGRZQDVVHPEOLHVLQWRVXEDVVHPEOLHVWKDWIRUPWKHFRPSRQHQW
GDC 036R303-000
Common Card Installation
Table 2-7
2-9
$JJUHJDWH&RQWURO&DUG$VVHPEO\0
Equipment Supplied
PCB Assembly, Aggregate Control II
PCB Assembly Aggregate, Plug-In TMS-3000
Aggregate Interface plug-in cards:
EIA/TIA-232-E/ITU-T V.28 Aggregate Interface
ITU-T V.35 Aggregate Interface
EIA RS-422/423/MIL-STD-188/ITU-T V.10/V.11
Aggregate Interface
T1/D4 1.544 Mbps Aggregate Interface
T1/D4 1.544 Mbps Aggregate Interface
ITU-T G.703 64 Kbps Codirectional Aggregate Interface
ITU-T G.703 2.048 Mbps 75-ohm Aggregate Interface
ITU-T G.703 2.048 Mbps 12-ohm Aggregate Interface
ITU-T G.703 64 Kbps Contradirectional Aggregate
Interface
ITU-T G.703 256 Kbps 75-ohm Aggregate Interface
ITU-T G.703 256 Kbps 120-ohm Aggregate Interface
ITU-T G.704 2.048 Mbps 75/120 ohm Aggregate Interface
Designation
ACC-II
GDC Part No.
036P313-003
036P314-001
EIF-E
EIF-V
EIF-P
036P041-001
036P042-001
036P043-001
T1/D4
T1/D4
EIF-G
036P315-002
036P315-003
036P064-001
EIF-M1
036P065-001
EIF-M2
036P065-002
EIF-C
036P066-001
EIF-K1
336P065-001
EIF-K2
—
336P065-002
036P281-001
Aggregate Interface Connections
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GDC 036R303-000
2-10
Common Card Installation
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Table 2-8
GDC Cable No.
Description
Application
028H502
EIA/TIA-232-E/ITU-T V.28
027H507
ITU-T V.35
027H508
EIA RS-422/423 ITU-T
V.10/V.11 MIL-STD 188C
027H201
ATT DS (T1)
036H013
ITU-T V.35 (European)
027H307
T1 or ITU-T G.703 25-pin
connector to wire ends
027H408
EIA/TIA-232-E (422 Signals)
EIA/TIA-232-E (V.35 Signals)
EIA/TIA-232-E (422 Signals)
T1/D4 to T1/D4 Y-cable
For all 232-E and ITU-T V.28 aggregate trunks. Available in 5-, 15-, 25-, and 50-foot lengths. Straight through
cable.
For ITU-T V.35 trunks — generally used for domestic
applications. Available in 5-, 15-, and 25-foot lengths.
For EIA RS-422 or 423, ITU-T V.10 or V.11, MIL-STD
188C aggregate trunks. Available in 5-, 15-, and 25-foot
lengths, or other lengths up to 500 feet.
Standard connector for T1 lines, for connection to CSUs or
other devices with F-DB15 connectors.
For European V.35 applications. Available in 5-, 15-, or
25-foot lengths.
For T1 or ITU-T G.703 connections where connections to
trunk equipment are made using wire ends only (no
connectors). Available in 25- or 75-foot lengths.
Used for connection of RS-422 Aggregate to 422 Data
Chan., Submux.
Used for connection of ITU-T V.35 Aggregate Link to
business equipment connector on the DS-1 shelf.
Used for connection of RS-422 Aggregate Link to business equipment connector on the DS-1 Shelf.
Used for non-redundant pairs of CDA modules in adjacent
slots. Provides two T1 lines with DB-25 connectors.
027H517
027H531
027H316
Table 2-9
TMS-3000 25-Pin Connector Functions
Connector
J1-J16
J-19
J-20
J-41
J-42
J-43
Function
Aggregate Cable Connectors
VDU (Maintenance Console Terminal)
TMS-3000 Controller
Internal VF Modem
External Modem Port
Optional Module
Aggregate Connector Functions — Redundancy and Diversity
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Common Card Installation
2-11
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ORFDOQRGHDQGVHQGVDVHULDOVWUHDPDFURVVWKHIDVWEXVWRWKH$&&V2QO\DQ$&&FDQSHUIRUP
WKHLQWHUIDFHWDVNVIRUHDFKDJJUHJDWHWUXQN$&,&WKHUHIRUHGRHVQRWXVHWKHDJJUHJDWHWUXQN
FRQQHFWRUSRVLWLRQHGEHKLQGLW
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RIVORWV)RUWKLVUHDVRQ&KDQQHO,QWHUIDFHPRGXOHVDOZD\VUHTXLUHWZRVORWSRVLWLRQV,I\RX
FKRRVHWRKDYHDQRQUHGXQGDQW&,&WKHDGMDFHQWVORWPXVWEHHPSW\$OVRD&,&FDQQRWEH
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:KHQFRQILJXULQJDQ$&&WDNHWKHIROORZLQJVWHSVWRFRQILJXUHUHGXQGDQWRUQRQUHGXQGDQW
PRGXOHVDQGGLYHUVHRUQRQGLYHUVHDJJUHJDWHWUXQNV
1.
2.
3.
4.
Select diversity or single aggregate (non-diverse) on both ACCs in the pair. Use the berg
jumpers located on the ACC.
Select redundant or non-redundant on both ACCs. Use the berg jumpers located on the
ACC.
Select the options on Aggregate Interface Piggybacks A and B for both ACCs. Both boards
should be set the same.
For diversity, place the piggyback interface card for the lower connector on the right. Place
the piggyback interface card for the upper connector on the left. See Figure 2-4.
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IROORZLQJDSSOLHVDQGFRQQHFWDVGHVFULEHG1RWHWKDWRGGDQGHYHQQXPEHUHGVORWVDUHDVVHHQ
IURPWKHIURQWRIWKH706VWDUWLQJDWWKHOHIWZLWKQXPEHU
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LVFRQQHFWHGWRWKHVHFRQGDU\DJJUHJDWHWUXQN
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FRQQHFWHGWRWKHDJJUHJDWHWUXQN7KHORZHUFRQQHFWRULVQRWXVHG
$QRQUHGXQGDQWSDLUZLWKGLYHUVLW\¥7KHXSSHUFRQQHFWRULVFRQQHFWHGWRWKHSULPDU\DJJUH
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QHFWRUSLJJ\EDFN%IRUDJJUHJDWHWUXQNFRQQHFWLRQVWKH$&&LQDQHYHQQXPEHUHGVORWXVHV
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GDC 036R303-000
2-12
Common Card Installation
!
Do not use diversity in your system if you use AT&T’s Automatic Protection
Capability
A TPP-LAN with two media adapters can draw up to 15 amps from the +5 volt
power supplies. Consideration must be given to the maximum current drawn in a
TMS-3000.
NOTE
Consult General DataComm Service for information regarding the quantity of
power supplies and backplane selects on TMS nodes containing more than two
TPP cards or any number of TPP cards and more than three CDA, ACM, CIC or
ACC cards.
DS1
DS2
DS3
DS4
DS5
DS6
DS7
DS8
DS9
A
B
DS10
DS11
DS12
$JJUHJDWH,QWHUIDFH
3LJJ\EDFNIRU7RS
&RQQHFWRU
Figure 2-4
GDC 036R303-000
$JJUHJDWH,QWHUIDFH
3LJJ\EDFNIRU
%RWWRP&RQQHFWRU
$JJUHJDWH,QWHUIDFH3LJJ\EDFN3ODFHPHQWIRU'LYHUVLW\
DS13
DS14
DS15
Common Card Installation
Table 2-10
2-13
$JJUHJDWH&RQQHFWRU)XQFWLRQV
Connector
Number
J1
Redundant,
Redundant,
Non-redundant, Non-redundant,
Diverse
Non-diverse
Diverse
Non-diverse
Slot 1 + 2
Slot 1 + 2
Slot 1 or 2 *
Slot 1
Primary Aggregate
Aggregate
Primary Aggregate
Aggregate
J2
Slot 1 + 2
Not Used
Slot 1 or 2 *
Slot 2
Secondary Aggregate
Secondary Aggregate Aggregate
J3
Slot 3 + 4
Slot 3 + 4
Slot 3 or 4 *
Slot 3
Primary Aggregate
Aggregate
Primary Aggregate
Aggregate
J4
Slot 3 + 4
Not Used
Slot 3 or 4 *
Slot 4
Secondary Aggregate
Secondary Aggregate Aggregate
J5
Slot 5 + 6
Slot 5 + 6
Slot 5 or 6 *
Slot 5
Primary Aggregate
Aggregate
Primary Aggregate
Aggregate
J6
Slot 5 + 6
Not Used
Slot 5 or 6 *
Slot 6
Secondary Aggregate
Secondary Aggregate Aggregate
J7
Slot 7 + 8
Slot 7 + 8
Slot 7 or 8 *
Slot 7
Primary Aggregate
Aggregate
Primary Aggregate
Aggregate
J8
Slot 7 + 8
Not Used
Slot 7 or 8 *
Slot 8
Secondary Aggregate
Secondary Aggregate Aggregate
J9
Slot 9 + 10
Slot 9 + 10
Slot 9 or 10 *
Slot 9
Primary Aggregate
Aggregate
Primary Aggregate
Aggregate
J10
Slot 9 + 10
Not Used
Slot 9 or 10 *
Slot 10
Secondary Aggregate
Secondary Aggregate Aggregate
J11
Slot 11 + 12
Slot 11 + 12
Slot 11 or 12 *
Slot 11
Primary Aggregate
Aggregate
Primary Aggregate
Aggregate
J12
Slot 11 + 12
Not Used
Slot 11 or 12 *
Slot 12
Secondary Aggregate
Secondary Aggregate Aggregate
J13
Slot 13 + 14
Slot 13 + 14
Slot 13 or 14 *
Slot 13
Primary Aggregate
Aggregate
Primary Aggregate
Aggregate
J14
Slot 13 + 14
Not Used
Slot 13 or 14 *
Slot 14
Secondary Aggregate
Secondary Aggregate Aggregate
J15
Slot 15 + 16
Slot 15 + 16
Slot 15 or 16 *
Slot 15
Primary Aggregate
Aggregate
Primary Aggregate
Aggregate
J16
Slot 15 + 16
Not Used
Slot 15 or 16 *
Slot 16
Secondary Aggregate
Secondary Aggregate Aggregate
* In this arrangement the ACC cannot be paired with another ACC. It must be next to an empty slot.
GDC 036R303-000
2-14
Common Card Installation
ACC Options
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)LJXUH
ACC (GDC 036P313-001) assembly contains a factory adjustment switch SW3
!
that should never be changed in the field. It controls a critical factory adjustment option
which is set only when the PCB assembly is installed in a specialized test fixture at the
factory. The purpose of SW3 is to fine tune the turn-on and turn-off times of the fast bus
circuit Improper adjustment of this switch can cause erroneous data transfers between
common cards and possible node failure.
Table 2-11
$JJUHJDWH&RQWURO&DUG2SWLRQV
Switch (S), Jumpers (X)
Feature
Watchdog Inhibit
Redundancy
Diversity
Selection
Watchdog
Desig.
X1
Pos.
NORM
Inhibit Watchdog
X1
INHIB
W’DOG
Redundant
X9
RED
Non-redundant
X9
Diversity
X8
Application
This selection is located on the Aggregate Control Piggyback. It is for
in-house testing only. It should be
left in the NORM position.
Redundancy is selected if the ACC is
part of a redundant pair. RED is selected if the module is not part of a redundant pair.
DIV
Diversity is selected if the ACC is interfacing two aggregate trunks. DIV
Single AggreX8
is selected if the module is interfacgate
ing one aggregate trunk.
NOTE: Jumper X1 is located on the Aggregate Control Piggyback Card.
:KHQFRQILJXULQJDQRQUHGXQGDQW$&&ZGLYHUVLW\SODFHWKHUHGXQGDQF\-XPSHU;LQWRWKH
UHGXQGDQWSRVLWLRQ2WKHUZLVHDFRQILJXUDWLRQHUURUDSSHDUVRQWKH&RQWUROOHU
Anytime the diversity Jumper X8 is selected on the ACC, check that the redundancy
Jumper X9 is in its correct position.
NOTE
GDC 036R303-000
Figure 2-5
2-15
;
5('5('
',9',9
;
Common Card Installation
$JJUHJDWH&RQWURO&DUG2SWLRQ/RFDWLRQV
Aggregate Interface Plug-In Card Options
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EDODQFHGLQWHUIDFHRUDQ56XQEDODQFHGLQWHUIDFH7KHVHVHOHFWLRQVDUHGHVFULEHGLQ7DEOH
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IDFH3LJJ\EDFN5HY5HYLVLRQ-
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SRVLWLRQVDUHQRWODEHOHGRQWKHSFERDUGEXWDUHVKRZQRQWKHUHYHUVHVLGHLQ)LJXUH7KH
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XVHGIRUDOODSSOLFDWLRQVZKHUHD9SLJJ\EDFNLVFRQQHFWHGWRDQ56SLJJ\EDFNDWDUHPRWH
ORFDWLRQ
GDC 036R303-000
2-16
Common Card Installation
S3
UNB 21
BAL
S1
UNB
UNB
ON 1
2
3
4
X1
BAL
BAL
UNB
X3
BAL
UNB
NORM
0,/
%$/
BAL
TEST
81%
X2
S2
ON 1 2 3 4 5 6 7 8
Figure 2-6
1250
81%
%$/
X4
56$JJUHJDWH,QWHUIDFH3LJJ\EDFN2SWLRQ/RFDWLRQV
7KHSXUSRVHRIWKLVMXPSHULVWRFRUUHFWDSUREOHPZLWKWKHFORFNVDQGGDWDEHLQJLQYHUWHGRQROGHU
UHYLVLRQVRIWKHSLJJ\EDFNFDUG&DEOHQXPEHU+;;;FRPSHQVDWHVIRUWKLV,IWKLVFDEOH
LVWREHXVHGZLWK5HY-FDUGVVHW;WRWKH,19(57SRVLWLRQIRUSURSHURSHUDWLRQ
GDC 036R303-000
Common Card Installation
Table 2-12
2-17
56$JJUHJDWH,QWHUIDFH3LJJ\EDFN2SWLRQ6HOHFWLRQV
S1-1 Thru
S2-1,2-5
S1-4 Pos.
S3-1,4 Pos.
BAL (Off) BAL (Off)
S2-6,7
Pos.
BAL
(On)
S2-8
Pos.
NOR
M
(Off)
MIL-STD-188114 Balanced
Interface
BAL (Off)
BAL (Off)
BAL
(On)
MIL18 BAL
8
(On)
EIA RS-423
(ITU-T V.10)
Unbalanced
Interface
UNB (On)
UNB (On)
UNB
(Off)
NOR
M
(Off)
UNB
UNB
NOTE:
Berg Header X4
on this card is
used for test purposes only.
MIL-STD188-114
Unbalanced
Interface
UNB (On)
UNB (On)
UNB
(Off)
MIL18 UNB
8
(On)
UNB
Do NOT place a
jumper in either
position on this
header.
Feature
EIA-RS-422
(ITU-T V.11)
Balanced
Interface
X1
Pos.
BAL
X2,X3
Pos.
Application
BAL
This piggyback
may be set to operate in an RS422 mode
(equivalent to
ITU-T V.11) balanced mode, or a
MIL-STD-188114 balanced
mode.
BAL
It may be set to
operate in an RS423 mode
(equivalent to
ITU-T V.10) unbalanced mode
or a MIL-STD188-114 unbalanced mode.
GDC 036R303-000
2-18
Common Card Installation
036P042-001 REV J
FACTORY DEFAULT
SHOWN
NORM
INVERT
X2
COMPONENT SIDE
Figure 2-7
V.35 Aggregate Interface Piggyback Card
T1/D4 Aggregate Interface Piggyback
The latest version of the T1/D4 Aggregate Interface Piggyback card (GDC 036P315-003) can be
used in a TMS-3000. It is installed on the ACC of the TMS-3000 shelf. Jumpers provide option
selection for each application. Options are described in Table 2-13. Figure 2-8 shows the physical
location of the jumpers on the card.
The primary functions of the T1-D4 piggyback include the transmission and reception of the aggregate data stream as well as the insertion and detection of the D4 framing and synchronization patterns. The T1-D4 piggyback is also capable of local and remote alarm status reporting. These alarm
status lines are currently monitored on the TMS system.
GDC 036R303-000
Common Card Installation
Table 2-13
Feature
Clock
Master/Slave
Timing
Data FIFO
Include/Bypass
Clock FIFO
Include/Bypass
MSW/MM+
2-19
7'3LJJ\EDFN&DUG32SWLRQ6HOHFWLRQV
Selection
External
Jumper
Desig.
X1
Jumper
Pos.
EXT
Internal
X1
INT
Master
X2
M
Slave
X2
S
Include
X3
INC
Bypass
X3
BYP
Include
X4
INC
Bypass
X4
BYP
MSW
X5+X6
MSW
MM+
X5+X6
MM+
Application
The EXT position selects the external clock
supplied directly from the aggregate interface of the TMS-3000 ACC. The phase-lock
loop of the T1/D4 piggyback card is bypassed in EXT mode. With X1 in the INT
position, timing is selected from the output of
the phase-lock loop on the T1/D4 piggyback
card. When X1 is used in a TMS-3000, leave
X1 in the EXT mode.
This option selects an input to the phase-lock
loop on the T1/D4 piggyback card. At a master timing node, select M, so that the external
timing signal from the node is applied to the
phase-lock loop. At a slave timing node, select S, so that timing from the aggregate link
is applied to the phase-lock loop. When X1
is in the EXT position, the position of X2
does not matter in a TMS-3000.
The INC position includes FIFO buffers in
the data path. BYP bypasses the FIFO buffers. When the T1/D4 piggyback is used in a
TMS-3000 node, select BYP for X3.
The INC position includes FIFO buffers in
the timing path. BYP bypasses the FIFO
buffers. When the T1/D4 piggyback is used
in a TMS-3000 node, select BYP.
If the T1/D4 piggyback is used in a TMS3000 node, place X5 and X6 in the MSW position.
GDC 036R303-000
2-20
Common Card Installation
7RSRI3LJJ\EDFN&DUG
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Figure 2-8
GDC 036R303-000
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06:
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00
06:
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7'$JJUHJDWH,QWHUIDFH3LJJ\EDFN3
Common Card Installation
2-21
T1-DS0 and T1-FT1 Aggregate Interface Piggyback
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RIIHUD7LQWHUIDFHWKDWWDNHVDGYDQWDJHRIIUDFWLRQDO7VHUYLFHV,QVWHDGRISD\LQJIRUDIXOO7
OLQH\RXSD\RQO\IRUWKHEDQGZLGWKQHHGHGE\VHOHFWLQJWKHQXPEHU1RI'6FKDQQHOVZKHUH
≤1≤$VEDQGZLGWKUHTXLUHPHQWVFKDQJH\RXFDQFKDQJHWKHQXPEHURI'6V7KLVLVSDU
WLFXODUO\XVHIXODWIHHGHUQRGHVZKLFKW\SLFDOO\KDYHVPDOOHUEDQGZLGWKUHTXLUHPHQWV
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5HIHUWR*'&5DQG5IRUFRPSOHWHLQIRUPDWLRQRQWKHVHFDUGV
G.704 Aggregate Interface Piggyback
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FRQILJXUHG7KH*$JJUHJDWH,QWHUIDFH&DUGFRQWDLQVDSLQVRFNHWWKDWPDWHVZLWKSLQV
RQWKH$&&$QRSWLRQDOFRQQHFWRU;3PDWHVZLWKDODWHUYHUVLRQRIWKH$&&*'&3
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8VLQJ6ZLWFKHV6DQG6RQWKH*$JJUHJDWH,QWHUIDFH3LJJ\EDFN&DUG&5&PXOWLIUDPH
WLPH6ORWV\QFKURQRXVSOHVLRFKURQRXVFORFNLQJPRGHDQGWKHHODVWLFEXIIHUVPD\EHVHOHFWHG
LQDGGLWLRQWRWKH7UDQVPLW5HFHLYHLPSHGDQFHDWWKHDJJUHJDWHDQGWKHOLQHEDODQFH6HH)LJXUH
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•
Receive End — The grounding of signal RCVDATB is achieved by moving DIP Switch
S2-8 on the G.704 Aggregate Interface Piggyback card to the UNB or closed (ON) position.
This connects RCVDATB to Signal Ground.
•
Transmit End — The grounding of signal XMTDATB is achieved by soldering a zero ohm
resistor (or a simple wire link) to future use resistor R11 (F/U R11) located on the right
hand side of connector XP1 (See Figure 2-9). This connects XMTDATB to Signal Ground.
GDC 036R303-000
2-22
Common Card Installation
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6
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21
21 1
2
3
4
5
6
7
8
6
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3
4
5
6
7
8
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6
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Figure 2-9
GDC 036R303-000
*$JJUHJDWH,QWHUIDFH3LJJ\EDFN&DUG
21
6
2))
Common Card Installation
Table 2-14
Switch No.
S1-1
Desig.
1
Off
Not used
Leave Switches S1-6 through 8 in the Off position.
DIS
On
CRC4 multiframe is not used.
CRC
Off
D16
S16
PLE
On
Off
On
CRC4 multiframe
disabled
CRC4 multiframe
enabled
D16 Time slot
S16 Time slot
Plesiochronous
Clocking Mode
SYN
Off
Synchronous
Clocking Mode
TER
On
SAT
Off
Terrestrial Elastic
Buffer
Satellite Elastic
75
On
75Ω Impedance
120
Off
120Ω Impedance
75
120
120
On
Off
On
75Ω Impedance
120Ω Impedance
120Ω Impedance
75
Off
75Ω Impedance
UNB
On
Unbalanced
BAL
Off
Balanced
S1-4
8
S1-5
16
S2-5
S2-6
S2-7
S2-8
Application
Switch S1-1 through S1-5 define the value of N in N
x 64. Add the values of the five switches together for
the value of N. The switch setting affects the elastic
buffer size for the synchronous buffer mode only.
Value of 2
No value
Value of 4
No value
Value of 8
No value
Value of 16
No value
4
S2-4
Function
Value of 1
On
Off
On
Off
On
Off
On
Off
S1-3
S2-3
Position
On
No value
2
S2-2
*$JJUHJDWH,QWHUIDFH3LJJ\EDFN&DUG2SWLRQ6HOHFWLRQV
Off
S1-2
S1-6
through
S1-8
S2-1
2-23
The CRC4 multiframe mode is enabled.
Time Slot 16 carries data.
Time Slot 16 is skipped by data.
Place the G.704 in the Plesiochronous Clocking
Mode if clocks at either end of an aggregate link are
synchronized by two different master clocks or communicating via a satellite link. The elastic buffer
depth is set by the TER/SAT (S2-4) switch operation.
Place the G.704 in the Synchronous Clocking Mode
if at both ends of the aggregate link the transmit and
receive clocks are synchronized to the same master
clock. The elastic buffer depth is set by hardware.
Only used in the plesiochronous clocking mode. Selects ±256-bit elastic buffer.
Used in the plesiochronous clocking mode. Selects
±2048-bit elastic buffer
Setting to 120 provides a receive data line impedance of 120 ohms for the G.704. Setting at 75 provides a receive line impedance of 75 ohms.
Same as S2-5.
Setting to 120 provides a transmit data line impedance of 120 ohms for the G.704. Setting at 75 provides a receive line impedance of 75 ohms.
Setting to UNB provides an unbalanced line condition.
Setting to BAL provides a balanced line condition.
GDC 036R303-000
2-24
Common Card Installation
Table 2-15
Mode
Plesiochronous
(Satellite)
Plesiochronous
(Terrestrial)
Synchronous
Synchronous
Synchronous
Synchronous
G.704 Aggregate Interface Buffer Size
Value of N
Buffer
Size(bits)
Max. Delay
(Bit times)
Max. Delay
(µsec)
—
±2048
4096
2000
—
±256
512
250
1
2-3
4-7
8-31
±16
±32
±48
±80
32
64
96
160
16
31
47
78
Combined Digital Aggregate (CDA) Module
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,QVHUWWKH&'$0RGXOHLQWRWKHVKHOIE\SUHVVLQJLWLQILUPO\7RUHPRYHWKH&'$0RGXOHILUVW
SUHVVWKH'VEOGLVDEOHVZLWFKRQWKHIURQWSDQHORQFH$OOIURQWSDQHO/('VVKRXOGJRRII7KH
PRGXOHLVQRZLQDORZSRZHUPRGHDQGPD\EHUHPRYHGIURPWKHVKHOILQWKHXVXDOPDQQHU,I
WKHPRGXOHLVQRWUHPRYHGSUHVVLQJWKH'VEOVZLWFKRQFHPRUHUHDFWLYDWHVWKHPRGXOHDQGWKH,1,7
/('OLJKWV
Part Numbers
7KH&'$0RGXOHFRQVLVWVRIIRXUFDUGV¥WKH&'$EDVHFDUGWKH&'$7RU&'$(PLFURSUR
FHVVRUSOXJLQFDUGDQGWZR&'$7RU&'$(,2FDUGV7KH&'$7,2FDUGLVWKHLQWHUIDFH
EHWZHHQWKH&'$EDVHFDUGDQGD7OLQHZKLOHWKH&'$(,2FDUGSURYLGHVWKHLQWHUIDFHZLWK
&(37*DQG*WUDQVPLVVLRQIRUPDWV(DFK,2SOXJLQFDUGLVD;LQFKSULQWHG
FLUFXLWERDUGDQGFRQWDLQVWKUHHFRQQHFWRUVWKDWPDWHZLWKWKHEDVHFDUG5HIHUWR7DEOHVDQG
GDC 036R303-000
Common Card Installation
Table 2-16
2-25
&'$70RGXOH0
Equipment Supplied
PCB Assembly, Base Card
PCB Assembly, I/O Piggyback (T1)
PCB Assembly, Micro Piggyback
PCB Assembly, I/O Piggyback (G.732 CEPT 2.048 MHz)
Table 2-17
Designation
—
—
—
—
GDC Part No.
036P309-001
036P310-001
036P316-001
036P282-001
&'$(0RGXOH0
Equipment Supplied
PCB Assembly, Base Card
PCB Assembly, Micro Piggyback
PCB Assembly, I/O Piggyback (G.732 CEPT
2.048 MHz) (Qty. 2)
Designation
—
—
—
GDC Part No.
036P309-001
036P316-001
036P282-001
CDA Option Selections
7KH&'$EDVHFDUGFRQWDLQVDKDUGZDUHMXPSHU;IRUUHGXQGDQF\7KLVMXPSHUVKRXOGEH
VHWWR5('ZKHQXVLQJDUHGXQGDQW&'$SDLURUZKHQXVLQJDQRQUHGXQGDQW&'$,WVKRXOG
EHVHWWR15('ZKHQXVLQJDQRQUHGXQGDQW&'$1RWHWKDWZKHQXVLQJDQRQUHGXQGDQW
&'$LWVSDLUHGVORWPXVWEHHPSW\7KH&'$EDVHFDUGDOVRFRQWDLQV6ZLWFK6ZKLFKLV
DIDFWRU\DGMXVWPHQWVZLWFK8VHRIWKLVVZLWFKPD\FDXVHHUURQHRXVGDWDWUDQVIHUVRUFRPSOHWH
QRGHIDLOXUH
Switch S2 should never be changed in the field. It controls a critical factory
adjustment option which is set only when the PCB assembly is installed in a
specialized test fixture at the factory. The purpose of Switch S2 is to fine tune
the turn-on and turn-off times of the fast bus circuit. Improper adjustment of
this switch can cause erroneous data transfers between common cards and
possible node failure.
7KH&'$,2FDUGVRSHUDWHLQWZRPRGHVKDUGZDUHDQGVRIWZDUH2QSRZHUXSWKH,2FDUG
FRPHVXSLQWKHKDUGZDUHPRGH7KH',36ZLWFK6RQWKH,2FDUGHVWDEOLVKHVWKHFRQILJXUDWLRQ
RIWKHFDUG7KH,2FDUGFRQWLQXHVWRRSHUDWHLQKDUGZDUHPRGHXQWLOWKH&'$UHFHLYHVFRQILJ
XUDWLRQGDWDIURPWKH&RQWUROOHU$WWKDWWLPHWKH,2FDUGVZLWFKHVWRVRIWZDUHPRGHXVLQJWKH
VHWWLQJVGHILQHGLQWKHFRQILJXUDWLRQ)LJXUHVKRZVWKHORFDWLRQRI',36ZLWFK6RQWKH7
,2FDUGDQG7DEOHGHILQHVWKHVZLWFKVHWWLQJVIRUWKH7,2)LJXUHVKRZVWKHEDVH
FDUGDQG)LJXUHVKRZVUHGXQGDQWDQGQRQUHGXQGDQWFDEOHFRQQHFWLRQV7KH(,2FDUG
DOVRSURYLGHVWKHPHDQVWRVHOHFWWKHOLQHLPSHGDQFHRIWKHDJJUHJDWHDWHLWKHURURKPV
-XPSHUV;¤;7KH706GRHVQRWVXSSO\DFRD[LDOFRQQHFWLRQWRSURYLGHDRKPXQ
EDODQFHGLQWHUIDFH)LJXUHVKRZVWKHORFDWLRQRI',36ZLWFK6DQG-XPSHUV;¤;RQWKH
(,2FDUGDQG7DEOHGHILQHVWKHVHWWLQJV
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VKRXOGDOZD\VEHVHWWRHQDEOH
GDC 036R303-000
2-26
Common Card Installation
CDA-T1/E1 Aggregate Interface Cable Connections
7KH&'$0RGXOHKDVWZR,QSXW2XWSXWFDUGV(DFK,QSXW2XWSXWFDUGFRQWDLQVRQHSRUW(DFK
SRUWLVGHGLFDWHGWRDVSHFLILFEDFNSODQHFRQQHFWRUXVLQJDVSHFLILFSLQRXWDUUDQJHPHQW6LQFHWKH
SRUWVDUHVHSDUDWHWKH\GRQRWSURYLGHDGLYHUVHEDFNXSWRHDFKRWKHU5HIHUWR7DEOH
;3
6
21
;3
Figure 2-10
GDC 036R303-000
&'$7,23OXJ,Q&DUG2SWLRQ/RFDWLRQV
;3
Common Card Installation
Table 2-18
Switch
Number
S1-1
B8ZS/Dis
&'$7,23OXJ,Q&DUG32SWLRQ6HOHFWLRQV
Switch
Position
Off
S1-2
Bit 7/ Trans
S1-3
ESF/D4
2-27
Application
Function
Enables B8ZS
line coding
On
Disables B8ZS
line coding
Off
Bit 7 Substitution
Enabled
On
Transparent
Off
Selects ESF
Framing
On
Bit 8 Zero Suppression (B8ZS) is a technique designed to meet the spectral density specification.
This technique creates an intentional double Bipolar
violation at the transmitting end when 8 consecutive
zeros are detected. Bipolar return to zero is the modulation technique used in T1 which requires subsequent marks of polarity opposite to the previous
marks. The bipolar violation is detected and removed at the receive end of the network.
In B7 substitution, ones density is implied. This
means that bit (7) for select DS0 frames is set to one.
When B7 is enabled, the bandwidth available for
type subaggregates varies with each DS0 slot selecting “Trans’’ bypasses this technique on the DS0
frame format.
Two methods of framing exist in a DS1 data stream.
A D4 frame consists of twelve 193-bit frames called
a Superframe. An ESF retains the structure of D4,
but consists of twenty-four 193-bit frames instead of
twelve. ESF is known as Extended Superframe.
Selects D4
Framing
Clock and data extraction are improved by cable
S1-5 (LEN2) S1-5 S1-6 S1-7 Selects line length
length transmit equalization. This feature allows
S1-6 (LEN1) On
Off
Off
0-220 ft.
line lengths of up to 655 feet to be used without the
S1-7 (LEN2) On
On
Off
220-440 ft.
customary line build-out networks. With line transOn
Off
On
440-655 ft.
mit equalization, the pulse shape and amplitude at
properly terminated receiving equipment conforms
On
Off
Off
0-133 ft.
to AT&T standards. The line length selections supOff
On
On
266-399 ft.
port a three partition arrangement for MAT and
Off
On
Off
399-533 ft.
ICOT, and a five partition arrangement for ABAM,
Off
Off
On
533-655 ft.
PULP and PIC cables. Configure S1-5, 6, 7 to the
proper length and cable type.
Off
Off
Off
G.704, G.732
On
On
On
2.048 MHz (CEPT)
NOTE: S1-2 should always be in the ON position. Only B8ZS or Bit 7 substitution can be enabled at a time. Selecting both functions simultaneously is not allowed.
NOTE: S1-8 is not used and should remain in the OFF position.
Table 2-19
Feature
Redundant/
&'$%DVH&DUG2SWLRQV
Selection
Redundant
Non-Redundant Non-Redundant
CDA Module
Switch (S), Jumpers (X)
Desig.
Position
X15
RED
X15
NON-RED
Application
Proper system operation requires that the CDA
module knows whether it is redundant or not
prior to program or configuration download.
If using the CDA as a redundant pair, set this
jumper to RED. If using the CDA as a nonredundant pair, set this jumper to NON-RED.
GDC 036R303-000
2-28
Common Card Installation
FL1
FL2
TP5
TP4
TP3
TP2
TP1
Figure 2-11
CDA Base Card Option Locations
In a redundant situation the CDA Module Input/Output ports are dedicated to one of the DB25 connectors on the backplane. Port 1 goes to the upper connector of the backplane, Port 2 to the lower
connector. Use GDC 027H201 which provides a standard connection to T1 lines.
If non-redundant CDA Modules are used in adjacent slots, the Input/Output ports of each module
use different pins of the same DB25 connector. They split externally through a "Y cable" (GDC
027H316) attached to the backplane. The module in the primary slot uses the upper portion of the
upper connector for Port 1 and the upper portion of the lower connector for Port 2. The module in
the secondary slot uses the lower portion of the lower connector for Port 1 and the lower portion of
the upper connector for Port 2.
DB25 Pinout Configuration for a Redundant CDA Module is given in Figure 2-12, along with configuration for a non-redundant CDA Module in adjacent slots. Table 2-20 contains the CDA aggregate cable connections.
GDC 036R303-000
Common Card Installation
2-29
DB 25
UPPER CONNECTOR J1
SLOTS 1-15 (ODD)
Port BB
PORT
XMT A
XMT B
RCV A
RCV B
CDA
CDA
Module
MODULE
Port A
PORT A
4
25
8
18
2
14
3
16
SLOTS 2-16 (EVEN)
XMT A
XMT B
RCV A
RCV B
4
25
8
18
2
14
3
16
Port A
CDA
MODULE
CDA Module
DB 25
LOWER CONNECTOR J2
XMT A
XMT B
RCV A
RCV B
PORT A
XMT A
XMT B
RCV A
RCV B
Port
BB
PORT
Y-CABLE 027H316 IS REQUIRED TO ACCESS 1 (ODD) AGGREGATE INTERFACE.
FOR NON REDUNDANT MODULES IN ADJACENT SLOTS
SECONDARY
SLOTS 1-15 (ODD)
PORT
Port AA
XMT A
XMT B
RCV A
RCV B
CDA
MODULE
CDA
Module
Port B
PORT B
PRIMARY
SLOTS 2-16 (EVEN)
DB 25
UPPER CONNECTOR J1
2
14
3
16
2
14
3
16
XMT A
XMT B
RCV A
RCV B
2
14
3
16
2
14
3
16
Port A
CDA
MODULE
CDA Module
DB 25
LOWER CONNECTOR J2
XMT A
XMT B
RCV A
RCV B
PORT A
XMT A
XMT B
RCV A
RCV B
Port
BB
PORT
CDA MODULES CONFIGURED AS A REDUNDANT PAIR OR ONE
NON-REDUNDANT CDA MODULE WITH THE ADJACENT SLOT EMPTY
Figure 2-12
DB25 Backplane Connections for CDA Module
GDC 036R303-000
2-30
Common Card Installation
Table 2-20
&'$$JJUHJDWH&DEOH&RQQHFWLRQV
Configuration
Redundant
*Connector
Pins
Y Cable
CDA Port
Upper DB-25
2,14,3,16
Not Used
Even or Odd Slot Port A
Lower DB-25
2,14,3,16
Not Used
Even or Odd Slot Port B
Non-redundant
Upper DB-25
2,14,3,16
P2
Even Slot Port A
(Odd number)
4,25,8,18
P3
Odd Slot Port B
Lower DB-25
2,3,14,16
P2
Even Slot Port B
(Even number)
4,25,8,18
P3
Odd Slot Port A
NOTE: Generally, Port A of either CDA Module in a redundant pair comes out on the upper DB-25 connector and
Port B comes out on the lower DB-25 connector. When non-redundant modules are used in adjacent slots, Port A
and Port B of the even-numbered slot come out on the upper and lower connectors as before, but Port A and Port B
of the odd-numbered slot come out on alternate pins of these connections. The different ports are then split externally
using a special Y-cable (GDC 027H316).
* This connector is located on the backplane of the main shelf. If a Y-cable is used, connect P1 of the Y-cable to
this connector.
Table 2-21
&'$(*,23OXJ,Q&DUG2SWLRQV
Switch(S), Jumpers(X)
Feature
Selection
Desig.
Position
Function
Receive Line Impedance
75 ohms
X1
75
Setting at 75 provides a line impedance of 75
ohms for the G.732. Setting at 120 provides a
120 ohms
120
line impedance of 120 ohms.
Receive Line Impedance
75 ohms
X2
75
Setting at 75 provides a line impedance of 75
ohms for the G.732. Setting at 120 provides a
120 ohms
120
line impedance of 120 ohms.
Transmit Line Impedance
75 ohms
X3
75
Setting at 75 provides a line impedance of 75
120 ohms
ohms for the G.732. Setting at 120 provides a
120
line impedance of 120 ohms.
Receive Shield Ground
75 ohms
X4
75
Setting at 75 provides a ground reference on the
Recv B lead for unbalanced interfaces (normally
used with 75 ohm coaxial interfaces). Setting at
120 ohms
120
120 provides for a balanced Recv input (normal
setting).
Transmit Shield Ground
Ground
X9
GND
GND selection provides a ground reference on the
output port as recommended by G.703 for use
Open
OPEN
with 75 ohm interfaces.
OPEN selection is for use with a 120 ohm interface and provides a balanced interface at the output port.
CAS Signaling (TS16) EnS1-1
S1-2
Switches S1-1 and S1-2 selects CAS, CRC-4, or
abled. CRC-4 Disabled.
both for use on the G.732 I/O plug-in card.
On
On
CAS Signaling (TS16)
Off
On
Disabled. CRC-4 Disabled.
CAS Signaling (TS16) EnOn
Off
abled. CRC-4 Enabled.
CAS Signaling (TS16)
Off
Off
Disabled. CRC-4 Enabled.
NOTE: Switches S1-3 and S1-4 remain in the OFF position.
GDC 036R303-000
*1' 23(1
;
;3
Figure 2-13
X2
75
S1
X3
75
3 4
X1
X4
75
2
;3
120 120 120 120
ON 1
2-31
75
Common Card Installation
;3
&'$(,23OXJ,Q&DUG2SWLRQ/RFDWLRQV
ADPCM Compression Module (ACM)
,QVHUWWKH$&0LQWRWKHVKHOIE\SUHVVLQJLWLQILUPO\7RUHPRYHWKH$&0ILUVWSUHVVWKH'VEO
GLVDEOHVZLWFKRQWKHIURQWSDQHORQFH$OOIURQWSDQHO/('VVKRXOGJRRII7KHPRGXOHLVQRZ
GLVDEOHGDQGPD\EHUHPRYHGIURPWKHVKHOILQWKHXVXDOPDQQHU,IWKHPRGXOHLVQRWUHPRYHG
SUHVVLQJWKH'VEOVZLWFKRQFHPRUHUHVHWVWKHPRGXOH:KHQWKH$&0LVSOXJJHGLQLWSHUIRUPV
DUHVHW
Part Numbers
7KLVVHFWLRQSURYLGHVLQIRUPDWLRQWREHXVHGWRSURFXUHUHSODFHPHQWDVVHPEOLHVDQGSFERDUGV
7DEOHVDQGEUHDNGRZQDVVHPEOLHVLQWRVXEDVVHPEOLHVWKDWIRUPWKHFRPSRQHQW
GDC 036R303-000
2-32
Common Card Installation
Table 2-22
$&070RGXOH0
Equipment Supplied
PCB Assembly, Base Card
PCB Assembly, Micro Piggyback
PCB Assembly, I/O Piggyback
PCB Assembly, ADPCM SMT Plug-In
Table 2-23
Designation
—
—
—
—
GDC Part No.
036P332-001
036P316-001
036P310-001
036P333-001
$&0(,7870RGXOH0
Equipment Supplied
PCB Assembly, Base Card
PCB Assembly, Micro Piggyback
PCB Assembly, I/O Piggyback
PCB Assembly, ADPCM SMT Plug-In
Designation
—
—
—
—
GDC Part No.
036P332-001
036P316-001
036P282-001
036P333-002
A maximum of 12 ACMs (6 pairs) can be installed in the TMS-3000 main shelf
regardless of the type of power supply used. Also, keep the ACM away from the
end slots in the main shelf where there is minimal airflow.
ACM Option Selections
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DQGDQ$'3&0607SOXJLQFDUG$YDLODEOHKDUGZDUHRSWLRQVDUHORFDWHGRQWKH,2SOXJLQVDQG
EDVHFDUG$Q,QSXW2XWSXWFDUGLVWKHLQWHUIDFHEHWZHHQWKH$&0EDVHFDUGDQGWKH7OLQH,WLV
DUHPRYDEOHPRGXOHVRWKDWGLIIHUHQWLQWHUIDFHVFDQEHHDVLO\LQVWDOOHG7KH,23OXJLQFDUGDOORZV
IRUGLIIHUHQWLQWHUIDFHSDUDPHWHUVWREHPHW
7KH$&0FRQQHFWVWRHLWKHURIWZR'%FRQQHFWRUVRQWKHEDFNSODQHIRUOLQNFRQQHFWLRQV7KH
WRSFRQQHFWRULVGHVLJQDWHGDV$WKHERWWRPFRQQHFWRULVGHVLJQDWHGDV%7KHWRSFRQQHFWRUV
DUHWKHRGGQXPEHUHG-GHVLJQDWLRQVWKHERWWRPFRQQHFWRUVDUHHYHQQXPEHUHG
$Q$&0LQ6ORW1ZKHUH1LVRGGKDVLWVSRUWVDW'%FRQQHFWRU1:KHQWKHVORWLVHYHQ
WKHDVVRFLDWHGFRQQHFWRULV1
$Q$&0(0RGXOHLVXVHGRQWKH,787QHWZRUN0ESV5HIHUWRWKH&'$(0RGXOH
VHFWLRQWRFRQILJXUHWKH$&0(,2FDUG
&RQILJXUHPRVW$&0RSWLRQVWKURXJKWKH&RQWUROOHUVRIWZDUHVFUHHQV5HIHUWRWKH2SHUDWLRQ
0DQXDOIRU706&RQWUROOHU*'&59QQQIRUPRUHLQIRUPDWLRQRQ$&0VRIWZDUH
RSWLRQV
-XPSHU;LVVHWRQWKHEDVHFDUGIRUUHGXQGDQF\6HOHFWWKHRSWLRQIRUUHGXQGDQWRUQRQUHGXQGDQW
RSHUDWLRQRQERWK$&00RGXOHV7DEOHVKRZVKRZWRFRQILJXUH-XPSHU;RQWKH$&0EDVH
FDUGIRUUHGXQGDQWRUQRQUHGXQGDQWRSHUDWLRQ)LJXUHVKRZVWKHORFDWLRQRI-XPSHU;
6ZLWFK6RQWKH$&0EDVHFDUGVHWVWKH)DVW%XV7LPLQJ7KLVVZLWFKLVIDFWRU\VHWDQGVKRXOG
QRWEHDGMXVWHG
GDC 036R303-000
Common Card Installation
2-33
7DEOHVKRZVKRZWRFRQILJXUH$&07,2SOXJLQFDUG',36ZLWFK67KHORFDWLRQRI
6RQWKH$&07,2SOXJLQFDUGLVVKRZQLQ)LJXUH
;$3
FL1
;$3
;$3
DS7
DS6
DS5
DS4
DS3
S1
DS2
DS1
73
;$3
XA2P3
DS8
;$3
21
X12
5('15('
;
;3
;$3
XA2P4
DS9
;$3
;$3
;3
FL 2
J1
NOTE: Jumper X12 and Switch S2 are factory set. Do not change.
Figure 2-14
$&02SWLRQ/RFDWLRQV
GDC 036R303-000
2-34
Common Card Installation
XP2
ON 1 12 23 4
3 45 56 7
6 8
7 8
ON
S1
S1
XP3
XP1
Figure 2-15
ACM/T1 I/O Plug-In Card, Option Locations
Table 2-24
ACM Option Selections
Feature
Selection
Redundant/
Redundant
Non-Redundant
Non-Redundant
ACM
GDC 036R303-000
Switch (S), Jumpers (X)
Desig.
Position
X3
RED
X3
NON-RED
Application
Proper system operation requires that the
ACM knows whether it is redundant or not prior to program or configuration download. If
using ACM as a redundant pair, set this jumper to RED. If using ACM as a non-redundant
pair, set this jumper to NON-RED.
Common Card Installation
Table 2-25
Switch
Number
S1-1
B8ZS/Dis
S1-2
Bit 7/ Trans
S1-3
ESF/D4
2-35
$&07,23OXJ,Q&DUG2SWLRQ6HOHFWLRQV
Switch
Position
Off
Function
Enables B8ZS
line coding
On
Disables B8ZS
line coding
Off
Bit 7 Substitution
Enabled*
On
Transparent
Off
Selects ESF Framing
On
Selects D4 Framing
Application
Bit 8 Zero Suppression (B8ZS) is a technique designed to meet the spectral density specification.
This technique creates an intentional double bipolar
violation at the transmitting end when 8 consecutive
zeros are detected. Bipolar return to zero is the modulation technique used in T1 which requires subsequent marks of polarity opposite to the previous
marks. The bipolar violation is detected and removed at the receive end of the network.
In B7 substitution, ones density is implied. This
means that bit (7) for select DS0 frames is set to one.
When B7 is enabled, bandwidth available for type
subaggregates varies with each DS0 slot. Selecting
“Trans’’ bypasses this technique on the DS0 frame
format.
Two methods of framing exist in a DS1 data stream.
A D4 frame consists of twelve 193-bit frames called
a Superframe. An ESF retains the structure of D4,
but consists of twenty-four 193-bit frames instead of
12. ESF is known as Extended Superframe.
Clock and data extraction are improved by cable
length transmit equalization. This feature allows
line lengths of up to 655 feet to be used without the
customary line build-out networks. With line transmit equalization, the pulse shape and amplitude at
properly terminated receiving equipment conforms
to AT&T standards. The line length selections support a three partition arrangement for MAT and
ICOT, and a five partition arrangement for ABAM,
PULP, and PIC cables. Configure S1-5, 6, 7 to the
proper length and cable type.
S1-5 (LEN2) S1-5 S1-6 S1-7 Selects line length
Off
Off
0-220 ft.
S1-6 (LEN1) On
On
Off
220-440 ft.
S1-7 (LEN2) On
On
Off
On
440-655 ft.
On
Off
Off
0-133 ft.
Off
On
On
266-399 ft.
Off
On
Off
399-533 ft.
Off
Off
On
533-655 ft.
Off
Off
Off
G.704, G.732
On
On
On
2.048 MHz (CEPT)
*Bit 7 substitution is not used. Switch S1-2 should always be in the ON position.
NOTE: S1-8 is not used and should remain in the OFF position.
GDC 036R303-000
2-36
Common Card Installation
ACM Interface Cable Connections
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EDFNSODQHFRQQHFWRUXVLQJDVSHFLILFSLQRXWDUUDQJHPHQW6LQFHWKHVHSRUWVDUHVHSDUDWHWKH\GR
QRWSURYLGHDGLYHUVHEDFNXSWRHDFKRWKHU
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WR7DEOHWRVHHWKH$&&FRQQHFWLRQV
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$&0V7DEOHSURYLGHV'%DJJUHJDWHSLQRXWFRQQHFWRUVIRUDSDLURIUHGXQGDQW$&0V
8SSHU'%
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16
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2
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14
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3
5&9%
16
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5&9%
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14
3
16
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$&0
%$&0VFRQILJXUHGDVDQRQUHGXQGDQW$&0ZLWKWKHDGMDFHQWVORWRFFXSLHG
Figure 2-16
GDC 036R303-000
'%%3&RQQHFWRUIRU$&00RGXOH
Common Card Installation
Table 2-26
2-37
$&0$JJUHJDWH&DEOH&RQQHFWLRQV
Configuration
Redundant
Non-Redundant
*Connector
Pins
Y Cable
Upper DB-25 2,14,3,16 Not Used
Upper DB-25 2,14,3,16 Not Used
Lower DB-25 2,14,3,16 Not Used
*This connector is located on the backplane of the main shelf.
nect P1 of the Y-cable to this connector.
ACM Port
Even or Odd Slot Port A
Even slot
Odd slot
If a Y-cable is used, con-
Channel Interface Card
7KLVVHFWLRQFRYHUV&KDQQHO,QWHUIDFHULEERQFDEOLQJPRGXOHRSWLRQVDQGLQVWDOODWLRQDQGWKH
XVHLQVWDOODWLRQDQGFDEOLQJRI)OH[&DUGV
Channel Interface Card to Expansion Shelf Ribbon Cabling
5HIHUWR\RXU1HWZRUN'RFXPHQWDWLRQ3DFNDJHIRU5LEERQ&DEOLQJLQVWDOODWLRQLQVWUXFWLRQVIRU
\RXUQHWZRUN7KHSOXJLQORFDWLRQVIRUWKH5LEERQ&DEOHVRQWKH0DLQ6KHOI%DFNSODQHDQGWKH
([SDQVLRQ6KHOI%DFNSODQHDUHVKRZQLQ)LJXUHVDQG
J 41
J 42
J 40 J 39 J 38 J 37 J 36 J 35 J 34 J 33
Figure 2-17
J 29 J 28 J 27 J 26 J 25 J 24 J 23 J 22 J 21
0DLQ6KHOI%DFNSODQH3LQ5LEERQ&DEOH&RQQHFWRUV5HDU9LHZ
GDC 036R303-000
2-38
50
Common Card Installation
J 18
50
1
Figure 2-18
J 17
1
([SDQVLRQ6KHOI%DFNSODQH3LQ5LEERQ&DEOH&RQQHFWRUV5HDU9LHZ
5LEERQFDEOHVDUHH[WHQGHGIURPWKHSLQFRQQHFWRUVIRUD&,&WRHDFK([SDQVLRQ6KHOIKROGLQJ
WKHFKDQQHOPRGXOHVWKDWFRPPXQLFDWHWKURXJKWKDW&,&([SDQVLRQVKHOYHVFDQEHFRQQHFWHGWR
WKH706XVLQJIOH[FDUGV)OH[FDUGVDUHGHVFULEHGODWHULQWKLVVHFWLRQ
All channels on an Expansion Shelf must communicate through the same CIC.
NOTE
2QWKH0DLQ6KHOI%DFNSODQHWKHSLQULEERQFDEOHFRQQHFWRUVDUH-WKURXJK-DQG-
WKURXJK-2QWKH([SDQVLRQ6KHOI%DFNSODQHWKHSLQULEERQFDEOHFRQQHFWRUVDUH-DQG
-
!
When connecting the ribbon cable to the Main Harness Backplane, pin 1
should be up. Pin 1 is identified by a colored tracer on one edge of the ribbon
cabling.
The ribbon cable connectors are equipped with special latches that lock the cable into place. They
are used to unseat rather than eject the cable. The cable must be removed by hand after it is
unseated. Also, when inserting the cable, be sure to close the latches slightly before pushing the
cable into locked position, otherwise the latches can be damaged.
7KHOHIWHLJKWULEERQFDEOHVRQWKH0DLQ+DUQHVV%DFNSODQHPXVWEHVHOIFOLSSHGWRGUHVVWRWKHOHIW
DQGJRWKURXJKWKHJXLGH7KHULJKWHLJKWFDEOHVGUHVVQDWXUDOO\WRWKHULJKW
7ZRSLQULEERQFDEOHFRQQHFWRUVDUHDVVRFLDWHGZLWKHDFKSDLURI&,&VLQDUHGXQGDQWV\VWHP
RUHDFKVLQJOH&,&LQDQRQUHGXQGDQWV\VWHP,QDQRQUHGXQGDQWV\VWHPWKH&,&VKRXOGEH
SODFHGLQWKHULJKWKDQGVORWRIDSDLURIVORWVWKHOHIWKDQGVORWPXVWEHOHIWXQRFFXSLHG,QDQRQ
UHGXQGDQWV\VWHP\RXPD\QRWSODFHDQ$&&LQWKHVORWQRWRFFXSLHGE\DUHGXQGDQW&,&7DEOH
GDC 036R303-000
Common Card Installation
2-39
OLVWVWKHDVVRFLDWLRQEHWZHHQHDFKSDLURI706VKHOIVORWVDQGHDFKSDLURISLQULE
ERQFRQQHFWRUV
Table 2-27
7066KHOI&KDQQHO,QWHUIDFH5LEERQ&RQQHFWRUVDQG$VVRFLDWHG6ORW
1XPEHUV
TMS-3000 Shelf Slot Numbers
1, 2
3, 4
5, 6
7, 8
9, 10
11, 12
13, 14
15, 16
Associated Ribbon Connectors
J21, J22
J23, J24
J25, J26
J27, J28
J33, J34
J35, J36
J37, J38
J39, J40
GDC 036R303-000
2-40
Common Card Installation
7DEOHOLVWVWKH&KDQQHO,QWHUIDFH5LEERQ&DEOHV,Q7DEOHWKHILUVWFDEOHVGUHVVWR
WKHULJKWIRUWKHFRQQHFWRUVWRWKHULJKWRIWKHFHQWHURIWKHEDFNSODQH7KHVHFRQGJURXSRIFDEOHV
GUHVVWRWKHOHIWIRUFRQQHFWRUVWRWKHOHIWRIWKHFHQWHURIWKHEDFNSODQH)LJXUHVKRZVWKH
FRUUHFWFDEOHQXPEHUVDQGFDEOHFRQILJXUDWLRQ
Table 2-28
GDC Cable No.
&,&([SDQVLRQ5LEERQ&DEOLQJ
Description
Cables Dressing to the Right* (Rear View)
029H610-002
Main Harness to Expansion Shelf, length 2.5 ft
029H610-004
Cable 029H610-002 with 1.5-ft extension reaching an additional shelf
029H610-005
Cable 029H610-004 with 1.5-ft extension reaching an additional shelf
029H610-007
Cable 029H610-005 with 1.5-ft extension reaching an additional shelf
029H611-005
Main Harness to Expansion Shelf, length 5 ft
029H611-006
Cable 029H611-005 with 2.5-ft extension reaching an additional shelf
029H611-008
Cable 029H611-006 with 1.5-ft extension reaching an additional shelf
029H611-009
Cable 029H611-008 with 1.5-ft extension reaching an additional shelf
029H612-006
Main Harness to expansion Shelf, length 6.5 ft
029H612-008
Cable 029H611-006 with 1.5-ft extension reaching an additional shelf
029H612-009
Cable 029H612-008 with 1.5-ft extension reaching an additional shelf
029H612-011
Cable 029H612-009 with 1.5-ft extension reaching an additional shelf
029H613-009
Main Harness to Expansion Shelf, length 9 ft
029H613-010
Cable 029H613-009 with 1.5-ft extension reaching an additional shelf
029H613-011
Cable 029H613-010 with 1.5-ft extension reaching an additional shelf
029H613-013
Cable 029H613-011 with 1.5-ft extension reaching an additional shelf
Cables Dressing to the Left* (Rear View)
029H614-002
Main Harness to Expansion Shelf, length 2.5 ft
029H614-004
Cable 029H614-002 with 1.5-ft extension reaching an additional shelf
029H614-005
Cable 029H614-004 with 1.5-ft extension reaching an additional shelf
029H614-007
Cable 029H614-005 with 1.5-ft extension reaching an additional shelf
029H615-005
Main Harness to Expansion Shelf, length 5 ft
029H615-006
Cable 029H615-005 with 1.5-ft extension reaching an additional shelf
029H615-008
Cable 029H615-006 with 1.5-ft extension reaching an additional shelf
029H615-009
Cable 029H615-008 with 1.5-ft extension reaching an additional shelf
029H616-006
Main Harness to Expansion Shelf, length 6.5 ft
029H616-008
Cable 029H616-006 with 1.5-ft extension reaching an additional shelf
029H616-009
Cable 029H616-008 with 1.5-ft extension reaching an additional shelf
029H616-011
Cable 029H616-009 with 1.5-ft extension reaching an additional shelf
029H617-009
Main Harness to Expansion Shelf, length 9 ft
029H617-010
Cable 029H617-009 with 1.5-ft extension reaching an additional shelf
029H617-011
Cable 029H617-010 with 1.5-ft extension reaching an additional shelf
029H617-013
Cable 029H617-011 with 1.5-ft extension reaching an additional shelf
*Be sure to connect each ribbon cable so that the colored tracer on the edge of the ribbon is up.
GDC 036R303-000
Common Card Installation
2-41
)52179,(:
+
+
+
+
+
+
+
+
+
+
+
+
+ +
+
+
+
+ +
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+ +
+
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706 0$,16+(/ )
0$,16+(/)&$%,1(7
7KHDERYHGLDJUDPLVDIURQWYLHZRIILYHFDELQHWV7KHFHQWHUFDELQHWRU¦PDLQVKHOI§FDELQHW
KRXVHVWKHFRPPRQFDUGV7KHRWKHUIRXUDUHLQGHSHQGHQWFDELQHWV
7RFRQQHFWWKHH[SDQVLRQVKHOYHVLQWKHPDLQFDELQHW
Find the expansion shelf in the diagram that corresponds to the one that you are installing.
The two numbers in the box are GDC cable numbers. These are the cables that can reach
from the main shelf to that expansion shelf. Use the top number if the CIC you are
connecting is on the right side of the main shelf (as viewed from the front). Use the bottom
number if the CIC you are connecting is on the left side of the main shelf.
7RFRQQHFWWKHH[SDQVLRQVKHOYHVLQDQLQGHSHQGHQWFDELQHW
From the front of the cabinets finds the cabinet and expansion shelf that corresponds to the
one you are installing. The number in the box is the GDC cable that you need. The position
of the CIC on the main shelf does not matter when installing ribbon cables. Be sure to
observe right and left position in relation to the main shelf cabinet.
Figure 2-19
7065LEERQ&DEOH&RQILJXUDWLRQ
GDC 036R303-000
2-42
Common Card Installation
Channel Interface Card Options
7KHUHLVRQO\RQHRSWLRQRQWKH&,&,WVKRXOGEHOHIWLQWKH1250SRVLWLRQ,WLVGHVFULEHGLQ
7DEOHDQGLWVORFDWLRQLVVKRZQLQ)LJXUH
Table 2-29
Feature
Watchdog
CIC Options
Selection
Watchdog
Inhibit
Inhibit
Watchdog
Frame Switching (for frame
required software changes).
See note below.
—
X1
NORM
X1
S1-7
S1-8
INHBT
WDOG
don’t care
Factory set*
S1-7
S1-8
S1-7
S1-8
S1, 1-6
Off
Factory set*
On
Factory set*
—
Application
This selection is for in-house testing only. It
should be left in the NORM position.
CIC cannot switch at end of frame.
CIC can switch at end of frame, but this capability
has been disabled.
CIC can switch at end of frame.
These switches are reserved for future use. Leave
all switches in the OFF position.
Note: S1-7 should be On if using GTS V2.2.0 or later, Off if using an earlier version.
* For -2 version cards, the factory setting is Off. For -3 version cards, the factory setting is On.
GDC 036R303-000
—
Switch (S), Jumpers (X)
Desig.
Position
Common Card Installation
2-43
DS1
DS2
DS3
DS4
DS5
INHBT
S1
ON 1
2
3
4
5
Figure 2-20
6
7
8
NORM
DS6
X23
W DOG
&KDQQHO,QWHUIDFH&DUG2SWLRQ/RFDWLRQ
7KH&,&*'&3DVVHPEO\FRQWDLQVDIDFWRU\DGMXVWPHQW6ZLWFK6WKDWLV
XVHGRQO\IRUSURGXFWLRQWHVWLQJ8VHRIWKH6PD\FDXVHHUURQHRXVGDWDWUDQVIHUVRUFRPSOHWH
QRGHIDLOXUH
!
Switch S2 should never be changed in the field. It controls a critical factory
adjustment option which is set only when the PCB assembly is installed in a
specialized test fixture at the factory. The purpose of Switch S2 is to fine tune
the turn-on and turn-off times of the fast bus circuit. Improper adjustment of
this switch can cause erroneous data transfers between common cards and
possible node failure.
Channel Module Installation
$OO'DWDDQG9RLFH&KDQQHO0RGXOHVDUHLQVWDOOHGLQ([SDQVLRQ6KHOYHV&KDQQHOFRQQHFWLRQV
DUHPDGHWRSLQFKDQQHOFRQQHFWRUV-WKURXJK-DWWKHUHDURIWKHH[SDQVLRQVKHOI5HIHU
GDC 036R303-000
2-44
Common Card Installation
WRWKH1HWZRUN'RFXPHQWDWLRQ3DFNDJHVXSSOLHGZLWK\RXUV\VWHPWRGHWHUPLQHWKHSODFHPHQWRI
HDFKFKDQQHOPRGXOHLQWKH([SDQVLRQ6KHOI
Expansion Module
7KH([SDQVLRQ0RGXOHKDVRQHRSWLRQWKDWVHOHFWVZKLFKVKHOIWKH([SDQVLRQ0RGXOHLVRQ6LQFH
HDFK&,&FDQLQWHUIDFHIRXUVKHOYHVRIFKDQQHOVWKHUHDUHIRXUVHOHFWLRQV7KHVHDUHGHVFULEHGLQ
7DEOH7KHORFDWLRQRIWKLVRSWLRQLVVKRZQLQ)LJXUH
Table 2-30
Feature
Shelf
Selection
([SDQVLRQ0RGXOH2SWLRQV
Selection
EXP1
EXP2
EXP3
EXP4
GDC 036R303-000
Switch (S), Jumpers
(X)
Desig.
Position
Application
X1
EXP1
EXP1 is selected if the Expansion Module being addressed contains the first 16
channels interfaced by the CIC.
X1
EXP2
EXP2 is selected if the Expansion Module being addressed contains the 17th
through 32nd channel interfaced by the
CIC.
X1
EXP3
EXP3 is selected if the Expansion Module being addressed contains the 33rd
through 48th channel interfaced by the
CIC.
X1
EXP4
EXP4 is selected if the Expansion Module being addressed contains the 49th
through 64th channel interfaced by the
CIC.
Common Card Installation
2-45
X1
EXP 1
EXP 2
EXP 3
EXP 4
([SDQVLRQ0RGXOH2SWLRQ/RFDWLRQV
Figure 2-21
All channel modules at a TMS-3000 node reside in Expansion Shelves. A single Expansion Shelf
holds up to 16 channel modules. An Expansion Module is required in each Expansion Shelf (two
required for redundant operation). See Figure 2-22.
C
H
A
N
C
H
A
N
C
H
A
N
C
H
A
N
C
H
A
N
C
H
A
N
C
H
A
N
C
H
A
N
C
H
A
N
1
2
3
4
5
6
7
8
9
)LJXUH
C
H
A
N
C
H
A
N
C
H
A
N
C
H
A
N
C
H
A
N
C
H
A
N
C
H E E
A X X
N P P
10 11 12 13 14 15 16
S
P
TMS-3000 Expansion Shelf
GDC 036R303-000
2-46
Common Card Installation
Flex Cards
$)OH[&DUGLVDQDFWXDOSFERDUGWKDWUHSODFHVWKHULEERQFDEOHDVVHPEOLHVSUHYLRXVO\XVHG)LJXUH
VKRZVDW\SLFDO)OH[&DUGDQGKRZLWLVXVHGWRFRQQHFWWZRH[SDQVLRQVKHOYHV7KH)OH[
&DUGVPRXQWEHWZHHQHDFKH[SDQVLRQVKHOI7ZR)OH[&DUGVPRXQWRQWKHOHIWVLGHRIHDFKH[
SDQVLRQVKHOIDVYLHZHGIURPWKHUHDU7KH)OH[&DUGVFRPHLQVHYHUDOGLIIHUHQWOHQJWKVWRDFFRP
PRGDWHWKHQXPEHURIVKHOYHVEHLQJFRQQHFWHG(DFKFDUGKDVVHYHUDOSLQIHPDOHFRQQHFWRUV
WKDWSURYLGHHOHFWULFDOFRQQHFWLRQVEHWZHHQHDFKH[SDQVLRQVKHOIDQGDSLQPDOHFRQQHFWRUXVHG
WRFRQQHFWWKH)OH[&DUGWRDULEERQFDEOHWKDWJRHVWRWKHPDLQVKHOIDVVHPEO\6HYHUDOIHUULWH
EHDGVDUHPRXQWHGRQRQHFDUGWRUHGXFHWKHDPRXQWRIUHIOHFWLRQLQWHUIHUHQFHIURPWKHODVWVKHOI
WRWKHILUVW&XWRXWVORWVRQHDFKFDUGDOORZTXLFNDFFHVVWRWKH(,$EXVLQHVVHTXLSPHQWFRQQHFWRUV
$UHGHVLJQHGUHDUFRYHUPRXQWVRQWRHDFKH[SDQVLRQVKHOIWRFRYHUWKHIOH[FDUGVDQGUHGXFHUDGL
DWHGQRLVH
50 PIN (P1)
CONNECTOR
TO UPPER
EXPANSION
SHELF
MAIN SHELF
RIBBON
CABLE
CONNECTOR
EIA BUSINESS
EQUIPMENT
CONNECTOR
SLOTS
50 PIN (P2)
CONNECTOR
TO LOWER
EXPANSION
SHELF
FRONT VIEW
(COMPONENT SIDE)
Figure 2-23
GDC 036R303-000
)OH[&DUG)URQWDQG5HDU9LHZ3
REAR VIEW
Common Card Installation
NOTE
2-47
To install flex cards, the expansion shelf must be Revision F or later. A kit is
available that allows modification of older expansion shelves.
Flex Card Installation
$PD[LPXPRIIRXUH[SDQVLRQVKHOYHVFDQEHFRQQHFWHGWRWKH706PDLQVKHOIXVLQJ)OH[
&DUGDVVHPEOLHV5HIHUWR)LJXUHWRGHWHUPLQHWKH)OH[&DUGDVVHPEO\QXPEHUQHHGHGIRUWKH
DSSOLFDWLRQ,QWKLVGUDZLQJQRWHWKDWHDFKDUHDKDVIRXUVKDGHGSRUWLRQVFRUUHVSRQGLQJWRIRXUH[
SDQVLRQVKHOYHV7KHPLGGOHFROXPQODEHOHG0DLQ6KHOI&DELQHWVKRZVWKHIROORZLQJ
•
When connecting between the main shelf and two expansion shelves, use Flex Card
assemblies GDC Part Nos. 036P090-001 and 036P091-001.
•
When connecting between the main shelf and three expansion shelves, use Flex Card
assemblies GDC Part Nos. 036P092-001 and 036P093-001.
•
When connecting between the main shelf and four expansion shelves, use Flex Card
assemblies GDC Part Nos. 036P094-001 and 036P095-001.
7KH)OH[&DUGDVVHPEOLHVPRXQWZKHUHWKHULEERQFDEOHVZHUHSUHYLRXVO\DWWDFKHGEHWZHHQH[SDQ
VLRQVKHOYHV7KHOHQJWKVDQGQXPEHURIFRQQHFWRUVRQHDFKFDUGDUHGLIIHUHQWWRDFFRPPRGDWHWKH
QXPEHURIH[SDQVLRQVKHOYHVFRQILJXUHGIRUHDFKFKDQQHOJURXS
)LJXUHVKRZVWZR)OH[&DUGVPRXQWHGLQD706ZLWKWKUHHH[SDQVLRQVKHOYHV
Turn the power off in the TMS-3000 when installing the Flex Card.
!
7RLQVWDOOWKH)OH[&DUGDVVHPEO\LQWKHPDLQVKHOIFDELQHWILUVWGHWHUPLQHWKHOHQJWKRIULEERQFD
EOHQHHGHGWRUXQIURPWKHPDLQVKHOIWRWKHILUVWH[SDQVLRQVKHOI)LJXUHOLVWVWZRFDEOHQXP
EHUVRQWKHILUVWH[SDQVLRQVKHOIXQGHUWKHPDLQVKHOI7KHVHFDEOHVDUHIHHWORQJ/RQJHU
OHQJWKVDUHDYDLODEOHLIUHTXLUHGUHIHUWR7DEOH
1H[WORRVHQDOOWKHH[SDQVLRQVKHOYHVLQWKHFDELQHWVRWKDWWKHVKHOYHVPRYHIUHHO\
1RZGHWHUPLQHWKHOHQJWKRIWKH)OH[&DUGQHHGHGXVLQJ)LJXUHVDQG7KHWRSQXPEHU
LVWKHDVVHPEO\WKDWPRXQWVWRWKHOHIWKDQGVLGHWKHERWWRPQXPEHULVWKHDVVHPEO\WKDWPRXQWV
RQWKHULJKWKDQGVLGH
GDC 036R303-000
2-48
Common Card Installation
FRONT VIEW
029 H61 2-006
029 H61 0-003
029H616-006
029 H61 7-009
TMS 3000
Main Shelf
03 6P09 0-001
03 6P09 1-001
03 6P09 0-001
03 6P09 1-001
03 6P09 2-001
03 6P09 3-001
03 6P09 0-001
03 6P09 1-001
029H614-002
029H610-002
03 6P09 4-001
03 6P09 5-001
03 6P09 2-001
03 6P09 3-001
03 6P09 0-001
03 6P09 1-001
029 H61 3-009
029 H61 1-005
02 6P09 2-001
03 6P09 3-001
03 6P09 0-001
03 6P09 1-001
03 6P09 0-001
03 6P09 1-001
03 6P09 4-001
02 6P09 5-001
03 6P09 0-001
03 6P09 1-001
03 6P09 2-001
03 6P09 3-001
03 6P09 2-001
03 6P09 3-001
029 H61 5-005
029 H61 1-005
02 6P09 2-001
03 6P09 3-001
03 6P09 4-001
03 6P09 5-001
03 6P09 0-001
03 6P09 1-001
03 6P09 4-001
02 6P09 5-001
03 6P09 4-001
03 6P09 5-001
Expansion Shelf
Cabinet
Expansion Shelf
Cabinet
Main Shelf
Cabinet
03 6P09 0-001
03 6P09 1-001
03 6P09 0-001
03 6P09 1-001
02 6P09 2-001
03 6P09 3-001
02 6P09 2-001
03 6P09 3-001
03 6P09 4-001
02 6P09 5-001
03 6P09 4-001
02 6P09 5-001
029 H61 7-009
Expansion Shelf
Cabinet
Expansion Shelf
Cabinet
The above diagram is a front view of five TMS-3000 cabinets. The center cabinet or “main shelf”
cabinet houses the common cards. The other four are independent expansion shelf cabinets.
7RFRQQHFWH[SDQVLRQVKHOYHVLQWKHPDLQFDELQHW
Find the expansion shelf in the diagram that corresponds to the one that you are installing.
The two numbers in the top box are GDC cable numbers. Appropriate pairs of flat ribbon
cables are still required to connect the main shelf to the first expansion shelf. The numbers
below the first expansion shelf are the flex card part numbers. When connecting two shelves,
use GDC 036P090-001 and 036P091-001. When connecting three expansion shelves, use
GDC 036P092-001 and 036P093-001. When connecting four expansion shelves, use GDC
036P094-001 and 036P095-001.
7RFRQQHFWH[SDQVLRQVKHOYHVLQDQLQGHSHQGHQWFDELQHW
From the front of the cabinets, find the cabinet and expansion shelf that corresponds to the
one you are installing. A flat ribbon cable is required to connect the first expansion shelf to
the main shelf. The number below the first expansion shelf is the GDC flex card you need.
Figure 2-24
GDC 036R303-000
706)OH[&DUG&RQILJXUDWLRQ
Common Card Installation
2-49
--
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Figure 2-25
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VKHOYHVWKHORZHUIHPDOHFRQQHFWRUVKRXOGOLQHXSZLWKWKHVHFRQGH[SDQVLRQVKHOI/LQHXSDOO
SLQVDQGFDUHIXOO\LQVHUWHDFKFRQQHFWRULQWRHDFKH[SDQVLRQVKHOI2QFHWKH)OH[&DUGVDUHSURS
HUO\VHDWHGLQVHUWWKHJXLGHSLQVEHWZHHQWKHFDUGDQGWKHH[SDQVLRQVKHOI7KHULEERQFDEOHVIURP
WKHPDLQVKHOISOXJLQWR-DQG3$RIWKH)OH[&DUG$VVHPEOLHV)LQDOO\WLJKWHQWKHVKHOIPRXQW
LQJVFUHZV
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GDC 036R303-000
2-50
Common Card Installation
NOTE
It is not necessary to install the Cable Filter Plug-In Cards between the expansion
shelf and CIC assembly.
Connecting Flex Cards in an Independent Cabinet
:KHQFRQQHFWLQJH[SDQVLRQVKHOYHVLQDQLQGHSHQGHQWFDELQHW\RXPXVWXVHDULEERQFDEOHWRFRQ
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GDC Cable No.
Description
Cables Dressing to the Right* (Rear View)
029H610-002
Main Harness to Expansion Shelf, length 25 ft.
029H611-005
Main Harness to Expansion Shelf, length 5 ft.
029H612-006
Main Harness to Expansion Shelf, length 6.5 ft.
029H613-009
Main Harness to Expansion Shelf, length 59 ft.
Cables Dressing to the Left* (Rear View)
029H614-002
Main Harness to Expansion Shelf, length 2.5 ft.
029H615-005
Main Harness to Expansion Shelf, length 5 ft.
029H616-006
Main Harness to Expansion Shelf, length 6.5 ft.
029H617-009
Main Harness to Expansion Shelf, length 9 ft.
*Be sure to connect each ribbon cable so that the colored tracer on the edge of the ribbon is up.
Other Cards
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3UHIDFH)RU2&0FRPPRQFDUGVUHIHUWR*'&5DQGLWVDVVRFLDWHGDGGHQGXPV
Summary
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3DUWQXPEHUVZHUHDOVRSURYLGHG
What's Next
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GDC 036R303-000
3
Channel Card Installation
Overview
The following sections describe the methods of option selection and the options provided for
each TMS-3000 channel card. Detailed information concerning specific positioning of option
selection devices is given in a number of tables in this chapter. Individual option tables for each
module have been grouped with the drawings concerning that module.
As with the common cards, optional configurations are implemented on a channel card by
means of program plugs, switches, jumper plugs, or resistor networks.
Note that several channel modules are covered in separate publications. Refer to the Preface
for a complete list of those manuals.
Data Channel Modules
Data Channel Module interface connections, options, and the TID-III module are presented in
the following paragraphs, figures, and tables.
Part Numbers
Connections for data channels vary according to the type of interface required for that channel
(i.e., EIA/TIA-232-E, RS-422, RS-423, V.35, etc.). Table 3-1 through Table 3-18 lists the
assembly part numbers for the different interfaces. Table 3-19 lists the cables provided for each
interface type.
Table 3-1
Data II Channel Module with EIA/TIA-232-E Interface (036M048-001)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, EIA/TIA-232-E
—
036M047-001
Data II Channel PC Assembly
—
036P236-001
Table 3-2
Data II Channel Module with RS-422 Interface (036M048-002)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, RS-422
—
036M047-002
Data II Channel PC Assembly
—
036P236-001
Table 3-3
Data II Channel Module with RS-423 Interface (036M048-003)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, RS-423
—
036M047-003
Data II Channel PC Assembly
—
036P236-001
GDC 036R303-000
3-2
Channel Card Installation
Table 3-4
Data II Channel Module with V.35 Interface (036M048-004)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, V.35
—
036M047-004
Data II Channel PC Assembly
—
036P236-001
Table 3-5
Data III Channel Module with EIA/TIA-232-E Interface (036M058-001)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMTR, EIA/TIA-232-E
—
036M047-001
Data III Channel PCB Assembly
—
036P236-004
Table 3-6
Data III Channel Module with RS-422 Interface (036M058-002)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMTR, RS-422
—
036M047-002
Data III Channel PCB Assembly
—
036P236-004
Table 3-7
Data III Channel Module with RS-423 Interface (036M058-003)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMTR, RS-423
—
036M047-003
Data III Channel PCB Assembly
—
036P236-004
Table 3-8
Data III Channel Module with V.35 Interface (036M058-004)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMTR, V.35
—
036M047-004
Data III Channel PCB Assembly
—
036P236-004
Table 3-9
Data IV Channel Module with EIA/TIA-232-E Interface (036M079-001)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, EIA/TIA-232-E
—
036M047-001
Data IV Channel, PCB Assembly
—
036P236-007
Table 3-10
Data IV Channel Module with RS-422 Interface (036M079-002)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, RS-422
—
036M047-002
Data IV Channel, PCB Assembly
—
036P236-007
Table 3-11
Data IV Channel Module with RS-423 Interface (036M079-003)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, RS-423
—
036M047-003
Data IV Channel, PCB Assembly
—
036P236-007
Table 3-12
Data IV Channel Module with V.35 Interface (036M079-004)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, EIA/TIA-232-E
—
036M047-004
Data IV Channel PCB Assembly
—
036P236-007
GDC 036R303-000
Channel Card Installation
Table 3-13
3-3
UDC Module with EIA/TIA-232-E Interface (036M078-001)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, EIA/TIA-232-E
—
036M047-001
Data IV Channel, PCB Assembly
—
036P236-007
Table 3-14
UDC Module with RS-422 Interface (036M078-002)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, RS-422
—
036M047-002
Data IV Channel, PCB Assembly
—
036P236-007
Table 3-15
UDC Module with RS-423 Interface (036M078-003)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, RS-423
—
036M047-003
Data IV Channel, PCB Assembly
—
036P236-007
Table 3-16
UDC Module with V.35 Interface (036M078-004)
Equipment Supplied
Designation
GDC Part No.
Interface Set, RCV/XMT, EIA/TIA-232-E
—
036M047-004
Data IV Channel PCB Assembly
—
036P236-007
Table 3-17
UDC Module with X.21 (X.27) Interface (036M078-007)
Equipment Supplied
Designation
GDC Part No.
Interface Set, XMT/RCV-422
—
036M047-002
Data Sync Channel PCB Assembly
—
036P236-010
Conn. Program Plug
Table 3-18
209-014-116
TID-III Data Channel (18607-201)
Equipment Supplied
TID-III
—
Designation
GDC Part No.
TID-III
18607-201
Transmitter Card
TX
18601-201
Receiver Card
RX
18602-200
NCO
18603-200
NCO Card
GDC 036R303-000
3-4
Channel Card Installation
Table 3-19
Data Channel Interface Cables
GDC Cable No.
Description
Application
028H502
EIA/TIA-232-E
Used for all standard EIA/TIA-232-E applications. Available in 5-, 15-, 25-, 50-foot lengths.
027H408
RS-422/423 Cascade
Used to cascade RS-422/423 channel to aggregate interface
of another TMS-3000 or TDM for mux to submux application. Available in 5-, 15-, 25-, 100-, 250-, or 500-foot
lengths.
027H511
EIA/TIA-232-E to
RS-422-423 adapter
Used when RS-422/423 interface is required, but with EIA/
TIA-232-E controls only. Cable is one foot long.
027H407
RS-422/423 Tandem
ITU-T G.703
Used for back-to-back RS-422/423 or ITU-T G.703 channels
(where channels of two tandem TDMs or TMSs are directly
connected). Available in 5-, 15-, 25-, or 50-foot lengths.
027H513
ITU-T V.35 to DB-25
cable (Male-Male)
Used for ITU-T V.35 channels. Available in 15-, 25-, or 50foot lengths.
027H514
ITU-T V.35 to DB-25
adapter
Used for ITU-T V.35 channels, when V.35 cable is customer-supplied. Available in 1-foot length..
028H311
EIA/TIA-232-E
Crossover Cable — used to connect EIA/TIA-232-E channel
to a modem.
027H410
ITU-T V.35
Crossover Cable — used to connect V.35 channel to business
equipment connector on DS-1 Shelf.
027H518
RS-422
Crossover Cable — used to connect an RS-422 channel to
business equipment connector on DS-1 Shelf.
027H521
ITU-T V.35
Crossover Cable — used to connect V.35 channel to a modem. Connects to 027H514 adapter.
V.54 unbalanced
Used for V.54 modem application with 54M8 interface.
G023H004
028H415
V.28 (M-M)
Used for data sync channel. Male-to-male connector.
G023H010
1-19 Way D (M-M)
1-19 Way D-cable. Male-to-male connector.
G023H019
V.28 Sync (M-M
V.28 Sync Channel Crossover Cable. Male-to-male connector
G024H015
Data II, V.35-DTE
Data Channel II, V.35 DTE applications. Male-to-male connector.
G024H016
Data II, V.35-DTE
Data Channel II, V.35 DTE applications. Male-to-female
connector.
Interface Options
Option selections required to support each interface type are discussed in Table 3-20 and Table
3-21.
The following interfaces may be selected (not applicable to G.703 channel card):
•
EIA/TIA-232-E/ITU-T V.28
•
MIL-STD-188C
•
RS-423/MIL-STD-188-114 Unbalanced
•
RS-422/MIL-STD-188-114 Balanced (no cable termination)
•
RS-422/MIL-STD-188-114 Balanced (Transmit Data and Clock cable termination)
•
V.35 Balanced Double Current
GDC 036R303-000
Channel Card Installation
3-5
A DCE interface may be selected for connection to data terminal equipment; a DTE interface
may be chosen for connection to data communication equipment. Table 3-21 describes the
selections.
Table 3-20
Interface
Selection
S1-1
Pos.
Data Channel Interface Options
X21
Pos.
XRN7
(XMT)
Resistor
Network
XRN8
(RCV)
Resistor
Network
Application
S1-2
Pos.
S1-3
Pos.
EIA/TIA232-E
MIL-STD188-114,
V.28
NORM OPEN
OPEN
NORM RS-232
XMT 331001-006
RS-232 RCV
331-002-006
The channel interface operates according to any of the
interfaces shown in the table.
To select an interface, you
must set Switches S1-1
through S1-4 and Jumper
X21 in the positions shown.
MIL-STD188C
188
OPEN
OPEN
NORM RS-232
XMT 331001-006
RS-232 RCV
331-002-006
S1-1 selects either a MILSTD-188C or a normal interface.
NORM OPEN
EIA-RS423/ MILSTD 188-114
Unbalanced
OPEN
NORM RS-423
XMT 331001-005
RS-423 RCV
331-002-004
S1-2 and S1-3 select 100ohm cable termination for
the Transmit Data and
Transmit External Timing
signals respectively, in an
RS-422 interface arrangement.
NORM OPEN
EIA-RS422/ MILSTD-188114 Balanced
(No cable termination)
OPEN
422
RS-422
XMT 331001-004
RS-422 RCV
331-002-005
The RS-422 arrangement is
used with or without cable
termination, as required by
data equipment connected to
the channel. Selection of
termination provides increased noise immunity.
NORM 422/
EIA-RSTER
422/ MILSTD-188114 Balanced
(With cable
termination)
422/
TER
422
RS-422
XMT 331001-004
RS-422 RCV
331-001-005
Only one device can be connected to the terminated interface. Up to ten devices
can be connected to the unterminated interface. Jumper
plug X21 selects the RS-422
interface, with or without cable termination.
NORM OPEN
V.35 Balanced Double
Current
OPEN
NORM Dual V.35
XMT
331-002-002
Dual V.35
RCV
331-002-003
For each type of interface,
resistor networks RN7 and
RN8 provide the voltage levels required by the associated interface standard (You
must set all switches and
jumpers as shown for each
interface).
GDC 036R303-000
3-6
Channel Card Installation
Table 3-21
Data Channel DCE/DTE Interface Option Selection
Feature
S1-4
Position
PP1
Position
Application
DCE (Data
Communication Equipment)
Interface
DCE
DCE
The Data Channel module communicates with data terminal
equipment (CRTs, printers, CPU ports, etc.) by presenting a
DCE interface; the module communicates with data communications equipment (modems, multiplexers, etc.) by presenting a
DTE interface. Switch S1-4 selects the DCE or DTE interface.
Program plug PP1 must also be positioned to select the proper
signal interfacing. DTE and DCE markings are visible on opposite sides of program plug socket XPP1. When PP1 is positioned
so that a notch (or pin 1) on the plug points to DTE, the DTE interface is selected. When PP1 is positioned so that the notch (or
pin 1) points to DCE, the DCE interface is selected.
DTE (Data
Terminal
Equipment)
Interface
DTE
DTE
In the DCE position PP1 passes data, timing and control signals
straight through between equipment connected to the channel
and circuitry on the Data Channel module. In the DTE position,
signals are “crossed over’’ to permit the proper communication
between the module and data communication equipment connected to the channel. The crossovers are as follows:
XMT DATA to RCV DATA
RCV DATA to XMT DATA
CA (Request to send) to CF (Carrier Detect)
CF to CA
RCV TMG (Receive Timing) to EXT TMG (External Timing)
EXT TMG to RCV TMG
RDY IN (Ready In) to RDY OUT (Ready Out)
RDY OUT to RDY IN
NOTE: If the system uses an EIA/TIA-232-E or RS-423 interface, and a synchronous modem is connected to a data channel
interface, select the DTE positions for S1-4 and PP1. Also, disconnect the lead connected to pin 15 of the data channel connector.
If the system uses a balanced RS-422 or V.35 interface, and a
synchronous modem is connected to a Data channel interface, select the DCE positions for S1-4 and PP1. Additionally, a crossover cable must be used to complete the interface connections to
the modem. The crossover cable serves to cross the data, timing,
and control signals for compatibility with the synchronous modem pins, thereby eliminating potential timing problems.
NOTE
GDC 036R303-000
For the Data Channel Module, DTE/DCE component board designations are
usually the opposite of the equipment to which the channel is connected. If you are
connecting data terminal equipment (CRTs, printers, etc.) to the channel (with a
straight through cable), place switches and program plugs in the DCE position. If
you are connecting data communication equipment (modems, multiplexers, etc.) to
the channel, place switches and program plugs in the DTE position.
Channel Card Installation
3-7
When RS-422 or RS-423 is selected for a channel, the Data Channel module supplies only the
data and timing signals at RS-422 or RS-423 specified voltage levels. The control signals
operate at EIA/TIA-232-E levels. If your channel application requires RS-422 or RS-423 level
control signals, you need an external Channel Interface Adapter. Option selections for the
Channel Interface Adapter are described in Table 3-22.
Table 3-22
EIA RS-422/423 Channel Interface Adapter Option Selection
Switch(S)/Jumper(X)
Feature
Selection
Desig.
Position
Application
Data Communication
Equipment (DCE) or
Data Terminal
Equipment (DTE)
Connections
Adapter Connected
to
Data Communication
Equipment
S1-1
S1-2
DCE
DCE
When this adapter is connected to data
communication equipment (modems, multiplexers, etc.) Switches S1-1 and S1-2
must be set in the DCE position. When the
adapter is connected to data terminal equipment (CRTs, printers, CPUs, etc.) Switches
S1-1 and S1-2 are set in DTE position.
Adapter Connected
to
Data Terminal
Equipment
S1-1
S1-2
DTE
DTE
NOTE: These designations are the reverse of the DTE and DCE designations for
the Data II Channel module.
Program plug PP1 must also be positioned
for DTE or DCE. This is done by positioning the plug so that the notch in the plug is
adjacent to the DTE or DCE silkscreen
markings on the card. The Data Channel
module must be set for a DTE interface.
S1-3
S1-4
422
422
X1
422
To select an EIA RS-422 standard balanced interface, set S1-3, S1-4 and X1 in
the 422 position. To select an EIA RS-423
standard unbalanced interface, set S1-3,
S1-4, and X1 in the 423 position.
S1-3
S1-4
423
423
X1
423
EIA-RS-422 or
EIA-RS-423 Interface
RS-422
RS-423
NOTE
Program plug PP2 in the adapter card must
also be positioned for an RS-422 or 423 interface. This is done by positioning the
plug so that the notch on the plug is adjacent to the 422 or 423 silkscreen markings
on the card. The Data Channel module
must also be set for an RS-422 or RS-423
interface.
The following interface sets (Table 3-23 to Table 3-26) are available to change the
interface type as required on existing Data II, Data III, Data IV, UDC and G.703
modules.
GDC 036R303-000
3-8
Channel Card Installation
Table 3-23
Interface Set, RCV/XMT EIA/TIA-232-E (036M047-001)
Equipment Supplied
Designation
GDC Part No.
Resistor Network
RN8
331-002-006
Resistor Network
RN7
331-001-006
Resistor Network
—
036C010-001
Table 3-24
Interface Set, RCV/XMT RS-422 (036M047-002)
Equipment Supplied
Designation
GDC Part No.
Resistor Network
RN7
331-001-004
Resistor Network
RN8
331-002-005
Table 3-25
Interface Set, RCV/XMT RS-423 (036M047-003)
Equipment Supplied
Designation
GDC Part No.
Resistor Network
RN7
331-001-005
Resistor Network
RN8
331-002-004
Table 3-26
Interface Set, RCV/XMT V.35 (036M047-004)
Equipment Supplied
Designation
GDC Part No.
Resistor Network
RN7
331-002-002
Resistor Network
RN8
331-002-003
Digital Line Driver Adapter
A digital line driver adapter is available for applications where a channel device is separated
from the TMS-3000 by some distance. All adapters mount in a CP-12 mounting panel and are
connected to the back of the TMS-3000 shelf. The Data Channel uses a 16-bit transmit and
receive buffer.
Data Channel Module Options
The following options may be selected for the Data Channel module (Figure 3-1). (Refer to
Chapter 8, Connector Pin Assignments, for Channel Connector Pin assignments).
Data IV and UDC channel modules contain several features that are available in
later releases of TMS-3000 software.
NOTE
GDC 036R303-000
Channel Card Installation
3-9
DS4
DS3
188
ON 1
OPEN
XPP1
XRN7
PP1
RN7
422
TERM
2 3
DS2
DTE
4
DS1
OPEN
422
TP1
DCE
X21
NOR
422
Figure 3-1
XRN8
XPP2
RN8
PP2
XA2
Data Channel Module Option Locations (GDC 036P236-007)
For the G.703 channel (Figure 3-2), there are two option jumpers. X1 is OCTETALM, which
allows bipolar violations to be discontinued when the receive level signal is dropped. X2 is
CHSNCLK, which allows enabling of an external clock for system phase locking. Both options
are shown in their normal (option disabled) position.
Figure 3-3 shows the option and program plug locations for the Data Sync Channel and Figure
3-4 shows the option and program plug locations for the UDC, X.21.
GDC 036R303-000
3-10
Channel Card Installation
DS4
DS3
X2
EN DIS
XPP1
DS2
PP1
X1
DS1
DIS EN
TP5
TP1
Figure 3-2
Data Channel Module Option Locations (G.703 Data Channel Card, GDC
036P243-001)
DS4
DS3
188
ON 1
OPEN
XPP1
XRN7
PP1
RN7
422
TERM
2 3
DS2
DTE
4
DS1
OPEN
422
DCE
X25
NOR
X21
NOR
422
XRN8
XPP2
RN8
PP2
REV
CTRL
XPP3
CTL 1 = RTS
X25 = NORM (no inversion)
X25 = REV CTRL (inversion)
Figure 3-3
GDC 036R303-000
Data Sync Channel Card Option Locations (GDC 036P236-010)
Channel Card Installation
3-11
DS4
DS3
188
ON 1
OPEN
XPP1
XRN7
PP1
RN7
422
TERM
2 3
DS2
DTE
4
DS1
OPEN
422
DCE
X25
NOR
X21
NOR
422
XRN8
XPP2
REV
CTRL
XPP3
RN8
PP3
CTL 1 = RTS
X25 = NORM (no inversion)
X25 = REV CTRL (inversion)
Figure 3-4
UDC, X.21(GDC 036M078-007)
Controls
Program plug PP2 (PP1 on G.703 Data Channel card) selects interface control signals to be
multiplexed by the TDM and passed to the remote channel interface. Different plugs are used
to support the control signal requirements of various communication circuits. Figure 3-5
illustrates program plug PP1 positions (not applicable to G.703 channel card) while Figure 36 illustrates PP3 positions. Figure 3-7 (A-E) shows each control plug and the channel interfaces
implemented by installation of the plug. Table 3-27 lists the part numbers for the program
plugs.
Table 3-27
Program Plugs
Equipment Supplied
Designation
GDC Part No.
Resistor Network Special MM-01
PP2
331-001-010
Resistor Network Special MM-02
PP2
331-001-016
Resistor Network Special MM-05
PP2
331-001-015
Resistor Network Special V.54 MM-08
PP2
331-001-017
Resistor Network Special X.21
PP3
209-014-116
NOTE
Control signals for a data channel may be forced On or Off through the Controller
interface. In some channel control arrangements, the channel configuration
selected through the Controller holds control signals On or Off as part of the
channel control scheme.
GDC 036R303-000
3-12
Channel Card Installation
DTE
DTE
PIN
1 *
PIN
1 *
DCE
DCE
DATA SET READY
DATA TERM READY
EXTERNAL TIMING
RECEIVE TIMING
CARRIER DETECT
REQUEST TO SEND
TRANSMIT DATA
RECEIVE DATA
1
16
2
15
3
14
4
13
5
12
6
11
7
10
8
9
CHANNEL
INTERFACE
READY OUT
READY IN
EXTERNAL TIMING
RECEIVE TIMING
REQUEST TO SEND
CARRIER DETECT
RECEIVE DATA
TRANSMIT DATA
DATA
CHANNEL
DATA SET READY
DATA TERM READY
EXTERNAL TIMING
RECEIVE TIMING
CARRIER DETECT
REQUEST TO SEND
TRANSMIT DATA
RECEIVE DATA
1
16
2
15
3
14
4
13
5
12
6
11
7
10
8
9
READY OUT
READY IN
EXTERNAL TIMING
RECEIVE TIMING
REQUEST TO SEND
CARRIER DETECT
RECEIVE DATA
TRANSMIT DATA
CHANNEL
INTERFACE
A. DCE
DATA
CHANNEL
B. DTE
* SOME PLUGS MAY NOT INCL UDE NOTCH; POSITION WITH PIN 1
ADJACENT TO APPROPRIATE SELECTION.
Figure 3-5
Data Channel Program Plug PP1 Positions (DCE/DTE)
PIN
1*
Figure 3-6
GDC 036R303-000
1
16
2
15
3
14
4
13
5
12
6
11
7
10
8
9
Plug PP3 Positions
Channel Card Installation
3-13
Channels
Channels
Data Term. Ready (CO)
Data Term. Ready (CO)
PP2
PP2
Send Control 4
Send Control 4
Data Set Ready (CC)
Clear to Send (CB)
2
15
Rcv Control 4
Rcv Control 4
15
Data Set Ready (CC)
2
4
Clear to Send (CB)
4
Request to Send (CA)
Carrier Detect (CF)
5
12
6
11
Send Control 1
Rcv Control 1
Send Control 1
12
5
11
6
Request to Send (CA)
Carrier Detect (CF)
Rcv Control 1
Data Channel
with DCE Interface
Data Channel
with DCE Interface
Channels
Channels
Node M
Node S
A send control at one node becomes a receive control
at the opposite node. For example, Request to Send is
selected as Send Control 1 at Node M. Send Control 1
is transmitted across the link and becomes Receive
Control 1 at the Node S data channel. PP2 at the Node
S channel interface selects Receive Control 1 and
sends it through the channel interface as Carrier
Detect.
A. MM01 — CPU to Terminal — Local CTS Wrap
Figure 3-7
Data Channel Control Program Plugs (PP2) (Sheet 1 of 5)
GDC 036R303-000
3-14
Channel Card Installation
Channels
Channels
Data Term. Ready (CO)
Data Term. Ready (CO)
1
PP2
PP2
1
Rcv Control 4
15
2
Data Set Ready (CC)
Rcv Control 2
13
4
Clear to Send (CB)
12
5
Request to Send (CA)
11
6
Carrier Detect (CF)
Send Control 4
Send Control 4
Rcv Control 4
Data Set Ready (CC)
2
15
Clear to Send (CB)
4
13 Rcv Control 2
Request to Send (CA)
Carrier Detect (CF)
5
12 Send Control 1
6
11
Send Control 1
Rcv Control 1
Rcv Control 1
10
Send Control 2
Send Control 2 10
Data Channel with DCE
Interface
Data Channel with DCE
Interface
Channels
Node M
Channels
Node S
A send control at one node becomes a receive control
at the opposite node. For example, Request to Send is
selected as Send Control 1 at Node M. Send Control 1
is transmitted across the link and becomes Receive
Control 1 at the Node S data channel. PP2 at the Node
S channel interface selects Receive Control 2 and
sends it through the channel interface as Carrier
Detect. MM02 is hand wired at GDC.
B. MM02 — CPU to Terminal — Remote CTS Wrap
Figure 3-7
GDC 036R303-000
Data Channel Control Program Plugs (PP2) (Sheet 2 of 5)
Channel Card Installation
3-15
Channels
Channels
Data Set Ready (CO)
Data Term. Ready (CO)
PP2
Data Set Ready (CC)
Clear to Send (CB)
2
15
4
13
PP2
Send Control 4
Rcv Control 4
Rcv Control 2
Send Control 4
Rcv Control 4
15
Send Control 3
14
2
Data Term. Ready (CC)
Clear to Send (CB)
4
Request to Send (CA)
5
12
Send Control 1
Carrier Detect (CF)
6
11
Rcv Control 1
Rcv Control 2 13
Send Control 1 12
Rcv Control 1
Make Busy/Analog
Loopback (CN)
7
10
Send Control 2
11
5
6
Send Control 2 10
7
Ring Indicator (CE)
8
9
Carrier Detect (CF)
Request to Send (CA)
Make-Busy/Analog
Loopback (CN)
Rcv Control 3
Ring Indicator (CE)
Data Channel with
DCE Interface
Data Channel with
DTE Interface
Channels
Channels
Node M
Node S
A send control at one node becomes a receive control
at the opposite node. For example, Data Terminal
Ready is selected as Send Control 4 at Node M. Send
Control 4 is transmitted across the link and becomes
Receive Control 4 at the Node S data channel. PP2 at
the Node S channel interface selects Receive Control 4
and sends it through the channel interface as Data Set
Ready. MM02 is hand wired at GDC.
C. MM03 — CPU to Modem
Figure 3-7
Data Channel Control Program Plugs (PP2) (Sheet 3 of 5)
GDC 036R303-000
3-16
Channel Card Installation
Channels
Channels
PP2
Data Set Ready (CC)
Clear to Send (CB)
Request to Send (CA)
Carrier Detect (CF)
2
PP2
In
Service
1
In
Service
1
2
4
4
5
12
6
11
Send Control 1
Rcv Control 1
Data Channel
with DCE Interface
12
5
11
6
Data Channel
with DCE Interface
Channels
Channels
Node M
Node S
A send control at one node becomes a receive control
at the opposite node. For example, Request to Send is
selected as Send Control 1 at Node M. Send Control 1
is transmitted across the link and becomes Receive
Control 1 at the Node S data channel. PP2 at the Node
S channel interface selects Receive Control 1 and
sends it through the channel interface as Carrier
Detect. The MM05 plug is basically the same as the
MM01 plug except that Data Set ready (CC) is held
high locally whenever the channel card is in service.
D. MM05 — CPU to Terminal — Local CTS Wrap
Figure 3-7
GDC 036R303-000
Data Channel Control Program Plugs (PP2) (Sheet 4 of 5)
Data Set Ready (CC)
Clear to Send (CB)
Request to Send (CA)
Carrier Detect (CF)
Channel Card Installation
3-17
Channels
Channels
Test Mode (TM)
Test Mode (TM)
PP2
Send Control 4
Send Control 4
Send Control 1
Send Control 1
5
12
2
1
Request to Send (CA)
6
11
Rcv Control 1
Remote Loopback (RL)
3
13
Local Loopback (LL)
8
9
Carrier Detect (CF)
Data Term. Ready (CD)
PP2
12
5
1
2
Data Term. Ready (CD)
Rcv Control 1
11
6
Request to Send (CA)
Rcv Control 2
Rcv Control 2
13
3
Remote Loopback (RL)
Rcv Control 3
Rcv Control 3
9
8
Local Loopback (LL)
In
Service
Data Channel
with DTE Interface
In
Service
Carrier Detect (CF)
Data Channel
with DTE Interface
Channels
Channels
Node M
Node S
A send control at one node becomes a receive control
at the opposite node. For example, Carrier Detect is
selected as Send Control 1 at Node M. Send Control 1
is transmitted across the link and becomes Receive
Control 1 at the Node S data channel. PP2 at the Node
S channel interface selects Receive Control 1 and
sends it through the channel interface as Request to
Send.
E. MM08 — V.54 Modem to V.54 Modem
Figure 3-7
Data Channel Control Program Plugs (PP2) (Sheet 5 of 5)
GDC 036R303-000
3-18
Channel Card Installation
RS-422/423 Channel Adapter Options
If you use the RS-422/423 channel adapter (Figure 3-8) to obtain full RS-422 or RS-423
controls, you must select the 422 or 423 interface; Configure the interface to DTE or DCE
devices (See Figure 3-1 and Table 3-21).
NOTE
For the RS-422/423 channel adapters, DTE/DCE component board designations
always refer to the equipment to which the adapter is connected. If you are
connecting data terminal equipment (CRTs, printers, etc.) to the adapter, place
switches and program plugs in the DTE position. If you are connecting data
communication equipment (modems, multiplexers, etc.) to the adapter, place
switches and program plugs in the DCE position.
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AAAA
AAAA
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AAAAAAAA
AAAAAAA
AAAA
AAAA
AAAAAAAA
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AAAAAA
AAAA
AAAAAAAAAAAA
AAAAA
422
1 J2
+ 5V GND
423
DCE
DTE/DCE Option
J3
S-036C001-001
DS1
RS-422/423 Option
DS2
- 12V
S-036C002-001
+ 12V
423
X1
XPP2 422
XPP1
DTE
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AAAAA
AAAA
AAAA
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AAAAA
AAAAAAAAAAAAAA
Figure 3-8
GDC 036R303-000
RS-422/423 Channel Interface Adapter Option Locations
Channel Card Installation
3-19
TID-III (Time-Independent Data III) Module
Before attempting to set up or operate the TID-III Data Channel Module, you must first select
a system application mode number. Five application modes, dependent upon your system
requirements, are available to you .
TID-II (ECH-2) Emulation Mode (Modes 1-3)
These modes are applicable when you need TID-II performance characteristics over a
communications link between two TID-III Data Channel Modules. The TID-II Emulation
Mode gives you three (sub)modes, so that you can optimize communications depending upon
channel rate and the characteristics of the channel input clock. These three operation modes
are:
•
Accuracy Tracking (Mode 1)
This mode gives you extremely accurate input clock rates and when you want to track
and output the clock rate with lowest possible offset. In this mode, the TID-III Data
Channel Module tracks an input clock with accuracies as high as ± 0.006% depending
upon the input rate.
•
Program Tracking (Mode 2)
This mode allows you to program the TID-III Data Channel Module to control signal
input and output rate offsets and data delays within specified ranges, thereby optimizing
communications for variable external clock characteristics.
•
Input Tracking (Mode 3)
This mode is similar to the ECH-11 emulation mode described below. This mode allows
you to support communications where the input frequencies may vary ± 1.5% from the
reference frequency due to external clock inaccuracies. When input clock inaccuracies
are expected to exceed this threshold, select operation in Mode 4 (TID-I Emulation
Mode).
TID-I (ECH-11) Emulation Mode (Mode 4)
This mode is applicable when you require TID-I performance characteristics over a
communications link between two TID-III Data Channel Modules. Select Mode 4 when the
channel input rate offsets are expected to be in the excess of ±1.5 % from the reference
frequency due to the clock inaccuracies or instability. To select TID-I Emulation Mode,
configure the TID-III Data Channel Module for Mode 4.
Automatic Tracking Mode (Mode 5)
Operation in the automatic tracking mode supports communications where input rates are
subject to change in response to system configuration requirements. To operate in the
automatic mode, select a maximum predetermined input rate, and the TID-III Data Channel
Module supports all channel rates up to this pre-selected maximum. Operation in the automatic
mode is supported only by the TID-III Data Channel Module; therefore, the remote end of the
link must also be a TID-III Data Channel Module. To select Automatic Tracking Mode,
configure the TID-III module for Mode 5.
The TID-III Data Channel Module can support special interface applications via an optional
interface or data conversion requirement can be accommodated to customer specifications.
Contact GDC with your specific requirements.
GDC 036R303-000
3-20
Channel Card Installation
TID-III Configuration Requirements
With the variety of features and operation flexibility available with the TID-III Data Channel
Module, it is important to review system communications requirements and constraints before
attempting module set-up. Factors to consider are:
•
Which type of TID-III Data Channel Module is on the remote end of the link (e.g., TIDI, II, or III)? The answer to this question directs you to one of the system application
modes. If there are TID-III Data Channel Modules at both ends of the link, you can select
any of the five application modes or three operating (sub)modes.
•
What are the characteristics of the input and output clocks? Since all clocks exhibit
varying degrees of inaccuracy, this answer allows you to select a mode/submode which
optimizes communications with respect to clock accuracy and stability.
•
Are there any special communications requirements, such as nonstandard rates or
automatic alternate rates, on system configuration changes? If there are, consider the
applicability of the automatic mode of operation.
•
Are there any special module interface requirements (for example, a requirement to
convert encoded data from one standard to another before channel input)? If there are,
consult GDC regarding the applicability of our optional interface adapter piggyback.
Having reviewed the system application requirements and options, proceed with TID-III Data
Channel Module setup.
TID-III Module Setup
Configure the TID-III Data Channel Module with both hardware and software options. The
TID-III Data Channel Module is first configured by setting DIP switches on the transmitter
board and several jumpers on the receiver board. The location of these devices is shown in
Figure 3-9 and Figure 3-10. Also refer to GDC 036R469-000, Instruction Manual for TID III .
Application and operation mode settings are accomplished through software for the TMS-3000.
A TID-III Control/Status screen is provided in software and is comparable to existing channel
screens. For more information on configuring the TID-III Data Channel Module applications
modes, refer to the Operation Manual for TMS-3000 Controller, GDC 036R603-Vnnn.
By properly configuring the program settings, the TID-III Data Channel Module is set up for
the desired operating mode, isochronous channel input rate, and a corresponding TDM
synchronous clock rate.
NOTE
For the RS-422/423 channel adapters, DTE/DCE component board designations
always refer to the equipment to which the adapter is connected. If you are
connecting data terminal equipment (CRTs, printers, etc.) to the adapter, place
switches and program plugs in the DTE position. If you are connecting data
communication equipment (modems, multiplexers, etc.) to the adapter, place
switches and program plugs in the DCE position.
For operation in Modes 1 through 4, Jumper E1-E2 on the receiver board is installed. This
jumper provides automatic module reset for conditions of FIFO buffer overflow/underflow.
This jumper is not installed for operation in Mode 5, the automatic tracking mode.
On the receiver board, a jumper is configured between E3 and E5 (normal). In this position,
the transmit clock is derived from encoded information in the data received from a remote
TDM.
GDC 036R303-000
Channel Card Installation
3-21
If the jumper is configured between E3 and E4 (optional), the transmit clock is the same as
provided on the external clock inputs (EIA pins 4 and 5).
ON 1 2 3 4 5 6 7 8
ON 1 2 3 4 5 6 7 8
S1
FRONT OF
BOARD
S2
TDM Selection
S1-4 Pos.
TDM Type
OFF
TMS-3000
TMS Compact
MEGAMUX PLUS
IMUX
ON
TDM 1257/1258
Note that with the exception of S1-4, all other DIP switches
must remain in the OFF position.
Figure 3-9
TID-III Data Channel Module Transmitter Assembly Option Locations
GDC 036R303-000
3-22
Channel Card Installation
Automatic Module Reset for
FIFO Buffer Overflow/Underflow
Jumper Modes Application
E1-E2 1-4
Automatic Module Reset
No Jumper 5
Automatic Tracking Mode
Front of
Board
External/Internal Clock
Jumper Application
E3-E4
External Clock
E3-E5
Internal Clock
X1
X2
E2
E4
E3
E5
E1
Figure 3-10
TID-III Data Channel Module Receiver Assembly Option Locations
Hyper Plug-In Card
The Hyper Plug-In Card is a plug-in option on the TMS-3000 and mounts onto a Data III
Channel, Data IV Channel or Universal Data Channel (UDC) Module. In the TMS-3000 the
Hyper Plug-In Card option allows data channels to operate error free in the presence of up to
32 bits of frame jitter.
If an application exists for a Hyper Plug-In Card on a circuit which is configured between two
TMS-3000, a Hyper Plug-In Card should be installed on the Data III Channel, Data IV Channel,
or UDC Module at both ends.
If an application exists for a Hyper Plug-In Card on a circuit which is configured between a
TMS-3000 node and a MINIMUX TDM, a Hyper Plug-In Card should only be installed on the
Data III Channel, Data IV Channel, or UDC Module in the TMS-3000 node.
NOTE
Because of increased delay time and translocation of data/control signals, do not
use the Hyper Plug-In Card in low speed channel applications or in a polling
environment.
All software parameters for the Hyper Plug-In Card (configuration, card type, status, alarms,
diagnostics, etc.) are the same as for the synchronous Data III Channel, Data IV Channel, or
Universal Data Channel Module.
The Controller cannot identify the need for this card nor can it read of its presence in the
network. To the Controller, and a user, a Data III, IV or UDC Module with the Hyper Plug-In
option appears exactly as a standard Data III Channel, Data IV Channel, or Universal Data
Channel Module.
GDC 036R303-000
Channel Card Installation
3-23
Part Numbers
Part numbers for the Hyper Plug-In card for use on a UDC module are listed in Table 3-28.
Table 3-28
Hyper-UDC Module, Parts List
Equipment Supplied
GDC Part No.
Hyper-UDC Module, RS-422
036M078-005
Hyper-UDC Module, V.35
036M078-006
Installation Procedures
Use the following procedures to install the Hyper Plug-In Card onto a Data III Channel, Data
IV Channel or Universal Data Channel Module in the field:
This equipment contains electrostatic sensitive devices. Use ESD
precautionary procedures when removing or inserting parts or
printed circuit (pc) cards. Keep parts and pc cards in their
antistatic packaging material until ready to install.
You should use an antistatic wrist strap, connected to the
grounded equipment frame or chassis, when handling pc cards
during installation, removal, or setting of on-board option
switches. Do not use a conductive tool, such as a screwdriver or
paper clip, to set the position of the option switches.
1.
Remove IC chip U14 (40-pin sync LSI) from its socket on the Data III Channel, Data IV
Channel or Universal Data Channel Module. See Figure 3-11 for location of the sync
LSI chip. Store the sync LSI chip in conductive foam for future use.
2.
Remove the two mounting screws from the threaded standoffs on the Hyper Plug-In card.
3.
Place the Hyper Plug-In card with the component side facing down towards the Data III
Channel, Data IV Channel, or Universal Data Channel Module. Carefully align Pin 1 (of
A1P1) on the Hyper Plug-In Card with Pin 1 of the 40-pin U14 IC socket (the vacated
sync LSI chip). With all pins aligned, carefully press the Hyper Plug-In Card onto the
Data III Channel, Data IV Channel or Universal Data Channel Module. See Figure 3-12.
4.
The mounting holes on the Hyper Plug-In Card should align with the holes on the Data
III Channel, Data IV Channel or Universal Data Channel Module.
5.
Re-install the two mounting screws into the threaded standoffs located on the Hyper
Plug-In Card.
6.
Attach the label over the existing “Data Channel” or “UDC” marking located at the bottom of the Data III Channel, Data IV Channel, or Universal Data Channel Module.
The Hyper Plug-In Card contains no option settings. Once installed, it functions transparently.
A Data III Channel, Data IV Channel or Universal Data Channel Module with the Hyper PlugIn Card is configured similar to a standard Data Channel Module.
GDC 036R303-000
3-24
Channel Card Installation
036P244-001
036P236-001
Hyper Plug-in card plugs into a
Data Channel III, IV, or UDC
sync LSI socket. Component
side faces down towards the.
Data Channel III, IV, or UDC
module.
DS4
DS3
40-pin U14 IC socket on Data
Channel III, IV, or UDC.
Remove sync LSI IC chip.
DS2
XPP1
XRN7
DTE
PP1
RN7
DCE
Mounting holes for
Hyper Plug-in Card
XMT NTWK
422
188 TERM DTE
DS1
TP1
X21
NORM OPEN
422
NORM
422
RN8
Figure 3-11
GDC 036R303-000
XA2
DCE
XRN8
XPP2
PP2
Data Channel Module with Hyper Plug-In Card Mounted
HYPER Plug-In
Card Label
Location
Channel Card Installation
3-25
HYPER PLUG-IN CARD
STATIC SENSITIVE
036P244-001
A1P2
1
U1
1
U2
1
U3
A1P1
1
Pin 1 of the Hyper Plug-in card
is inserted into pin 1 of U14. Remove
sync LSI chip on the Data Channel III,
IV, or UDC card. Component side of the
plug-in card faces down.
1
U4
Figure 3-12
Hyper Plug-In Card
Hyper Plug-In Card Upgrade Kit
An upgrade kit allows you to mount the Hyper Plug-In card onto an existing Data III Channel,
Data IV Channel or Universal Data Channel Module. The kit number is given in Table 3-29.
The Hyper Plug-In Card kit can only be used with the Data Channel Module assemblies listed
in Table 3-30.
Table 3-29
Hyper Plug-In Card, Upgrade Kit
Equipment Supplied
GDC Part No.
Hyper Plug-In Card Kit
Contains the following:
036K244-001
Hyper Plug-In Card
036P244-001
Hyper ID label
036N023-001
Table 3-30
Upgradable Equipment List
Equipment Supplied
GDC Part No.
Data III Channel Module
036M058-002, -004
Data IV Channel Module
036M079-002, -004
Universal Data Channel Module
036M078-002, -004
NOTE: Do not use the Hyper Plug-In Card on Data Channel Modules
with the EIA/TIA-232-E or RS-423 Interface set or with Data I/Data II
Channel Modules.
GDC 036R303-000
3-26
Channel Card Installation
Voice Channel Modules
Voice II/CVSD, PCM, ADPCM, and ASP Channel Interface connections, options, and E and
M signaling are covered in this section, as well as the Universal Voice Card and Echo Canceller
Card.
Part Numbers
Table 3-31 through Table 3-34 are parts listings for voice channel modules.
Table 3-31
Voice II/ADPCM (036M200-004)
Equipment Supplied
Designation
ADPCM-2 PCB Assembly
PCM-2 PCB Assembly
Table 3-32
GDC Part No.
ADPCM-2
036M251-002
PCM-2
036P250-002
Voice II/ADPCM (With E And M) (036M201-004)
Equipment Supplied
Designation
ADPCM-2 PCB Assembly
ADPCM-2
GDC Part No.
036M251-002
PCM-2 PCB Assembly
PCM-2
036P250-002
EAM-1 PCB Assembly
EAM-1
036P252-001
Table 3-33
Voice II/ASP/16K (036M259-001)
Equipment Supplied
Designation
GDC Part No.
ASP Base Card
—
036P255-002
ASP Piggyback
—
036P259-001
Table 3-34
Voice II/ASP/Multi (036M259-002)
Equipment Supplied
Designation
GDC Part No.
ASP Base Card
—
036P255-002
ASP Piggyback
—
036P259-002
Voice II/CVSD and ASP Channel Interface Connections
Connections for voice channels are determined by the type of telephone equipment with which
the voice channel interfaces. The requirements of various voice termination systems are too
detailed to be covered thoroughly by this manual; use information from the Network
Documentation Package and manuals for associated telephone equipment to determine the
connection requirements of your system. In this manual, telephone equipment that connects to
voice channels falls into three basic categories:
•
Automatic Ringdown Circuits
•
Direct Connections to PBX Circuits
•
Tellabs and Other Voice Termination Systems (Tellabs is the standard voice termination
system supplied by General DataComm).
GDC 036R303-000
Channel Card Installation
3-27
Various standard cables supplied by GDC for voice channel connections are listed in Table 335. The options available for the Voice II/CVSD, Voice II/PCM and Voice II/ASP Channel
modules are described in Table 3-36 through Table 3-48. Refer to Chapter 8, for channel
connector pin assignments.
Voice II/CVSD Channel Module Options
The following options may be selected for the Voice II/CVSD Channel Module (See Figure 313 for the location of each option selection device on the module).
Input and Output Signal Levels
Nominal levels may be selected for voice input and output, as described in Table 3-36.
Attenuation or amplification of the input level (to compensate for cable losses or other
irregularities) may be selected, as described in Table 3-37.
E and M Signaling Interfaces
By selecting various options, the Voice II/CVSD Channel module can be configured to support
all E and M signaling types, as described in Table 3-38. Figure 3-14 depicts the M-lead
signaling interface circuits created by jumper plug positions. E-lead responses to loss of power
and service interruption may also be selected, as described in Table 3-39 and Table 3-40.
Filter Clock
The filter clock of the voice channel helps determine the bandwidth of the voice output. Two
sources may be selected for the filter clock: a clock signal at four times the data rate of the voice
channel, or a 128-kHz clock signal. The criteria for selecting one clock or the other are
discussed in Table 3-36.
GDC 036R303-000
3-28
Channel Card Installation
Table 3-35
GDC
Cable No.
Voice II/CVSD And ASP Channel Connection Cables
Description
Application
027H306
Voice Channel, DB-25 connector to
spade lugs
Single channel connection; tip, ring, Elead, M-lead, and ground brought out to
spade lugs. Available in 5-, 15-, and 25foot lengths.
027H409
Voice Channel, DB-25 connector to
punch-down wire leads
Single channel connection; tip, ring, Elead, M-lead, station battery, signal and
station ground brought out to wire ends
for punch-down applications. Available
in 5-, 15-, and 25-foot lengths.
326H024
TMS-3000 to PBX; DB-25 connector to
50-pin Amphenol connector. Up to 8
voice channels
Used to connect up to eight voice channels to private branch exchange. 5-foot
length only; requires 021H605-025 extension cable.
326H025
8-channel harness; DB-25 connector to
50-pin Amphenol connector
Used to connect up to eight voice channels to facility. Transmit and receive
leads crossed over. Available in 5-foot
length only. Requires 021H605-025 extension cable.
326H026
6-channel harness; DB-25 connector to
50-pin Amphenol connector
Used to connect up to six voice channels
to facility.
326H021
TMS-3000 to Tellabs 266R shelf (6
voice channels)
Used to connect up to six voice channels
to Tellabs 266AR shelf. Available in 5or 15-foot lengths.
326H023
TMS-3000 to Tellabs 2366R shelf (12
voice channels)
Used to connect up to 12 channels to Tellabs 266AR shelf. Available in 5- or 15foot lengths.
830-002S008
50-pin Amphenol male to male extension cable (25 pairs)
Used to connect 50-pin cables above to
customer voice termination point (demark), (voice channel to PBX).
830-002S007
50-pin Amphenol male to female exten- Used to connect Tellabs shelf to customsion cable (25 pairs)
er voice termination point (demark),
(Tellabs Shelf to PBX).
G024H012
Voice Channel and E & M
GDC 036R303-000
Used for Voice Channel CVSD and ASP
module types. Also used in E&M signaling applications.
Channel Card Installation
3-29
X11
128 KHz
DS4
X7
IDLE
X5
INT
3
-4 dB
-.5 dB
BUSY
+7 dB
X9
-16 dB
GND
INH
INH
DS3
X3
4
-1 dB
M
BATT
X8
2
X4
GND
IDLE
ON 1
X2
ON 1
2
3
4
NORM
X6
+1 dB
INT
S1
NORM
BATT
0 dB
M
0 dB
BUSY
DS2
DS1
S2
TP 1
BUSY IDLE
Note that jumper X10 is not used.
Figure 3-13
Voice II/CVSD Channel Module Option Locations
GDC 036R303-000
3-30
Channel Card Installation
Table 3-36
Voice II/CVSD Channel Option Selection
Switch(S) Jumper(X)
Feature
Nominal Input
Level
Nominal Output Level
Filter Clock
GDC 036R303-000
Selection
Desig.
Position
Application
0 dBm
S1-1
0
The nominal input level is determined
by the nominal output level of the telephone equipment connected to the channel.
–16 dBm
S1-1
–16
Most systems specify either 0 dBm or –16
dBm as their nominal output. PBX systems generally require selection of 0 dBm;
automatic ringdown or Tellabs and other
voice termination systems generally require selection of –16 dBm. If actual output levels of connected equipment vary
from the nominal levels of 0 dBm or –16
dBm, Switch S2 may be set to achieve
some level of compensation.
+7 dBm
S1-2
+7
The nominal output level for the Voice
II Channel is either 0 dBm or +7 dBm.
0 dBm
S1-2
0
This selection depends on the nominal input level specified for the telephone equipment connected to the channel. PBX
systems generally require selection of 0
dBm; automatic ringdown or Tellabs and
other voice termination systems generally
require selection of +7 dBm.
Adjustments to the actual measured output
level of the voice channel may be made
through the CRT interface by setting a degree of attenuation or amplification. The
output selected by S1-2 may be varied from
+1.5 dB above the nominal level to –6 dB
below the level in 0.5 dB steps.
128 kHz
X11
128 kHz
This selection should be made whenever
the data clock for the voice channel (selected through the supervisory port interface in
the Configuration routine) is greater than
32 kHz. The 128 kHz selection ensures
that the frequency range of the voice output
does not exceed telephone line limits.
4X Data
Clock
X11
4XDATA
This selection should be made whenever
the data clock for the voice channel (selected through the supervisory port interface in
the Configuration routine) is less than 32
kHz. When the data clock is 32 kHz, either
position is acceptable.
Channel Card Installation
Table 3-37
3-31
Voice II/CVSD Channel Input Level Adjustment Option
S2-1
(+1 dB)
S2-2
(–2 dB)
S2-3
(–4 dB)
S2-4
(+0.5 dB)
Input
Compensation
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
+1.5 dB
+1.0 dB
+0.5 dB
0 dB
–0.5 dB
–1.0 dB
–1.5 dB
–2.0 dB
–2.5 dB
–3.0 dB
–3.5 dB
–4.0 dB
–4.5 dB
–5.0 dB
–5.5 dB
–6.0 dB
Table 3-38
1
2
3
4
5
2*
X4
GND
GND
GND
M
M
M
Switches S2-1 through S2-4 select attenuation or amplification for the
voice input level. This compensates
for cable losses or improper output
levels from connected telephone
equipment. The switch selects a level
of compensation from +15 dB to –6.0
dB, in 0.5 dB steps. Each segment of
Switch S2 selects a level of attenuation or amplification; the individual
steps are added to produce a particular
level. A level is selected to compensate for some measured deviation of
the output level of equipment connected to the channel. The deviation
is the difference between the actual
level and the nominal level of 0 dBm
and –16 dBm selected on Switch S11.
For example, if the nominal level is 0
dBm, and the actual level is +2 dBm,
selection of –2 dB would compensate
for the difference between the nominal and measured input values.
Voice II/CVSD Channel E And M Signaling Option Selection
Berg Jumper Positions
Type
Application
Signaling States
X5
X6
Idle
Busy
Application
M
M
M
BATT
BATT
INT
GND
BATT
BATT
GND
GND
INT
0 Vdc
Open
0 Vdc
Open
Open
Open
–12 to –48 Vdc
–12 to –48 Vdc
–12 to –48 Vdc
0 Vdc
0 Vdc
0Vdc
X4, X5, and X6 select the proper interface for different E & M signaling
types. The jumper positions selected
depend entirely on the E & M signaling type used by the voice equipment
connected to a Voice Channel module. For most applications, the selections shown for Signaling Type 1 are
used.
* Back to back; i.e., when the VF interfaces of two voice II Channel modules are connected directly
together.
GDC 036R303-000
3-32
Channel Card Installation
A
VOICE CHANNEL
TERMINATING
EQUIPMENT
M
GND
+
SG
M-LEAD
SENSOR
(ISOLATED)
-
M-LEAD
OUT
B
INT
BATT
M
-12 V
M
-12 TO
-48 V
C
A
X1 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X4 ON VOICE II/CVSD CHANNEL MODULE
X4 ON VOICE II/PCM & ADPCM CHANNEL MODULES
B
X2 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X5 ON VOICE II/CVSD CHANNEL MODULE
X3 ON VOICE II/PCM & ADPCM CHANNEL MODULES
INT
PTC
C
- BATT
GND
N.C.
A. TYPE 1
D
NOTE:
BATT
SB
X3 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X6 ON VOICE II/CVSD CHANNEL MODULE
X5 ON VOICE II/PCM & ADPCM CHANNEL MODULES
X2, X6 AND X10
ON EAM-1 PIGGYBACK
BOARD IN U.S. POSITION
N.C.
X4 AND X9 ON UNIVERSAL VOICE
CARD IN U.S. POSITION
NOTE : For Type I interface, the ground of the Signalling CKT and the ground of the Trunk CKT must be referenced to the same place for reliable
operation. The GDC Type I interface is correctly pictured as:
A
VOICE CHANNEL
TERMINATING
EQUIPMENT
P1
M
GND
+
SG
M-LEAD
SENSOR
(ISOLATED)
-
M-LEAD
OUT
B
INT
B. TYPE 2
BATT
M
A
-12 V
M
C
B
-12 TO
-48 V
INT
C
PTC
- BATT
BUSY
GND
BATT
IDLE
SB
D
NOTE:
X1 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X4 ON VOICE II/CVSD CHANNEL MODULE
X4 ON VOICE II/PCM & ADPCM CHANNEL MODULES
X2 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X5 ON VOICE II/CVSD CHANNEL MODULE
X3 ON VOICE II/PCM & ADPCM CHANNEL MODULES
X3 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X6 ON VOICE II/CVSD CHANNEL MODULE
X5 ON VOICE II/PCM & ADPCM CHANNEL MODULES
X2, X6 AND X10
ON EAM-1 PIGGYBACK
BOARD IN U.S. POSITION
X4 AND X9 ON UNIVERSAL VOICE
CARD IN U.S. POSITION
NOTE : The additional external signal for -BATT may be common for multiple PCM cards and are not related to the Trunk CKT. 48 Volts is not
presently available in the TMS and so an external source is required.
Figure 3-14
GDC 036R303-000
M-Lead Signaling Interfaces (Sheet 1 of 4)
Channel Card Installation
3-33
VOICE CHANNEL
P1
A
TERMINATING
EQUIPMENT
M
GND
+
SG
M-LEAD
SENSOR
(ISOLATED)
-
M-LEAD
OUT
B
975
INT
NOTE: X2, X6 AND X10
ON EAM-1 PIGGYBACK
BOARD IN U.S. POSITION
BATT
IDLE
M
-12 V
X4 AND X9 ON UNIVERSAL VOICE
CARD IN U.S. POSITION
M
C. Type 3
C
BUSY
A
INT
-12 TO
-48 V
PTC
B
- BATT
GND
D
BATT
C
SB
VOICE CHANNEL
TERMINATING
EQUIPMENT
X1 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X4 ON VOICE II/CVSD CHANNEL MODULE
X4 ON VOICE II/PCM & ADPCM CHANNEL MODULES
X2 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X5 ON VOICE II/CVSD CHANNEL MODULE
X3 ON VOICE II/PCM & ADPCM CHANNEL MODULES
X3 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X6 ON VOICE II/CVSD CHANNEL MODULE
X5 ON VOICE II/PCM & ADPCM CHANNEL MODULES
A
P1
M
GND
+
SG
-
M-LEAD
SENSOR
(ISOLATED)
M-LEAD
OUT
B
INT
BATT
M
NOTE: X2, X6 AND X10
ON EAM-1 PIGGYBACK
BOARD IN U.S. POSITION
-12 V
M
D. Type 4
X4 AND X9 ON UNIVERSAL VOICE
CARD IN U.S. POSITION
C
INT
A
PTC
B
- BATT
BUSY
GND
SB
-12 TO
-48 V
Figure 3-14
D
BATT
IDLE
C
X1 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X4 ON VOICE II/CVSD CHANNEL MODULE
X4 ON VOICE II/PCM & ADPCM CHANNEL MODULES
X2 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X5 ON VOICE II/CVSD CHANNEL MODULE
X3 ON VOICE II/PCM & ADPCM CHANNEL MODULES
X3 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X6 ON VOICE II/CVSD CHANNEL MODULE
X5 ON VOICE II/PCM & ADPCM CHANNEL MODULES
M-Lead Signaling Interfaces (Sheet 2 of 4)
GDC 036R303-000
3-34
Channel Card Installation
A
VOICE CHANNEL
P1
TERMINATING
EQUIPMENT
M
GND
+
SG
M-LEAD
SENSOR
(ISOLATED)
B
M-LEAD
OUT
INT
BUSY
NOTE:
IDLE
BATT
M
-12 V
X4 AND X9 ON UNIVERSAL VOICE
CARD IN U.S. POSITION
M
C
E. Type 5
X1 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X4 ON VOICE II/CVSD CHANNEL MODULE
X4 ON VOICE II/PCM & ADPCM CHANNEL MODULES
A
INT
-12 TO
-48 V
PTC
B
- BATT
GND
X2, X6 AND X10
ON EAM-1 PIGGYBACK
BOARD IN U.S. POSITION
D
BATT
X2 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X5 ON VOICE II/CVSD CHANNEL MODULE
X3 ON VOICE II/PCM & ADPCM CHANNEL MODULES
X3 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X6 ON VOICE II/CVSD CHANNEL MODULE
X5 ON VOICE II/PCM & ADPCM CHANNEL MODULES
C
SB
N.C.
VOICE CHANNEL
VOICE CHANNEL
A
CABLE
E
M
IDLE
BUSY
SB
M
GND
+
SG
-
M-LEAD
SENSOR
(ISOLATED)
M-LEAD
OUT
B
F. Type 2
(Back-to-Back
INT
)
NOTE:
BATT
M
-12 V
M
E
X2, X6 AND X10
ON EAM-1 PIGGYBACK
BOARD IN U.S. POSITION
X4 AND X9 ON UNIVERSAL VOICE
CARD IN U.S. POSITION
C
INT
A
PTC
BUSY
B
- BATT
DLE
- BATT
N.C.
GND
N.C.
D
BATT
SG
Figure 3-14
GDC 036R303-000
SB
C
M-Lead Signaling Interfaces (Sheet 3 of 4)
X1 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X4 ON VOICE II/CVSD CHANNEL MODULE
X4 ON VOICE II/PCM & ADPCM CHANNEL MODULE
X2 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X5 ON VOICE II/CVSD CHANNEL MODULE
X3 ON VOICE II/PCM & ADPCM CHANNEL MODULE
X3 ON VOICE II/ASP CHANNEL MODULE
AND UNIVERSAL VOICE CARD
X6 ON VOICE II/CVSD CHANNEL MODULE
X5 ON VOICE II/PCM & ADPCM CHANNEL MODULE
Channel Card Installation
3-35
A
VOICE CHANNEL
X1
TERMINATING
EQUIPMENT
M
GND
+
SG
SG
8
M-LEAD
SENSOR
(U.K.)
-
M-LEAD
OUT
B
X2
INT
BATT
IDLE
-12 V
M
-12 V
M
E
BUSY
3
D
C
X3
INT
PTC
- BATT
GND
N.C.
D
A
BATT
2
B
SB
N.C.
15
P1, P2
C
NOTES:
1.
X4 AND X5 MUST BE IN THE U.K.
POSITION ON THE UVC AND VOICE IN
ASP CHANNEL MODULE ONLY.
2.
X2, X6 AND X10 ON EAM-1 PIGGYBACK
BOARD IN U.K. POSITION.
X1 ON UNIVERSAL VOICE CARD
X1 ON VOICE II/ASP CHANNEL MODULE
X4 ON VOICE II/PCM AND ADPCM
CHANNEL MODULES
X2 ON UNIVERSAL VOICE CARD
X2 ON VOICE II/ASP CHANNEL MODULE
X3 ON VOICE II/PCM AND ADPCM
CHANNEL MODULES
X3 ON UNIVERSAL VOICE CARD
X3 ON VOICE II/ASP CHANNEL MODULE
X5 ON VOICE II/PCM AND ADPCM
CHANNEL MODULES
G. U.K. OPERATION (SSDC5)
Figure 3-14
M-Lead Signaling Interfaces (Sheet 4 of 4)
GDC 036R303-000
3-36
Channel Card Installation
Table 3-39
Voice II/CVSD Channel E-Lead Relay State Option Selection
Feature
X7
Position
X8
Position
X9
Position
Application
Loss of Power
E-Lead Signaling State
Busy
Idle
Idle
With these three jumpers set in the position
shown, the E-Lead (pin 24 on the DB-25 EIA
connector) is in an Idle state during loss of
power. The E’ lead (pin 11 on the DB-25 EIA
connector) is in a Busy state during loss of
power. This selection is generally made for
connections between the voice channel and
automatic ringdown circuits.
Idle
Busy
Busy
With these three jumpers set in the position
shown, the E-Lead (pin 24 on the DB-25 EIA
connector) is in a Busy state during loss of
power. The E’ lead (pin 11 on the DB-25 EIA
connector) is in an Idle state during loss of
power. This selection is generally made for
connections between the voice channel and
PBX systems, or Tellabs and other voice termination systems.
Table 3-40
Voice II/CVSD Channel E-Lead Out-of-Service Option Selection
Feature
Service Interruption/
Loss of Sync Signaling
Response
GDC 036R303-000
X2 Position
X3 Position
Application
NORM
NORM
If TMS-3000 synchronization is lost or the channel
is placed out of service, the E-Lead is forced to the
Idle state for 2.5 seconds, and then reverts to the
Busy state.
INH
NORM
If TMS-3000 synchronization is lost or the channel
is placed out of service, the E-Lead is forced to the
Busy state 2.5 seconds after synchronization is lost.
NORM
INH
If TMS-3000 synchronization is lost or the channel
is placed out of service, the E-Lead is forced to the
Idle state immediately.
INH
INH
The E-Lead state is not changed due to loss of
synchronization or channel placed out-of-service.
Channel Card Installation
Table 3-41
3-37
E And M Signaling Option Selections (EAM-1 Board)
Signaling
Type
1
X4
X3
Berg Jumper
Positions
Signaling States
Berg Jumper Positions
X5
IDLE
BUSY
X2, X6, X10
GND
M
GND
0 V dc
–12 to –48 V dc
U.S.
2
GND
M
BATT
OPEN
–12 to –48 V dc
U.S.
3
GND
M
BATT
0 V dc
–12 to –48 V dc
U.S.
4
M
BATT
GND
OPEN
0 V dc
U.S.
5
M
BATT
GND
OPEN
0 V dc
U.S.
2*
M
INT
INT
OPEN
0 V dc
U.S.
U.K.**
M
INT
INT/GND
OPEN
0 V dc
U.K.
* For back-to-back signaling with no external battery.
Application: X2-X5 and X10 select the proper interface for different E and M signaling types. The jumper
positions selected depend entirely on the E and M signaling type used by the voice equipment connected to the
Voice II/PCM or Voice II/ADPCM module.
** For SSDC5 signaling, two jumper plugs are required on X5, in both the INT and GND positions.
P1
1
P2
1
Note: X2 through X10 jumper options are identified
on the solder side of the PCB.
X5
X6
US
UK
X8
X9
X10
UK
US
UK
INT
GND
BATT
GND
M
BATT
M
INT
US
UK
X7
IDLE
BUSY
X4
IDLE
BUSY
X3
IDLE
BUSY
X2
Note: The card is configured for U.S. operation.
Figure 3-15
E and M Signaling Piggyback Card (EAM-1) Option Locations
GDC 036R303-000
3-38
Channel Card Installation
Table 3-42
Idle/Busy E-Lead Option Selection (EAM-1 Board)
Jumper
Selection
Application
X7
X8
X9
BUSY
BUSY
BUSY
When the E-Lead is used for signaling, loss of TDM power
results in a BUSY E-Lead.
X7
X8
X9
IDLE
IDLE
IDLE
When the E-Lead is used for signaling, loss of TDM power
results in an IDLE E-Lead.
NOTE: The E’-Lead (P1-54) is the inverted state of the E-Lead (P1-56).
Voice II/ASP Channel Module Options
The following options can be selected for the Voice II/ASP Channel Modules (See Figure 3-16
for the location of each option selection device).
Input and Output Signal Levels
Nominal levels may be selected for voice input and output as described in Table 3-43.
Attenuation of the input level (to compensate for cable losses or other irregularities) may be
selected as described in Table 3-44.
E and M Signaling Interfaces
By selecting various options, the Voice II/ASP Channel Module can be configured to support
all E and M signaling types, as depicted in Table 3-45. Figure 3-14 (shown earlier in chapter)
depicts the M-lead signaling interface circuits created by jumper plug positions. E-lead polarity
selection and E-lead responses to loss of power and service interruption can also be selected as
described in Table 3-46 through Table 3-48.
GDC 036R303-000
Channel Card Installation
Table 3-43
Voice II/ASP Channel Option Selection
Selection
Feature
3-39
Switch(S), Jumper(X)
(dBm)
Desig.
Position
Application
Nominal Input
Level
0
–16
S1-1
S1-1
OFF
ON
The nominal input level is determined by
the nominal output level of the telephone
equipment connected to the channel. If actual output levels of connected equipment
vary from the nominal levels, Switch S1
may be set to achieve some level of compensation.
Nominal Output
Level
0
+7
S1-3
S1-3
OFF
ON
The nominal output level for the ASP
Channel is either 0 dBm or +7 dBm. This
selection depends on the nominal input level specified for the telephone equipment
connected to the channel. Adjustments to
the actual measured output level of the
voice channel may be made through the
Controller by setting a degree of attenuation or amplification. The output selected
by S1-3 may be varied from +1.5 dB above
the nominal level to –6 dB below the level
in 0.5 dB steps. Refer to GDC 036R603Vnnn, for information on the output level.
DS1
DS2
DS4
X1
X2
ON 1 2
3 4 5
6 7
8
X3
DS3
X4
X5
X9
X7
X11
X8
X10
X13
X15
1 2 3 4 5
X14
Figure 3-16
X12
Voice II/ASP Channel Module Option Locations
GDC 036R303-000
3-40
Channel Card Installation
Table 3-44
Voice II/ASP Channel Input Level Adjustment Option
S1-7
(–2 dB)
S1-6
(+0.5 dB)
S1-5
(+1 dB)
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
ON
Table 3-45
S1-8
(–4 dB)
Input
Compensation
(dB)
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
+1.5
+11.0
+0.5
0
–0.5
–1.0
–1.5
–2.0
–2.5
–3.0
–3.5
–4.0
–4.5
–5.0
–5.5
–6.0
Application
Switches S1-5 through S1-8 select attenuation or amplification for the voice input level. This compensates for cable losses or
improper out-put levels from connected
telephone equipment. The Switch selects a
level of compensation from +1.5 dB to –6.0
dB in 0.5 dB steps. Each segment of
Switch S1 selects a level of attenuation or
amplification; the individual steps are added to produce a particular level. A level is
selected to compensate for some measured
deviation of the output level of equipment
connected to the channel. The deviation is
the difference between the actual level and
the nominal level (selected on Switch S11).
Voice II/ASP VF Channel E And M Signaling Type Selection
Signaling
Berg Jumper Positions
Type
X1
1
2
3
4
5
U.K.
2-3
2-3
2-3
1-2
1-2
1-2
X2
2-3
2-3
2-3
4-5
4-5
4-5
Table 3-46
Signaling States
X3
X15
X9,X10,X11,X12
IDLE
BUSY
2-3
1-2
1-2
2-3
2-3
2-3, 4-5
2-3
2-3
2-3
2-3
2-3
1-2, 3-4
1-2
1-2
1-2
1-2
1-2
2-3
0 Vdc OPEN
0 Vdc
OPEN
OPEN
OPEN
–12 to –48 Vdc
–12 to –48 Vdc
–12 to –48 Vdc
0 Vdc
0 Vdc
0 Vdc
Voice II/ASP Channel E-Lead Polarity Option Selection
Feature
Selection
X13, X14 Position
Application
E-Lead Polarity
Negative
Polarity
1-2
Positive
Polarity
2-3
Jumpers X13 and X14 select polarity for the E-Lead.
These jumper positions depend on the requirements of the
equip-ment connected to the ASP channel interface. Normally, the M-Lead detector of the channel equipment provides only a negative voltage and requires a negative
polarity E-Lead setting. But if the M-Lead detector provides a positive voltage, the E-Lead polarity should be set
to positive.
GDC 036R303-000
Channel Card Installation
Table 3-47
3-41
Voice II/ASP Channel E-Lead State During Loss Of Power Option
Feature
E-Lead
State
X4
Position
X5 Position
Application
Loss of Power
E-Lead
Signaling State
Idle
2-3
2-3
With this selection, the E-Lead is in an Idle state during loss of power.
Busy
1-2
1-2
With this selection, the E-Lead is in a Busy state during loss of power.
Table 3-48
Voice II/ASP Channel E-Lead Service Interruption Options
Feature
E-Lead State Upon Loss
of
Sync/Service Interruption
Jumper
Positions
Application
ASP
X7
X8
1-2
1-2
The E-Lead is forced Idle 0.5 seconds after sync
loss, and then reverts to the Busy state after two seconds.
X7
X8
2-3
1-2
The E-Lead is forced Busy two seconds after sync
loss.
X7
X8
1-2
2-3
The E-Lead is forced to the Idle state 0.5 seconds after sync loss.
X7
X8
2-3
2-3
The E-Lead is not affected by loss of sync.
Universal Voice Card Channel Options
Option selection switches and headers are used to configure the various Universal Voice Card
configurations to provide the desired voice encoding techniques, input and output levels,
signaling types, and service interruption requirements. Voice encoding options, unique to each
type of Universal Voice Card, are selected using Switch S1 on the card (See Figure 3-17).
Table 3-49 defines the switch positions, the corresponding part number of the Universal Voice
Card, and the application of each voice type. Option selections for input and output levels,
signaling types, and service interruption requirements are common for all versions of the card
and are selected using Switch S2 and Headers X1 through X12 (See Figure 3-17 and Table 350 through Table 3-54).
PCM Voice Encoding
Universal Voice Card P/N 036P265-002 is used for PCM voice encoding. This card furnishes
PCM voice encoding at a synchronous data rate of 64 Kbps. Either U.S. or U.K. signaling types
can be accommodated. PCM voice encoding with either 2 kHz or 800 Hz may be selected (See
Table 3-49).
GDC 036R303-000
3-42
Channel Card Installation
ADPCM Voice Encoding
Universal Voice Card P/N 036P265-003 is used for ADPCM voice encoding. The ADPCM
option provides ADPCM voice encoding with 800 Hz overhead and software controlled
variable synchronous data rates of 32 Kbps, 24 Kbps, or 16 Kbps with PCM-T (64 Kbps)
fallback mode (See Table 3-49).
Input and Output Signal Level Option Selections
The PCM and ADPCM versions of the Universal Voice Card accept nominal input levels of –
16 dBm and 0 dBm and provide nominal output levels of 0 dBm and +7 dBm. You can choose
nominal input and output levels for the voice input and output as described in Table 3-50.
Nominal input level may be adjusted (to compensate for cable losses or other irregularities) as
described in Table 3-51. The nominal output level may also be adjusted to achieve additional
compensation, but the adjustments are software selectable only. The output level adjustments
have the same dBm range as the input level adjustments.
E and M Signaling Options
The E and M signaling subsystem gives you a means of supervisory pulse communications
between local and remote telephone networks. The signaling data is transmitted over the same
path as the voice data. But additional bandwidth is used for the E and M signaling information.
By selecting various options, the PCM or ADPCM versions of the Universal Voice Card can be
configured to support seven types of E and M signaling as described in Table 3-52. The MLead signaling interface circuits created by the jumper plug positions were previously shown
in Figure 3-14.
Idle/Busy E-Lead and Voltage Polarity Options
E-Lead inversion and loss of power states are selected by Jumpers X5 and X6 on the Universal
Voice Card. These options select the state (BUSY or IDLE) that the E-Lead reverts to when
TMS-3000 power is lost. Jumpers X7 and X8 on the Universal Voice Card select the voltage
polarity for the E-Lead. The option selections are shown and described in Table 3-53.
Service Interruption Options
Four options are available for E-lead operation following either a loss of synchronization or an
out-of-service condition. The available options are shown in Table 3-54.
Echo Canceller Option
Header X12 (See Figure 3-17) is provided for use with the Echo Canceller Piggyback Card.
Header X12 allows selection between the incoming transmit PCM from the Codec NORM, or
the PCM with echo cancellation from the Echo Canceller Piggyback Card (ECH). Place
Jumper X12 in the ECH position if you are using the Echo Canceller Piggyback Card, otherwise
it should be left in the NORM position.
GDC 036R303-000
Channel Card Installation
3-43
Voice Channel Configuration Selections
The Universal Voice Card voice channel software configuration parameters are selected using
the Controller for the Transport Management System. The available selections are:
•
VF/dB Levels
•
ADPCM — Selection of a reduced rate, or the PCM-T (64 Kbps) pass-through mode
Detailed configuration instructions are provided in GDC 036R603-Vnnn.
FL 1
S1
FL 2
ON 1 2 3 4 5 6 7 8
FL 3
FUSIBLE LINKS
X10
X11
P1
INH
NORM
X6 X5
GND
M
S2
BATT
ON 1 2 3 4 5 6 7 8
- VE
X9
UK
US
UK
Figure 3-17
X3
BATT
GND
GND
INT
NORM
INT
M
US
UK
X4
TP 1
TP 2
TP 3
+ 1 dB
+ .5 dB
-2 dB
-4 dB
X2
LVL OUT
X7 X8
+ VE
X12
ECH
X1
LVL IN
BUSY
IDLE
Universal Voice Card, Option Switch and Jumper Locations
GDC 036R303-000
3-44
Channel Card Installation
Table 3-49
Universal Voice Card Voice Encoding Option Selections
Switch Positions
Modulation
Voice
Card Type S1-1 S1-2 S1-3 S1-4 S1-5 S1-6 S1-7 S1-8
PCM
PCM
ON
PCM-T
LOOFF ON
HPCM-VF
OFF ON
ADPCM
ADPCM
ON
ON
ON
ON
ON
OFF ON
ON
UVC Used
(GDC Part
No.)
036P265-002
036P265-003
Application
ON
OFF ON
Provides PCM
encoding at 64
Kbps with-2 kHz
over-head (for
com-patibility
with P/N
036P250 Voice
II/PCM cards).
ON
ON
OFF OFF 036P265-002
036P265-003
Provides PCM
encoding at 64
Kbps with 800Hz overhead.
ON
ON
ON
OFF 036P265-003
Provides ADPCM encoding at
32-KHz with 2
kHz overhead
(for compatibility
with P/N
036M200 and
036M201 cards).
OFF ON
ON
OFF 036P265-003
Provides ADPCM voice encoding with
variable rates and
800-Hz overhead.
UADPCM UADPCM
IF
OFF ON
OFF ON
ASP
ASP
OFF ON
ON
OFF ON
ON
OFF OFF 036M265-001
Provides ASP encoding at a rate of
16-KHz, A-law,
PCM with PCMT fallback mode.
ASP
MASP
OFF ON
OFF OFF ON
ON
OFF OFF 036M265-001
Provides variable
rate ASP.
TOR
TOR VF
OFF ON
ON
OFF OFF ON
OFF OFF 036P265-002
036P265-003
Provides TOR
encoding
CADM
CADM VF OFF ON
ON
ON
OFF ON
Provides CADM
encoding, Mulaw PCM at 16KHz.
GDC 036R303-000
ON
ON
036P265-012
Channel Card Installation
Table 3-50
3-45
Universal Voice Card Input/Output Level Option Selections (Switch S2)
Selection
Feature
Switch (S)
(dBm)
Desig.
Position
Application
Nominal Input
Level
–16
0
S2-1
S2-1
ON
OFF
The nominal input level is determined by the nominal output level of the telephone equipment connected to the channel. If actual output levels of
connected equipment vary from the nominal levels,
Switch S2 may be set to achieve an additional level
of compensation.
Nominal Output
Level
0
+7
S2-3
S2-3
OFF
ON
The nominal output level for the channel is either
0 dBm or +7 dBm. This selection depends on the
nominal input level specified for the telephone
equipment connected to the channel. Adjusting output level to get more compensation is a software option.
Note: Switch S2 is located on the Analog Universal Voice Card.
Table 3-51
S2-5
(+1 dB)
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
OFF
OFF
S2-6
(+0.5 dB)
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
Universal Voice Card Input Level Adjustment Options (Switch S2)
S2-7
(–2 dB)
OFF
OFF
OFF
OFF
ON
ON
ON
ONB
OFF
OFF
OFF
OFF
ON
ON
ON
ON
S2-8
(–4 dB)
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
Input
Compensation
(dB)
Applications
+1,5
+1.0
+0.5
0
–0.5
–1.0
–1.5
–2.0
–2.5
–3.0
–3.5
–4.0
–4.5
–5.0
–5.5
–6.0
Switches S2-5 through S2-8 select attenuation or amplification
for the voice input level. This
compensates for cable losses or
improper output levels from
connected telephone equipment.
The switch selects a level of
compensation from +1.5 dB to –
6.0 dB in 0.5 dB steps. Each
segment of Switch S2 selects a
level of attenuation or amplification; the individual steps are
added to produce a particular
level. A level is selected to
compensate for some measured
deviation of the output level of
equipment connected to the
channel. The deviation is the
difference between the actual
level and the nominal level (selected on Switch S2-1).
GDC 036R303-000
3-46
Channel Card Installation
Table 3-52
Universal Voice Card E And M Signaling Option Selections
Signaling
Jumper Positions
Type
1
2
3
4
5
U.K.
(SSDC5)
2*
X1
X2
X3
Signaling States
X4, X9
IDLE
BUSY
GND
GND
GND
M
M
M
M
M
M
BATT
BATT
BATT
GND
BATT
BATT
GND
GND
INT/GND
U.S.
U.S.
U.S.
U.S.
U.S.
U.K.
0 V dc
OPEN
0 V dc
OPEN
OPEN
OPEN
–12 to –48 V dc
–12 to –48 V dc
–12 to –48 V dc
0 V dc
0 V dc
0 V dc
M
INT
INT
U.S.
OPEN
0 V dc
* For back-to-back signaling with no external battery.
NOTE: Headers X1, X2, X3, X4, and X9 are located on the Universal Voice Card.
Table 3-53
Jumper
Idle/Busy E-Lead And Voltage Polarity Option Selections
Jumper Position
Application
X5
X6
BUSY
BUSY
When the E-Lead is used for signaling, loss of TMS-3000 power
results in a BUSY E-Lead.
X5
X6
IDLE
IDLE
When the E-Lead is used for signaling loss of TMS-3000 power
results in an IDLE E-Lead.
X7
X8
+VE
+VE
(Positive Polarity)
Jumpers X7 and X8 select polarity for the E-Lead. These jumper
positions (+ or –) depend on the requirements of the interface.
Normally, the M-Lead detector of the channel equipment will
X7
X8
–VE
provide only a negative voltage and requires a negative (–) polarity E-Lead setting. But if the M-Lead detector provides a posi–VE
tive voltage, the E-Lead polarity should be set to positive (+).
(Negative Polarity)
NOTE: Headers X5, X6, X7, and X8 are located on the Universal Voice Card.
Table 3-54
X10
E-Lead Service Interruption Options
X11
Application
NORM
NORM
The E-lead is forced to IDLE 0.5 seconds after a service interruption and reverts to BUSY after an additional 2.5 seconds.
NORM
INH
The E-Lead is forced to BUSY 3.0 seconds after a service interruption.
INH
NORM
The E-Lead is forced to IDLE 0.5 seconds after a service interruption.
INH
INH
The E-Lead is not affected by a service interruption.
NOTE: Headers X10 and X11 are located on the Universal Voice Card.
GDC 036R303-000
Channel Card Installation
3-47
Echo Canceller Card
The Echo Canceller Piggyback Card is a double-sided, printed circuit card assembly with
physical dimensions of 4.4 inches by 3.95 inches. It mounts on the Universal Voice Card and
is supported by four standoffs. Electrical connections are made by means of a 13-pin header.
The Echo Canceller Card contains one right-angle DIP switch mounted near its upper edge,
enabling options to be selected without removing the card from the Universal Voice Card.
Echo Canceller Options
The Echo Canceller Card options are selected using Switches S1-1 through S1-5 on the Echo
Canceller Card.
In the TMS-3000, the Residual Echo Suppressor option on the Echo Canceller Card is no longer
supported. The use of this option may cause the Universal Voice Card to synchronize
incorrectly after a loss of sync due to link errors. The Adaptive Bulk Delay feature now has a
factory default value of 0 dBm .
Figure 3-18 locates option selection Switch S1. Table 3-55 defines the option selections.
Top of Card
S1
1
13
XA1P1
Figure 3-18
Echo Canceller Card Option Switch Location
GDC 036R303-000
3-48
Channel Card Installation
Table 3-55
Echo Canceller Card Option Selections
Switch (S)
Feature
Bulk Delay
External Line
Enable/Disable
Selection
Desig.
Position
0 ms fixed delay
S1-2
S1-3
Closed (Down)
Closed (Down)
7 ms fixed delay
S1-2
S1-3
Closed (Down)
Open (Up)
14 ms fixed delay
S1-2
S1-3
Open (Up)
Closed (Down)
Adaptive Delay
(0 ms initially)
S1-2
S1-3
Open (Up)
Open (Up)
Disable Always
S1-4
S1-5
Closed (Down)
Closed (Down)
Enable Always
S1-4
S1-5
Open (Up)
Open (Up)
Disable when
external control
line is grounded
S1-4
S1-5
Closed (Down)
Open (Up)
Enable when
external control
line is grounded
S1-4
S1-5
Open (Up)
Closed (Down)
Application
These switch positions control the
length of the bulk delay. The bulk delay is required to enable echo cancellation on tail circuits with a delay in
excess of 16 ms. In most situations,
the bulk delay value can be determined by trying the three possible settings (0 ms, 7 ms and 14 ms) and then
selecting the setting that provides the
best results. In cases where the length
of the tail circuit varies greatly with
different call routings, then the
“Adaptive Delay’’ setting should be
selected to allow the length of the
bulk delay to adapt itself to the optimum value for each call. The Echo
Canceller Adaptive Bulk Delay Algorithm may not function properly if the
digital transmit and receive levels on
the voice channel card are not set to
be the same and the Echo Canceller
may not converge to this situation. It
is essential to adjust the gains and
losses in the analog circuitry so that a
0 dBm signal at each end of the link
results in the same signal level (measured in dBm) at the analog input/output of the PCM CODEC. Therefore,
the factory default setting of Bulk Delay option is now 0 ms.
These switch positions control the operation of the external control line.
The control line is used by external
equipment to enable or disable the
Echo Canceller, when required. With
the switches set to the external control
line. “Disable’’ or “Enable’’ position,
the Echo Canceller is either disabled
or enabled when the external control
line is grounded.
With the switches set to the “Disable
Always’’ or “Enable Always’’ position, the Echo Canceller is permanently disabled or enabled regardless
of the state of the external control
line.
NOTE: Switch S1-1 is to remain in Open (Up) position at all times.
The residual echo suppresser option on the Echo Canceller Card may cause the Universal Voice Card to synchronize incorrectly after a loss of sync due to link errors. The Adaptive Bulk Delay has a factory default of 0
dBm.
GDC 036R303-000
Channel Card Installation
3-49
Variable Rate ASP Piggyback Card
Either a fixed or variable rate ASP Piggyback card may be installed on the Voice II/ASP or
UVC/ASP Channel Module. With the ASP Piggyback Card GDC 036P259-001 installed, fixed
rate ASP at 16 Kbps is provided. With ASP Piggyback Card, GDC 036P259-002 installed,
variable rate ASP rates of 10, 11, 12, and 16 Kbps may be selected by means of the software.
The location of option Switch S1 on the ASP Piggyback Card is shown in Figure 3-18. The
option selections for fixed or variable rate ASP are described in Table 3-56.
P3
P2
P1
S1
OPEN
1
2
3
4
5
Figure 3-19
Fixed or Variable Rate ASP Piggyback Card, Option Switch S1 Location
Table 3-56
Fixed or Variable Rate ASP Piggyback Card, Option Switch S1 Selection
Switch
Fixed Rate ASP
(ASP Piggyback Card
036P259-001)
Variable Rate ASP
(ASP Piggyback Card
036P259-002)
S1-1
S1-2
S1-3
S1-4
S1-5
ON
OFF
OFF
ON
OFF
ON
OFF
OFF
OFF
OFF
OFF
Application
Fixed rate ASP switch positions provide fixed rate ASP at
16 Kbps.
Variable rate ASP switch positions provide software selectable, variable rates of 10, 11,
12, or 16 Kbps.
GDC 036R303-000
3-50
Channel Card Installation
Other Channel Cards
There are several other channel cards that can be used in the TMS-3000. The technical manuals
that contain detailed information about these cards are listed in the Preface. For OCM channel
cards refer to GDC 036R340-000 and associated addendums.
Summary
This chapter provided information on the installation and optioning of the TMS-3000 channel
cards. Part numbers and option selection were discussed in this chapter.
What's Next
In the next chapter we cover the procedures for operating the TMS Controller hardware and
software.
GDC 036R303-000
4 Operation
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controller. Serial Port 1 on the back of the PC is the leftmost I/O port. Serial
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Initial Loading of Software
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What You Need
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•
A Model 486 or better computer containing a minimum of 5 Megabytes of RAM (8
megabytes recommended).
•
One hard disk with a minimum of 80 megabytes of storage is required (200 megabytes
recommended).
•
If not using an ESDI, IDE (Intelligent Drive Electronics) computer, a copy of the list of bad
tracks located on top of the hard disk drive (if your disk supplies such a list)
•
One double-sided 1.44 Mb (3.5-inch) floppy drive
•
XENIX Operating System floppy disks (version 2.3.4)
•
Software serial number supplied with the XENIX disks
•
Software activation key supplied with the XENIX disks
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Using Large Hard Drives
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Pentium 100 Setup Procedures
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Primary IDE Slave
Secondary IDE Master
Secondary IDE Slave
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Language: English <Grayed Out>
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First Floppy
Second Hard drive
All others Disabled
System prompt Enabled
Type-matic programming rate Default
Hit <ESC> to return to the MAIN menu
Video Mode EGA/VGA
Mouse Not installed
Base Memory
640KB
Extended Memory 15360KB *(May Differ)
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Processor type
Pentium Family
Processor speed 100 MHZ.
Cache size 256K
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PCI IDE interface Enabled
Floppy Interface Enabled
Serial port 1 Address COM1 3F8 IRQ4
Serial port 2 Address COM2 2F8 IRQ3
Serial port 2 IR MODE Disabled
Parallel Port Address LPT1 378 IRQ
Parallel port mode Compatible
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Base memory size 640KB
ISA LFB size Disabled
Video Palette snoop Disabled
Latency timer 66
PCI burst Enabled
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Advanced power management Disabled
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Configuration Mode Use setup Utility
ISA shared memory size 64KB
ISA shared memory base address D0000h
IRQ5 Used by ISA card
all others Available
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Pentium 90 Setup Procedures
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Main
Advanced
Security
System Date:
YYYY DD MMM
System Time:
HH:MM:SS
Exit
Floppy A type: 1.44 MB, 3.5 Inch
Floppy B type: Disabled
Hard disk type: c:
<type of drive installed>
d:
not installed
e:
not installed
f:
not installed
Language:
English
Boot Options:
<PRESS ENTER>
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Boot sequence
A:
System Cache
enabled
Boot speed
turbo
Num lock
OFF
Setup Prompt
first then C:
enabled
Hard disk pre-delay3 seconds
Type-matic rate
programming refresh
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Video mode:
EGA / VGA
Mouse:
not installed
Base memory:
640KB
Extended memory: 15360K PD\GLIIHU
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(Fixed Fields)
Configuration mode
Auto
PCI IDE Interface
Enabled
Standard IDE Interface
Enabled
Floppy Interface
Enabled
(Fixed Fields)
Serial Port 1 Address COM13F8H
Serial Port 2 Address COM22F8H
Parallel Port Address LPT1378H
Parallel Port Mode
Compatible
(Fixed Fields)
Serial Port 1 IRQ4
Serial Port 2 IRQ3
Parallel Port IRQ7
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Base memory size:
640KB
ISA Bus speed:
Compatible
Byte merging:
Enable
PCI IDE prefetch buffers
Enabled
ISA LFB size
Disabled
Latency timer (PCI Clocks)
66
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Advanced power management
Disabled
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Configuration mode:
Use setup utility
ISA shared memory size
64KB
ISA shared memory base address D000h
IRQ 5 used by ISA card
IRQ 9 available (fixed field)
IRQ 10 available (fixed field)
IRQ 11 available (fixed field)
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The optional Digiboard card will not function properly unless the ISA shared
memory size and and shared mamory base address are set correctly.
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INTEL 486-66 Setup/Configuration Program
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Onboard diskette:
Enabled
Diskette A:
3.5" 1.44 MB
Diskette B:
Not Installed
Onboard IDE:
Enabled
(may vary)
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Hard Drive
1: Type 2 CYL HD PRE LZ SEC SIZE
723 13
0
0
51
234 (may vary)
2: Not Installed
User definable drives
2 & 3
Boot Device
Diskette or hard drive
Post memory test prompt
Disable
Post setup prompt
Disable
Scan flash user area
Disable
Speaker
Enable
On board mouse
Disable
Keyboard
[Installed]
Numlock on at boot
No
Password
Not installed
(Hit Page Down key for next page)
Base memory
[640Kb]
(may vary)
Extended Memory
[7168Kb]
(may vary)
Base memory above 512K
Enable
Parallel port
Address 378H:Output only
Serial Port1:
Address 3F8H
Serial Port2:
Address 2F8H
Video Type
[VGA/EGA]
Video Horizontal refresh
31.5 - 37.8 Hz
VGA mode refresh rate
60 Hz
On board BIOS mapping
To E0000H
(Hit Page Down key for next page)
CPU Speed
Fast
Cache
Memory only
Refresh mode
Synchronous
Shadow
disable all ranges)
.
.
Power save mode
None
Screen blank
Disabled
Hard drive spin down
Disabled
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Automatically tests various circuits every time you turn the computer on.
•
Allows you to select tests from the keyboard to check various functions of the computer
•
Lets you enter configuration data from the keyboard
•
Displays a color bar pattern used to adjust the video display
•
Selects a video/scroll mode required by your video monitor and video card
•
Contains a debugging routine for machine language programmers.
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Memory Size: 640 K
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&: Color bar
V: Set Video/Scroll
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Time and Date
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The number keys to type in the time and date
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The Enter key to lock in the selection
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The Backspace key to return to a position if you make a mistake.
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Zenith 486SX 25 MHz and 486DX 33 MHz Setup Procedures
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Throughout this manual, the designation Enter refers to the key that is
labelled Enter.
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Z 486 System Board
SYSTEM BOARD INTERNALVersion n.nn
Speed
Fast
Slow Speed Option
AT Compatible for 25 MHZ CPU
CACHE: QUEUE
Cache Options
Cache : ON
Queue : 0
BOOT DEVICE
Boot Device
Floppy, Then Hard Disk
SYSTEM VIDEO PARAMETERS
Default Video Type
Enhanced Graphics
Video Refresh Rate :
Slushing
60 Hz :
Non-Slushed
SYSTEM BOARD MEMORY
System Board Base Memory
Base:
System Board Extended Memory Extended:
640K
System Board EMS Memory
EMS:
3072K
224K
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NON-SYSTEM BOARD MEMORY
Non-Configurable Additional Base memory
Base: 0K
Non-Configurable Additional Extended memory
Base: 0K
SERIAL PORTS
Serial Port 1
COM1
Serial Port 2
COM2
PARALLEL PORT
LPT1
Cachability of Slushed ROMs
OEM and BIOS Enabled
IDE/Floppy Controller Board Mass Storage Device
IDE SUB-SYSTEM
IDE Controller
Enabled
IDE Drive 0
IDE Auto-Configure
IDE Drive 1
No Drive Present
FLOPPY SUBSYSTEM
Floppy Drive Controller
Enabled
Floppy Drive 0
3 1/2 1.44M Floppy Present
Floppy Drive 1
No Floppy Present
SCSI
Disable
*'&5
6\VWHP,QLWLDOL]DWLRQ
Z649 Video Adapter Board
Host IRQ
IRQ10
Host Ports
Ports 290-29F
Video Daughter Card
Installed
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Enter
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SUHVVEnter,I\RXZHUHVDWLVILHGZLWKDOOWKHVHOHFWLRQVDQGGLGQRWFKDQJHDQ\WKLQJH[LW
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Zenith 433Dh 33 MHz Setup Procedures
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7RFKDQJHVHWWLQJVKLJKOLJKWWKHVHWWLQJ\RXZLVKWRFKDQJHZLWKWKHFXUVRUDQGSUHVVEnter7KLVEULQJV\RXWRDVXEPHQX8VHWKHWDEDQGDUURZNH\VWRFKDQJHWKHVHOHFWLRQV
:KHQFKDQJHVDUHFRPSOHWHGSUHVV<Esc>(VFDSHNH\DQGWKHQF106HOHFWSave Configuration and reboot the PC
6HWWLQJV
System Board
V1.07 (may differ)
Speed
Fast
Cache
Cache On
Boot Device
Floppy then Hard Drive
System Board Video
Video Enabled
Video Settings
EGA/VGA:60HZ:Slushed
System Board Memory
8m => 640K + 7 (may differ)
*Hard Drive System
Controller Enabled
6XE0HQX
Controller
Drive 0
Drive 1
*Enabled
*Auto IDE
None
Floppy Drive System
Floppy Drive Controller Enabled
LAN System
Disabled
Windows Accelerator
Not Present
SCSI Port
SCSI Disabled
Serial Port
COM1
Parallel Port
LPT1
PS/2 Mouse
Disabled
Optional Serial Port*
Disabled
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Zenith 486DX-66MHz Z-Select 100 Setup Procedures
:KHQORDGLQJVRIWZDUHRQD=HQLWKEHDZDUHWKDWWKHVHFRPSXWHUVDUHHTXLSSHGZLWK,'(
,QWHOOLJHQW'ULYH(OHFWURQLFVKDUGGULYHV7KHGULYHVDUHORZOHYHOIRUPDWWHGDWWKHIDFWRU\E\
WKHPDQXIDFWXUHU
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DQGIODJJHGDWWKHIDFWRU\7RE\SDVVWKLVVWHSW\SHQ
*'&5
6\VWHP,QLWLDOL]DWLRQ
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CTRL-ALT-S
Standard System Parameters
System Time:
xx:xx:xx
Numlock on at boot?
System Date:
xx/xx/xx
[yes] *
Diskette A:
3.5" 1.44 Mb
Diskette B:
Not Installed
Hard Disk 1:
Auto-Type 1
Hard Disk 2:
Not Installed
Base Memory:
640K
Extended Memory:
7296K (may be different)
Video Type:
VGA/EGA
Keyboard:
Installed
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(Hit Page Down key for next page)
Advanced CMOS Setup
*1.
**2.
Serial Port 2/Modem Port[COM] [IRQ3]
Serial Port 1:
[COM1][IRQ4]
COM3/COM4 Base:
[3e8/2e8]
Parallel Port:
[LPT3]
[OUTPUT ONLY]
Hard Disk 1:
[Standard PIO]
Hard Disk 2:
[Standard PIO]
Floppy Controller:[Enabled]
IDE Controller:
[Enabled]
Password:
Not Installed
Power Management: IDE Power Down[Disabled]
Video Power Down [Disabled]
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Starting XENIX From the Boot Floppy Set
)ROORZWKHVWHSVEHORZUHPHPEHULQJWRSUHVVEnterDIWHU\RXW\SH\RXUUHVSRQVHVRQWKHNH\
ERDUG
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OHYHOIRUPDW%XW\RXPXVWQRWGRWKLVZLWKD=HQLWKRURUQHZHUPRGHOV6HHHDUOLHU
GHVFULSWLRQVIRUDQG7KHORZOHYHOIRUPDWPD\EHDFFRPSOLVKHGZLWK=HQLWK
V'26
35(3RUDQ\RWKHUFRPPHUFLDOO\DYDLODEOHORZOHYHOIRUPDWWLQJVRIWZDUH
If you are using an IBM PS/2, ensure that you have the correct version of SCO
XENIX for the PS/2 (SCO XENIX 386mc 2.3.4).
127(
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VLRQ1HZHUYHUVLRQVRIWKH9DOXH3RLQWPD\QRWQHHGWKLVVSHFLDO1GLVN,I\RXDUHQRWVXUH
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,QVHUWWKH%2271GLVNHWWHLQWRWKHWRSGULYH,I\RXKDYHPRUHWKDQRQHIORSS\GULYH
XVHWKHSULPDU\GULYHVRPHWLPHVFDOOHGWKHERRWGULYH&KHFN\RXUFRPSXWHUKDUGZDUH
PDQXDOLI\RXDUHQRWVXUHZKLFKGULYHLVWKHSULPDU\GULYH
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XENIX System V
Boot
:
3UHVVEnterWRERRWIURPWKHIORSS\GULYH
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During the loading procedure, using a 3.5 inch floppy drive and loading XENIX
version GT, you may be asked to install the disk labelled FILE SYSTEM. At that
time, remove the N1 disk and install the N2 disk.
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,IWKHOHWWHUVVWRSDSSHDULQJEHIRUHWKHOHWWHU=LVUHDFKHGUXQKDUGZDUHGLDJQRVWLFVDV
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LQVWDOODWLRQSURFHGXUHDJDLQIURPWKHEHJLQQLQJ,IWKHOHWWHUVVWRSDJDLQFDOOWKH6XSSRUW
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Keyboard Selection
1.
American
2.
British
3.
French
4.
German
5.
Italian
6.
Spanish
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XENIX System V Hard Disk Initialization
What type of disk controller will be supporting this disk?
1. Standard disk support (ST506, MFM, RLL, ESDI, IDE)
2. OMTI 8620 or OMTI 8627
3. SCSI
5HVSRQGWRWKLVTXHVWLRQE\SUHVVLQJRUDQGWKHEnterNH\0RVWDSSURYHG706
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$GGLWLRQDOO\\RXPXVWHQVXUHWKDWWKHLQWHUIDFHFDUGLVDQ$GDSWHUWKHRQO\6&6,
DGDSWHUVXSSRUWHGE\6&2;(1,;)RUVRPHQHZHUPDFKLQHVWKDWXVHD6&6,ERDUGIRU
LQFUHDVHGVSHHGWKLVLQWHUIDFHLVQRWUHFRJQL]HGE\6&2;(1,;<RXPXVWDOVRHQVXUH
WKDW\RXUKDUGGULYHGRHVQRWXVHPRUHWKDQF\OLQGHUV6&2;(1,;FDQQRWDGGUHVV
F\OLQGHUV !7RJHWDURXQGWKLVSUREOHP\RXPXVWDGMXVWWKHVHFWRUVKHDGV
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Preparing the Hard Disk
7KHIROORZLQJVWHSVGHVFULEHKRZWRLQLWLDOL]HWKHKDUGGLVN7KLVLQFOXGHVPDSSLQJEDGWUDFNV
EDGVSRWVRQWKHGLVNVRWKDWWKH\DUHDYRLGHGE\WKHRSHUDWLQJV\VWHPDQGFUHDWLQJRQHGLVNSDU
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During installation you may choose to overwrite all or part of the
present contents of your hard disk. Do you wish to continue? (y/n)
,I\RXZDQWWRVDYHDQ\ILOHVHQWHUQDQGSUHVVEnter,I\RXGRQRWKDYHDQ\ILOHV\RX
ZDQWWRVDYHHQWHU\DQGSUHVVEnter
If you have files on the hard disk that you wish to save, respond n and the
installation is aborted and the system shut down automatically. You should then
reboot the computer, back up any files you want to save, and restart the XENIX
installation procedure from the beginning.
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Hard Disk Drive 0 Configuration
1.
Display current disk parameters
2.
Modify current disk parameters
3.
Select default disk parameters
Enter an option or "q" to quit:
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(QWHULQJTDWWKLVSRLQWVHOHFWVWKHGHIDXOWSDUDPHWHUVIRU\RXUKDUGGLVN8QOHVV\RXNQRZ
WKDW\RXUGLVNLVQRQVWDQGDUGDVVXPHWKDWLWLVVWDQGDUGDQGHQWHUTWRFRQWLQXH\RXU
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Disk Parameters
Values
------------------------------------
*'&5
1.
Cylinders
value
2.
Heads
value
3.
Write Reduce
value
4.
Write Precomp
value
5.
Ecc
value
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6.
Control
value
7.
Landing Zone
value
8.
Sectors/track
value
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The "Cylinders" value refers to the number of cylinders on the entire hard disk
and should not be confused with the number of cylinders allocated (or intended
to be allocated) to a given partition.
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SURPSWHG
Enter a parameter to modify or q to return to the main menu:
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(QWHUWKHQHZYDOXHRUSUHVVEnterWRXVHWKHH[LVWLQJYDOXH
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Normal System Shutdown
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Safe to Power Off
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XENIX System V
Boot
Loading Informix Software
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xenix386! login:.
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Do you wish to use the next available user id ? (y/n/q):
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Do you wish to use the default group ? (y/n/q):
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sh Standard (Bourne) Shell
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INFORMIXDIR=/usr/informix
PATH=$PATH:$INFORMIXDIR/bin
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cd $INFORMIXDIR
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Informix serialization
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Before you begin these procedures, check the Caps Lock indicator on your
keyboard. If illuminated, press the Caps Lock key until the indicator turns off.
Do not attempt to log in to XENIX with the Caps Lock key set.
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XENIX System V
Boot
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Password:
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You may have to perform Steps 13 through 15 when a TMS software upgrade is
made (without reinstalling XENIX O.S.) or when a shutdown with the Autologin
feature disabled is performed. Otherwise, the system goes through the complete
Autologin function (automatically boots itself without operator interaction). After several minutes, the first screen appearing is the GDC logo screen. Follow
Steps 1 and 2 (on the next page) to continue.
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XENIX System V
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Installing INFORMIX in a Controller Containing a Previous Version
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Maintenance Console
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Refer to Appendix C of this manual for complete instructions on the use of the Maintenance Console.
Summary
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What's Next
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6 Redundant Controllers
Overview
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•
Prevent the flow of network management control from interruption because of the single
controller failure.
•
Lets you access the network from different node localities.
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Some performance degradation occurs as the number of subordinate
controllers increases.
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Controller and Network Configuration
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Name of each controller in the network.
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Name and address of the node to which each controller connects.
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Controller priority for each controller (Controller priority number defines the order in
which a subordinate controller can become the new master controller in the event of a
network separation).
•
Phone numbers used for dial backup functionality, if required.
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Modify on-line configuration data.
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Initiate a download.
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Modify off-line network configuration data.
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Examine configuration data (either on-line or off-line network).
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Examine status of controllers.
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Examine network status.
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Run diagnostics.
•
Use the mail facility to pass information between users at different controllers.
•
Initiate a mastership switchover if the user is a primary user.
Controlling/Propagating Data Base Changes
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Network Startup Procedure
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Ensure that the PC contains all of the obj files which are selected in the Software
Revision lists (Obj files are those software files that are held on the TMS-3000
cards). If this startup is for a new network, you must first select obj files for the
stored list and download it to the nodes in the network. After all nodes have received their obj files, activate the stored revision list.
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In a network with multiple redundant controllers, check for consistency between
controllers when the network is separated by a failure, then restored. You do this
by entering the Controller Status screen.
Mastership Switchover
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If a controller is configured as a Permanent Subordinate, it does not take over
the mastership of the network
Network Separation
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The selected master controller does not become a master of the network unless
it successfully seizes the local node connected to it.
Network Restoral
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Adding/Removing a Controller
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Changing a Network
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Upgrading Operating Software
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Support Utilities for Multiple Users
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Summary
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What's Next
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7 Maintenance
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Routine Maintenance
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•
Check alarm display on the Controller at least once a day to identify alarm conditions as
soon as possible. Leave the Controller in the alarm screen display mode when otherwise
inactive, so that newly reported alarms are observed immediately.
•
Observe front panel indicators for signs of equipment failures. When checking indicator
conditions, remember that green LEDs indicate normal operation when lit; red LEDs
indicate an alarm condition when lit.
•
Inspect cable connections for looseness, bent or missing pins, or damage to cable.
Corrective Maintenance
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Module Replacement
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GDC recommends periodically testing the "out of service" modules in a TMS3000 that utilizes redundant common modules. In a TMS-3000, not all
failures of the out-of-service module are detectable. Certain conditions may
prevail causing disruption of the network when that module is placed into
service.
Effects of Module Removal and Replacement
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Enterprise System Control Card
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Removing an ESCC in a non-redundant system, or the redundant pair of ESCCs
in a redundant system, stops all data traffic on the node and isolates the node
from the Controller.
Removing the in-service ESCC in a redundant system causes the node to reinitialize. As a result, all data and communications traffic is interrupted for approximately 2 to 5 minutes. Therefore, before removing the in-service ESCC,
use the Controller to switch it to the standby mode.
When replacing a defective ESCC with a spare, remember that software must
be downloaded from the Controller at the master site.
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Redundancy Control Card
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Aggregate Control Card
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CDA (Combined Digital Aggregate) Module
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Channel Interface Card
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Module Removal
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Module Installation
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Troubleshooting Procedures
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Front Panel Alarm Indicators
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Controller Reported Alarms and Status Displays
•
Data Path/Loopback Tests
•
Maintenance Console Diagnostics
•
Front Panel Test Points
Preliminary Checks
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Enterprise System Control Card
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Use this procedure for the in-service ESCC only. An out-of-service ESCC
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Aggregate Control Card
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Overview
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7DEOH
Pin No.
1
2
3
14
16
7DEOH
Pin No.
1
2
3
14
16
7DEOH
Pin No.
1
2
3
14
16
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Signal Name
Gnd
XMT DATA A
RCV DATA A
XMT DATA B
RCV DATA B
Description
Chassis Ground
The “A’’ side of the transmit data pair.
The “A’’ side of the receive data pair.
The “B’’ side of the transmit data pair.
The “B’’ side of the receive data pair.
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Signal Name
Gnd
XMT DATA A
RCV DATA A
XMT DATA B
RCV DATA B
Description
Chassis Ground
The “A’’ side of the transmit data pair.
The “A’’ side of the receive data pair.
The “B’’ side of the transmit data pair.
The “B’’ side of the receive data pair.
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Signal Name
Gnd
XMT DATA A
RCV DATA A
XMT DATA B
RCV DATA B
Description
Chassis Ground
The “A’’ side of the transmit data pair.
The “A’’ side of the receive data pair.
The “B’’ side of the transmit data pair.
The “B’’ side of the receive data pair.
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7DEOH
Pin No.
1
2
3
14
16
7DEOH
Pin No.
1
2
3
13
14
15
16
17
19
7DEOH
Pin No.
1
2
3
4
12
13
14
15
16
17
19
20
24
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Signal Name
Gnd
XMT DATA A
RCV DATA A
XMT DATA B
RCV DATA B
Description
Chassis Ground
The “A’’ side of the transmit data pair.
The “A’’ side of the receive data pair.
The “B’’ side of the transmit data pair.
The “B’’ side of the receive data pair.
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Signal Name
Gnd
XMT DATA A
RCV DATA A
RCV CLK B
XMT DATA B
XMT CLK A
RCV DATA B
RCV CLK A
XMT CLK B
Description
Chassis Ground
The “A’’ side of the transmit data pair.
The “A’’ side of the receive data pair.
Receive clock for B
The “B’’ side of the transmit data pair.
Transmit clock for A
The “B’’ side of the receive data pair.
Receive clock for A
Transmit clock for B
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Signal Name
Gnd
XMT DATA A
RCV DATA A
+V
EXT TIM B
RCV CLK B
XMT DATA B
XMT CLK A
RCV DATA B
RCV CLK A
XMT CLK B
+V
EXT TIM A
Description
Chassis Ground
The “A’’ side of the transmit data pair.
The “A’’ side of the receive data pair.
+5V
External transmit clock for B
The receive clock for B
The “B’’ side of the transmit data pair.
Transmit clock for A
The “B’’ side of the receive data pair.
The receive clock for A
The transmit clock for B
+5V
The external transmit clock for A
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7DEOH
Pin No.
1
2
3
4
12
13
14
15
16
17
19
20
24
7DEOH
Pin No.
1
2
3
4
7
15
17
20
24
25
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Signal Name
Gnd
XMT DATA A
RCV DATA A
+V
EXT TIM B
RCV CLK B
XMT DATA B
XMT CLK A
RCV DATA B
RCV CLK A
XMT CLK B
+V
EXT TIM A
Description
Chassis Ground
The “A’’ side of the transmit data pair.
The “A’’ side of the receive data pair.
+5V
External transmit clock for B
The receive clock for B
The “B’’ side of the transmit data pair.
Transmit clock for A
The “B’’ side of the receive data pair.
The receive clock for A
The transmit clock for B
+5V
The external transmit clock for A
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Signal Name
Gnd
XMT DATA
RCV DATA
+V
SIG Gnd
XMT CLK
RCV CLK
+V
EXT TIM
–V
Description
Chassis Ground
Transmit data
Receive data
+12V
Signal Ground
Transmit clock
Receive clock
+12V
External terminal timing
–12V
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7DEOH
Pin
No.
1
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Signal
Signal
Unbalanced
Balanced
(EIA/TIA-232-E/ (RS-422/ITU-T
RS-423)
V.35)
Chassis Ground
Chassis Ground
Signal
Balanced
(ITU-T G.703)
Chassis Ground
RS-422
Adapter
Chassis Ground
Signal
Unbalanced
V.54 Using
MM08
Chassis
Ground
Transmit Data
Receive Data
Request to
Send*
2
3
4
Transmit Data
Transmit Data "A" Transmit Data "A" Xmt Data A
Receive Data
Receive Data "A" Receive Data "A" Receive Data A
Request To Send* Request to Send* Request to Send* RTS A, RTS B
5
6
Clear To Send*
Ready Out*
(DSR)
Signal Ground
Clear To Send*
Ready Out*
(DSR)
Signal Ground
CTS A, CTS B
Rdy A, Rdy B
Test Mode*
7
Clear To Send*
Ready Out*
(DSR)
Signal Ground
Signal Gnd
Signal Ground
8
Carrier Detect*
Carrier Detect*
Carrier Detect*
10
15/
17**
20
Transmit/Receive
Clock
Ready In* (DTR)
Transmit/Receive
Clock "B"
External Transmit
Clock "B"
Transmit/Receive
Clock "A"
Ready In* (DTR)
Nonstandard control signal
11
Non-Standard
Control Signal*
Receive Ground
DCD A, DCD B Carrier Detect*
Xmt Data B
Remote Loopback
Xmt Clk B
22
Ring Indicator*
Transmit Data "B" Transmit Data "B" Xmt Data B
24
External Transmit
Clock
External Transmit
Clock "A"
XmT/Rx Clk A
Ready In* (DTR)
Rdy A, Rdy B
Xmt Clock A
25
Busy Out*
Receive Data “B’’ Receive Data “B’’ Receive Data B
* Control signals are unbalanced, at EIA/TIA-232-E voltage levels.
** Pins 15 and 17 are tied together on backplane.
Transmit/Receive Clock
Ready Out
(DTR)*
Local Loopback*
External
Transmit
Clock
X.21
(X.27)
Chassis
Ground
SD-A
RD-A
RTS-A
RTS-B
DCD-B
Signal
Ground
DCD-A
ST-B
TT-B
ST-A
SD-B
TT-A
RD-B
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Pin Number
Description
2
–BATT
3
M Lead
4
Receive Tip (RT)
5
Receive Ring (RR)
7
Signal Ground
8
Station Ground
10
Transmit Ring (TR)
11
E’ Lead
15
Station Battery
24
E Lead
25
Transmit Tip (TT)
The E’ lead is the same signal as the E lead, and provides no additional functions.
The CVSD card had a type C relay driving the E Lead and so both NC and NO
outputs were made available for customer use. The UVC connected the E and E’
together.
Station Ground (pin 8) is the SG lead which is paired with the E Lead.
Signal Ground is an internal mux ground, and so is not normally used for signalling due to the added noise which may then be injected.
7DEOH
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Pin Number
1
2
3
8
9
7DEOH
Description
Protected Ground
External Timing A (In)
External Timing B(In)
512 KHz Reference B (Out)
512 KHz Reference A (Out)
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Pin Number
Description
3
Tip
4
Ring
Note that the internal modem is available only on earlier versions of the RCC.
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7DEOH
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Pin Number
1
2
3
4
5
6
7
8
12
20
22
7DEOH
Description
Protected Ground
Send Data
(TD)
Receive Data
(RD)
Request to Send
(RTS)
Clear to Send
(CTS)
Data Set Ready
(DSR)
Ground
Data Carrier Detect
(DCD)
Speed Mode Indicate
(SPD IND)
Data Terminal Ready
(DTR)
Ring Indicator
(RI)
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Pin Number
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Function
Minor Alarm 2
Major Alarm 2
Spare
Spare
Major Alarm 2
Major Alarm 1
Minor Alarm 2
Minor Alarm 1
Major Alarm 1
Spare
Minor Alarm 1
Major Alarm 2
Major Alarm 1
Minor Alarm 2
Minor Alarm 1
Relay State
Common
(CO)
Common
(CO)
Deenergized
Deenergized
Deenergized
Deenergized
Common
(NO)
(NO)
(NO)
(NO)
(CO)
Common
Energized
Energized
Energized
Energized
(CO)
(NC)
(NC)
(NC)
(NC)
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7DEOH
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XAP1
Pin Number
2
3
4
5
Signal Name
+5V
TEST/
PCMDAT
RESET/
PCMCK
6
FRASYN
7
MULAW/
8
9
10
11
12
13
RX64KDATA
EHOUT
DISABLE
–12 V
SPARE
GND
7DEOH
Description
+5 V dc Supply
Disables the Echo Canceller during diagnostics
Near-end speech signal
Power-on reset pulse
Clock signals for RX64KDAT, PCMDAT,
ECHOUT
Byte timing for RX64KDATA, PCMDAT,
ECHOUT
Indicates Universal Voice Card “A’’ or “MULAW’’ Codec
Far-end speech signal
Echo Canceller output signal
External disable line
–12 V dc supply
Not used
Ground
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Pin Number
Signal Name
Description
1
Gnd
Chassis Ground
2
XMT DATA A
The “A" side of the transmit data pair
3
RCV DATA A
The “A" side of the receive data pair.
14
XMT DATA B
The “B" side of the transmit data pair.
16
RCV DATA B
The “B" side of the receive data pair.
These pins are used when the second CDA module is connected as a non-redundant pair in conjunction with the special Y cable.
18
RCV DATA B
The “B" side of the receive data pair.
4
XMT DATA A
The “A" side of the transmit data pair.
8
RCV DATA A
The “A" side of the receive data pair.
25
XMT DATA B
The “B" side of the transmit data pair.
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7DEOH
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PHQWV
Channel Card
Module Edge Connector
EIA Connector
P1 Pin Number
1
1
7
32
17
27
10
52
3
28
25
51
24
56
11
54
2
55
22
50
5
25
4
24
20
26
6
23
* From TID Channel to User
** From User to TID Channel
Signal Description
Chassis Ground
Ground
Receive Clock A*
Receive Clock B*
Receive Data A*
Receive Data B*
Transmit Clock A**
Transmit Clock B**
Transmit Data A**
Transmit Data B**
External Clock A
External Clock B
Test Signal
Test Signal
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7DEOH
Pin No.*
1
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Function
Chassis ground — Connects to system chassis ground through
Aggregate Control Card.
2
XMT DATA
Transmit data from Aggregate Control Card. Data changes on
falling edge of the Transmit Clock.
3
XMT CLK
Transmit Clock to Aggregate Control Card — N x 64 kHz.
4
RCV DATA
Receive data to Aggregate Control Card. Data is sampled on rising edge of RCV CLK.
5
RLB
Receive Remote Loopback. Causes a remote loopback condition
on the G.704 Aggregate Interface Piggyback card.
6
RCV CLK
Receive Clock to Aggregate Control Card — N x 64 kHz.
8
ROOS (L)
Indicates that the remote end is out of G.704 frame sync. Multiplexers is out of sync also. Signal low for ROOS.
9
SIG GND
Signal Ground
13
EXT TMG
External Transmit Input from TMS-3000 clock circuitry. 2.048
MHz code clock for transmit timing.
18
+5 V
Positive 5-volt dc supply.
19
SIG GND
Signal Ground.
20
LOOS (L)
Indicates that the local end is out of G.704 frame sync. Multiplexers is of sync also. Signal low for LOOS.
24
CDET
Carrier Detect output. Goes low when receive data is lost. High
indicates carrier is present.
31
RCLK
Receive 2.048 MHz clock for node clocking.
35
RCVDATA B
Balanced Receive Data B from one side of T1 line input.
Grounded by the UNB switch.
36
RCVDATA A
Balanced Receive Data A from one side of T1 line input.
38
XMTDATA A
Balanced Transmit Data A from one side of T1 line output.
39
XMTDATA B
Balanced Transmit Data B from one side of T1 line output.
40
PROT GND
Protective ground output from G.704 Aggregate Interface Piggyback to equipment cabinet.
* Pin numbers 7, 10-12, 14,-17 21-23, 25-30, 32-34, and 37 are not used.
Note that Connector XP2 on the G.704 Aggregate Interface Piggyback is used on a later version of the
Aggregate Control Card.
*'&5
Description
CHASSIS GND
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7DEOH
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Pin
Description
Signal Description
1
+5 V
Positive 5 volt input
3
SIG GND
Signal Ground
4
BD0
Microprocessor Data Bus 0
5
BD1
Microprocessor Data Bus 1
6
BD2
Microprocessor Data Bus 2
7
BD3
Microprocessor Data Bus 3
8
BD4
Microprocessor Data Bus 4
9
BD5
Microprocessor Data Bus 5
10
BD6
Microprocessor Data Bus 6
11
BD7
Microprocessor Data Bus 7
12
WRSTB
Write Strobe (when low condition is true)
13
RDSTB
Read Strobe (when low condition is true)
14
CSN
Board Select (when low condition is true)
15
BA0
Microprocessor Address Bus 0
16
BA1
Microprocessor Address Bus 1
17
BA2
Microprocessor Address Bus 2
18
BA3
Microprocessor Address Bus 3
Note that plesiochronous buffers introduce unwanted end-to-end delay on the aggregate link.
Keep their size to a minimum when configuring the system.
7DEOH
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Pin Number
1
2
3
14
16
Signal Name
Gnd
XMT DATA A
RCV DATA A
XMT DATA B
RCV DATA B
Description
Chassis Ground
The “A’’ side of the transmit data pair
The “A’’ side of the receive data pair.
The “B’’ side of the transmit data pair.
The “B’’ side of the receive data pair.
Summary
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DigiBoard DigiChannel PC/4E Installation
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:KHQ\RXDUHGRQHORJRXWWRWKH*'&WLWOHVFUHHQ
<RXUUHPRWHVHVVLRQLVNLOOHGDQGWKH706&RQWUROOHURQFHDJDLQJDLQVFRQWURO
Additional Printer Port Installation
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IRUPWKHIROORZLQJVWHSV
(QVXUHWKDWDOOMXPSHUVDUHUHPRYHGIURPKHDGHU-
2Q-SODFHDMXPSHURQWKHSLQVODEHOHG/37DQG
2Q-SODFHDMXPSHURQWKHSLQVODEHOHG/37,17DQG,54
5HPRYHWKHWKHVXSSOLHG'%FDEOHDQGEUDFNHWDVVHPEO\QRWXVHG
,QVWDOOWKH,2$7FDUGLQWKH&RQWUROOHU
7RXWLOL]HWKLVSRUWLQWKH&RQWUROOHU0DLQWHQDQFHVFUHHQVHOHFWConfigure Parallel Ports
DQGFRQILJXUHLP2
*'&5
B Technical Characteristics
Table B-1
7HFKQLFDO&KDUDFWHULVWLFV
Item
Multiplexing Technique
Multiplexing Efficiency
Microcell Backplane Internal
Data throughput
Channel Capacity
Aggregate Interfaces
Aggregate Capacity
Aggregate Rates
Environmental:
Operating Temperature*
Nonoperating
Humidity
Altitude
Operating
Nonoperating
6SHFLILFDWLRQV
Bit-interleaved, time division
Up to 99%, essentially unaffected by speed or mix of channels
Bit mode — 16.896 Mbps, Nibble mode — 45 Mbps, Packet mode — 270 Mbps
Up to 512 channels of voice or data per node
EIA/TIA-232-E/ITU-T V.28
ITU-T V.35
EIA RS-422 (ITU-T V.11), EIA RS-423 (ITU-T V.10), MIL-STD-188-114
T1/D4 1.544 Mbps
T1 1.544 Mbps (non AT&T)
ITU-T G.703 64 Kbps Codirectional
ITU-T G.703 64 Kbps Contradirectional
ITU-T G.703 256 Kbps
ITU-T G.703 2.048 Mbps
ITU-T G.704 2.048 Mbps
Fiber Optic 1.544 Mbps or 2.048 Mbps
Up to 8 redundant or 16 non-redundant aggregate trunks per node
From 2400 bps to 2.048 Mbps — see Table 1-2 for listing of all standard rates.
32°F to 124°F (0°C to 50°C) (for equipment mounted in EP-2T,EP-2M, and EP4
–4°F to 186°F (–40°C to +85°C)
95% relative humidity with no condensation
10,000 ft (3048 m)
40,000 ft (12,192 m)
(QWHUSULVH6\VWHP&RQWURO&DUG
Internal Clock Accuracy
25 ppm
Timing Specifications
Meets ATT Pub. 62411 specification — Stratum 4 Enhanced
Input/Output Ports
TMS Controller Port — sync at 19.2 Kbps, async up to 9600 bps
Maintenance Port (front and rear) async up to 9600 bps
External modem — async up to 4800 bps
* Derate operating temperature by 1°C/1000 ft above sea level.
*'&5
%7HFKQLFDO&KDUDFWHULVWLFV
Table B-1
7HFKQLFDO&KDUDFWHULVWLFV&RQW
Item
Framing method
Frame structure
CDA module compatibility
Cross connection
CDA channel capacity
CDA line rate
PLL Jitter Tolerance (Receiver)
Input/Output Ports
Pulse Density Requirements
Data\ Rates
Synchronous
Asynchronous
Isochronous, Anisochronous
Interfaces
Interface Signal Characteristics:
Interface
Data Rates (Modes 1-4)
Specifications
&'$0RGXOH
Bit oriented proprietary or Byte oriented (DS0)
D4 or ESF (CDA-T1), CEPT G.732 or G.704 (CDA-E1)
DACS (Digital Access Cross-connect), D4 Devices and TMS-3000 w/CDA
Meets DSX-12 interconnect specification
128 TMS-3000 channels (Non-redundant CDA pair)
256 TMS-3000 channels (Redundant CDA pair)
T1 — 1.544 Mbps
E1 — CEPT G.704 and G.732 — 2.048 Mbps
Meets ATT Pub. 62411 specification — Stratum 4 Enhanced
Two DS1 ports support up to 48 DS0 channels per CDA-T1 module.
Two DS1 ports support up to 32 DS0 channels per CDA-E1 module
(CEPT G.704, G.732)
B8ZS or Bit 7 stuffing (suppression)
'DWD,,,,,,98'&&KDQQHO
From 75 bps to 1.152 Mbps
From 0 to 19.2 Kbps
From 0 to 64 Kbps
See Table 1-1 in Chapter 1 for listing of all standard channel rates
EIA/TIA-232-E/ITU-T V.28/ITU-T V.28
ITU-T V.35
EIA RS-422 (ITU-T V.11), MIL-STD-188-114 Balanced (Data and Timing)
EIA RS-423 (ITU-T V.10), MIL-STD-188-114 Unbalanced (Data and Timing)
DTE (Data Terminal Equipment) or DCE (Data Communications Equipment)
may be chosen.
7,',,,'DWD&KDQQHO
Conforms to EIA RS-422 balanced differential interface for data and clock.
Special application specific interfaces supported through interface piggyback.
Channel rates, 1, 2, 2.4, 4, 4.8, 8, 9.6, 16, 32, 56, 64, 72, 96, 128, 192, 256, 512,
1024 Kbps*
Corresponding TDM Rates: 1.2, 2.4, 3.2, 4.8, 6.4, 9.6, 12, 19.2, 38.4, 72, 76.8,
100, 112, 153.6, 224, 228, 576, 1152 Kbps.
Any rate below pre-set maximum standard channel rates above**
Up to 25% maximum
Data Rates (Mode 5)
Input Distortion
(includes Clock/Data Skew
and Clock Asymmetry)
Output Distortion
Less than 2.5%
(includes Clock/Data Skew
* Other rates available. Consult GDC regarding availability of any specific desired rate not listed.
** For rates 2 Kbps and above, the lower limit is 850 Hz. For the 1 Kbps rate, the lower limit is 150 Hz.
*'&5
7HFKQLFDO&KDUDFWHULVWLFV%
Table B-1
7HFKQLFDO&KDUDFWHULVWLFV&RQW
Item
Input Rate Offset
Output Rate Accuracy
Output Clock Jitter
(Modes 1-3 and 5)
Output Clock Jitter
End-to-End Channel Delay
Acquisition Time
Transparency
Channel Capacity
Power Requirement
Temperature
Operating
Storage
Humidity
Altitude
Operating
Storage
Digital Interface
Impedance
Return Loss
Longitudinal Balance
Usable Bandwidth
Input Levels
Output Levels
Specifications
7,',,,'DWD&KDQQHO&RQW
Dependent on input rate and mode selected. From ±0.001% to ±2%
Dependent on input rate and mode selected. From ±0.001% to ±2%
Rate Dependent: From ±20 ns (±2%) bit-to-bit jitter at 1024 Kbps to ±0.03%
1 Kbps
±25 ms bit-to-bit jitter at 1024 to 512 Kbps. Less than ±0.75% at all other data
rates
With 384-bit output FIFO Buffer Delay Setting: 527 ±135 bits
With 96-bit output FIFO Buffer Delay Setting: 239 ±50 bits*
Maximum of 512 bits with no errors detected and 768 bits with detected errors
Transparent to any data pattern
Requires 2 contiguous channel card slots of a TDM Multiplexer shelf
+5 V at 3 A
0°C to 50°C (derate by 1°C/1000 ft above sea level)
–40°C to +85°C
Up to 95% without condensation
10,000 ft
40,000 ft
9RLFH,,&96'&KDQQHO
Synchronous
600 ohms resistive ±10%
15 dB minimum, 300 to 3400 Hz
60 dB minimum, 300 to 3300 Hz
300 to 3300 Hz (3 dB points)
–16 or 0 dBm at transmitter input, switch selectable.
–6.0 to +1.5 dB of compensation available in 0.5 dB steps.
0 or +7 dBm at receiver output, switch selectable.
–6.0 to +1.5 dB of compensation available in 0.5 dB steps.
Performance Levels at 32 Kbps
Idle Channel Noise
Cross Talk Loss
23 dBrnc0 maximum
60 dB minimum (0 dB Channel Gain)
48 dB minimum (23 dB Channel Gain)
Harmonic Distortion at 1004 Hz –25 dBm0 maximum
Intermodulation Distortion
2nd order –40 dBm0 max.
3rd order –36 dBm0 max.
* For input rate tracking mode 1, the output FIFO settles to almost full (27-bit delay for 96-bit tap) and buffer excursion is limited to ±10 bits.
*'&5
%7HFKQLFDO&KDUDFWHULVWLFV
7HFKQLFDO&KDUDFWHULVWLFV&RQW
Table B-1
Item
Dynamic Range
Level Stability
Channel Gain at 1004 Hz
Signal to Quantizing
Noise (1004 Hz Test Tone)
At –39 dBm0 Signal Level
At –27 dBm0 Signal Level
At –18 to +3 dBm0 Signal
Level
Frequency Response,
400 to 3200 Hz
Envelope Delay
300 to 500 Hz
500 to 2400 Hz
800 to 2400 Hz
2400 to 2900 Hz
2900 to 3400 Hz
E and M signaling states
E-lead relay
M-lead detector
M-lead input impedance
M-lead sensitivity
E-Lead Relay Contact Ratings
Maximum Current
Maximum Voltage
Minimum Resistance
4-Wire Interface:
Impedance
Return Loss
Longitudinal Balance
Usable Bandwidth
Nominal Input Levels:
Nominal Output Levels:
Specifications
9RLFH,,&96'&KDQQHO&RQW
+3 to –50 dBm0
±0.25 dB
0 ±0.5 dB or 23 ±0.5 dB (Nominal gain ± Trim)
19 dB S/N
25 dB S/N
26 dB S/N
–1.5 dB to +1 dB (Relative to 1004 Hz)
700 µs
300 µs
100 µs
300 µs
700 µs
Open = idle, Closed = busy
Compatible with Types 1-5 signaling interface
10 kilohms minimum, diode-protected
1 mA maximum
0.25 A
100 volts*
100 milliohms
9RLFH,,$63&KDQQHO0RGXOH
600 ohms resistive ±10%
20 dB minimum, 300 to 3400 Hz
56 dB minimum, 300 to 3400 Hz
300 to 3400 Hz (ASP Mode)
300 to 3400 Hz (PCM Mode)
–16 dBm or 0 dBm (switch selectable)
–6.0 to +1.5 dB of compensation available in 0.5 dB steps (switch selectable)
0 dBm or +7 dBm (switch selectable)
–6.0 to +1.5 dB of compensation available in 0.5 dB steps (selected through supervisory port interface)
*This is an operating parameter, not a transient parameter.
*'&5
7HFKQLFDO&KDUDFWHULVWLFV%
Table B-1
7HFKQLFDO&KDUDFWHULVWLFV&RQW
9RLFH,,$63&KDQQHO0RGXOH&RQW
Voice Channel Performance
(PCM mode):
Signal-to-total distortion ratio as
function of input level (noise)
–3 dBm0
–6 to –27 dBm0
–34 dBm0
–40 dBm0
–55 dBm0
Signal-to-total distortion ratio as
function of input level (sine
wave)
0 to –30 dBm0
–40 dBm0
–45 dBm0
Idle Channel Noise
Cross Talk Loss
Intermodulation
Level Stability
Frequency Response
300 to 3000 Hz
3000 to 3400 Hz
Channel Gain at 800 Hz
Cross Talk Loss
Envelope Delay
Envelope Delay Distortion
500 to 600 Hz
600 to 100 Hz
1000 to 2600 Hz
2600 to 2800 Hz
Voice Channel Performance
(ASP Mode):
Signal-to-Total Distortion
Ratio (Sine wave input 700 to
1100 Hz)
Idle Channel Noise
Cross Talk Loss
26.3 dB
33.9 dB
32.2 dB
27.6 dB
12.6 dB
33 dB
27 dB
22 dB
–67 dBm0p (ITU-T Weighted)
23 dBrnc0 (C-Message Weighted)
–65 dB minimum (1.5 dB channel gain)
35 dB maximum
10 minutes ±0.2 dB
1 year ±0.5 dB
0 dB ±0.5 dB
0 dB –1.8 dB +0.5 dB
±0.3 dB from nominal
–65 dB minimum (1.5 dB channel gain)
The absolute envelope delay at the frequency of minimum envelope delay is less
than 600 microseconds. The minimum value is taken as reference for the envelope delay distortion.
1.5 ms
0.75 ms
0.25 ms
1.5 ms
>20 dB at –40 dBm0 Input
>25 dB from –30 dBm0 to 0 dBm0 Input
–67 dBm0P (ITU-T Weighted), 23 dBrnC0 (C-Message Weighted)
–65 dB minimum (0 dB channel gain)
*'&5
%7HFKQLFDO&KDUDFWHULVWLFV
Table B-1
7HFKQLFDO&KDUDFWHULVWLFV&RQW
Item
Variation of Gain with Input
Level (802 Hz ref.)
Level Stability
Frequency Response
300 Hz to 2400 Hz
2400 Hz to 3400 Hz
Channel Gain at 800 Hz
Output Power Spectral Density
5 kHz to 9 kHz
10 kHz
50 kHz to 500 kHz
Power Requirements:
Specifications
9RLFH,,$63&KDQQHO0RGXOH&RQW
±0.5 dB from –40 dBm0 to +2.5 dBm0 relative to level at –10 dBm0
10 minutes: ±0.2 dB
1 year: ±0.5 dB
0 dB ±0.5 dB
0 dB –1.8 dB, +0.5 dB
±0.3 dB from nominal
–40 dBm
–42.5 dBm
–70 dBm
+5 V dc ±5% 230 mA max.
+12 V dc ±10% 10 mA max.
–12 V dc ±10% 30 mA max.
8QLYHUVDO9RLFH&DUG
Interface Characteristics:
Impedance
600 ohms resistive ±10%
Return Loss
20 dB minimum (300 to 3400 Hz)
Longitudinal Balance
56 dB minimum (300 to 3400 Hz)
Usable Bandwidth
300 to 3400 Hz
Signal to Total distortion Ratio:
PCM Voice Channel and all PCM-T mode options (noise signal in accordance with ITU-T 0.131)
Input level
–3 dB
>26.3 dB
–6 dB
>33.9 dB
–34 dB
>32.2 dB
–40 dB
>27.6 dB
–55 dB
12.6 dB
ADPCM Voice Channel
Input level
–3 dB
27 dB
–6 dB
34 dB
–34 dB
32 dB
–40 dB
28 dB
–55 dB
13 dB
PCM Voice Channel
±3 dB at –50 to –55 dBm0 relative to channel level at –10 dBm
Unspecified at less than –55 dBm0.
ADPCM Voice Channel
±3 dB at –50 to –55 dBm0 relative to channel level at –10 dBm
*'&5
7HFKQLFDO&KDUDFWHULVWLFV%
Table B-1
7HFKQLFDO&KDUDFWHULVWLFV&RQW
Item
Level Stability
Frequency Response:
300 Hz to 3000 Hz
3000 Hz to 3400 Hz
Channel Gain at 800 Hz
Power Requirements:
PCM
ADPCM
Power Requirements:
Using TMS32030 Digital
Signal Processor
Using TMS320C25 Digital
Signal Processor
Power Consumption:
Using TMS-3000 32020
Digital Signal Processor
Using TMS320C25 Digital
Signal Processor
Domestic Unit
(USA, Canada, Japan)
Non-Domestic Unit
(Europe)
Non-Domestic Unit
(United Kingdom)
Frequency
Output Voltage and Current
3 MOPS non-redundant
4 MOPS redundant
Remote Alarm Relay Contact
Rating
Power Consumption:
CDA-T1 Module
CDA-E1 Module (with G.732
I/O Plug-In Card)
Specifications
8QLYHUVDO9RLFH&DUG&RQW
10 minutes: ±0.2 dB
0 dB ±0.5 dB
0 dB +1.8 dB, –0.5 dB
±0.3 dB from nominal
+5 V dc, 83 mA max.
+12 V dc, 8 mA max.
–12 V dc, 20 mA max.
+5 V dc, 107 mA max.
+12 V dc, 8 mA max.
–12 V dc, 20 mA max.
(FKR&DQFHOOHU&DUG
+5 V dc ±5%, 330 mA, typical
–12 V dc ±10%, 1.2 mA, typical
+5 V dc ±5%, 100 mA, typical
–12 V dc ±10%, 1.2 mA, typical
1.6 Watts
0.5 Watts
7063RZHU5HTXLUHPHQWV
Input Voltage Range: 85-129 V ac
Fuses: 8 Amp 3AG
Input Voltage Range: 175-242 V ac
Fuses: 5 Amp 5x20 mm
Input Voltage Range: 204-264 V ac
Fuses: 5 Amp 5x20 mm
50/60 Hz
+5.1 V +3.0%, –2.5% at 8 to 105 amps
+12 V ±10% at 0.25 to 12 amps
–12 V ±10% at 0.25 to 12 amps
Maximum Current: 0.25 amp
Maximum: 28.75 Watts [5.75 amps (+5 V dc) (±12 V dc)]
Maximum: 27.0 watts [5.4 amps (+5 V dc) (0.2 amps ±12 V ac)]
*'&5
%7HFKQLFDO&KDUDFWHULVWLFV
Table B-1
7HFKQLFDO&KDUDFWHULVWLFV&RQW
Item
Channel Interface Card
Enterprise System Control Card
Redundancy Control Card
Specifications
7063RZHU5HTXLUHPHQWV&RQW
Maximum: 9.2 Watts [1.83 amps (+5 V dc) (±12 V dc)]
0D[LPXP:DWWV>DPSV9GFDPSV¤9GF@
Maximum: 4.1 Watts [0.55 amps (+5 V dc), 0.10 amp (+12 V dc),
0.01 amp (–12 V dc)]
ACM Module
Maximum: 20.0 watts [4.0 amps (+5 V dc) (0.5 amps ±12 V ac)]
TPP-LAN
Maximum 75 Watts [15 amps (+5 Vdc)]
TPP-FR
Maximum 50 Watts [10 amps (+5 Vdc)]
Aggregate Control Card
Maximum: 18.5 Watts [3.6 amps (+5 V dc), 0.10 amp (+12 V dc)]
Harness Card
Maximum: 2.8 Watts [557 milliamps (+5 V dc) (+12 V dc)]
EIA/TIA-232-E Aggregate Inter- 0.5 Watts
face Plug-In
V.35 Aggregate Interface Plug- 1.2 Watts
In
RS-422/423 Aggregate Inter0.7 Watts
face Plug-In
WECO 303 Aggregate Inter1.5 Watts
face Plug-In
G.703 64 Kbps Codirectional
1.0 Watts
Aggregate Interface Plug-In
G.703 64 Kbps Contradirectional 0.4 Watts
Aggregate Interface Plug-In
G.703 2.048 Mbps Aggregate In- 2.0 Watts
terface Plug-In (75-ohm)
G.703 2.048 Mbps Aggregate In- 1.9 Watts
terface Plug-In (120-ohm)
G.704 2.048 Mbps Aggregate In- 1.5 Watts
terface Plug-In (75/120 ohm)
Expansion
0.2 Watts
Data II/III/IV Channel:
EIA/TIA-232-E Interface
1.9 Watts
RS-422 Interface
1.8 Watts
RS-423 Interface
1.7 Watts
V.35 Interface
1.7 Watts
Voice II/PCM Channel
1.4 Watts
0.42 Watts
ADPCM Plug-In
2.1 Watts
Voice II/CVSD Channel
1.9 Watts
Voice II/ASP Channel
1.6 Watts
*'&5
7HFKQLFDO&KDUDFWHULVWLFV%
Table B-1
Item
7HFKQLFDO&KDUDFWHULVWLFV&RQW
Specifications
7063RZHU5HTXLUHPHQWV&RQW
0.69 Watts
Universal Voice Card PCM
Voice
Universal Voice Card ADPCM 0.81 Watts
Voice
Maximum Power Consumption 350 Watts
for TMS-3000 node with 96 local
data channels, 4 redundant Channel Interface Cards, 4 redundant
Aggregate Control Cards, redundant ESCCs, and 1 Redundancy
Control Card
$'3&0&RPSUHVVLRQ0RGXOH$&0
Framing method
Bit oriented proprietary to Byte oriented (DS0)
Frame structure
D4, T1/D4E, CEPT G.732
ACM Port Capability
DPBX, DACS Network or D4 devices
ACM module compatibility
Full TMS-3000 compatibility
ACM channel capacity
Up to 24 voice circuits compressed via GDC ADPCM compression techniques
across a single DS1 line.
Up to 30 voice circuits (E1 only) compressed via GDC ADPCM compression
techniques across a single DS1 line.
ACM line rate
T1 DS1 — 1.544 Mbps
ACM/E1 (G.704 and G.732) — 2.048 Mbps
PLL Jitter Tolerance
Meets ATT Pub. 62411 specification
ADPCM voice rates
64, 32, 24 and 16 Kbps
Input/Output Ports
One DS1 port supports up to 34 DS0 channels per ACM/T1
One DS1 port supports up to 30 DS0 channels (CEPT G.732) per ACM/E1
Signaling Types
Network
Robbed Bit,
G.704 CAS Channel 16
Message Oriented Common Channel Signaling (CCS)
In Band Signaling (SF, Tone type)
Channel
No ABCD Signaling (Inband or CCS)
2-State Signaling (A or E/M (ACM or UVC))
4-State Signaling (A,B to ACM)
16-State Signaling (A,B,C,D to ACM only)
Signaling Conditioning Types
A0+B0 (On-Hook)
A0+B1 (On-Hook, No ringing for FXS Loop Start and FX0 Ground Start)
A0/1+B0/1 (On-Hook, then Off-Hook)
A1/0/1+B1/0/1 (Off Hook, then Hook Flash)
A1+B1 (Off-Hook or Disconnect/Blocked (ITU-T)
A1/0+B1 (Off-Hook, then On-Hook, No ringing for FXS Ground Start)
*'&5
C TMS-3000 Maintenance Console
Overview
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127(
Some of the TMS common cards (ESCC, ACM, CDA, TPP and OPP) have a
front monitor port for connecting the Maintenance Console. The cable
required for this connection is GDC 024H140.
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Pin No.
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Symbol
TXD
RXD
Sig GND
Direction
Out
In
—
Description
Transmit Data
Receive Data
Signal Ground
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Terminal Type and keyboard Operation
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Rate
$JJUHJDWH&KDQQHO5DWH&RGH'LJLWV
Number to Enter
Usage
0
62t
75
1
CDA
Channel
100
2
Channel
150
3
Channel
200
4
Channel
300
5
Channel
400
6
Channel
600
7
Channel
800
8
Channel
900
9
Channel
1000
10
Channel
1200
11
Channel
1600
12
Channel
1800
13
Channel
2000
14
Channel
2400
15
Channel
3200
16
Channel
3600
17
Channel
4000
18
Channel
4800
19
Aggregate/Channel
6400
20
Aggregate/Channel
7200
21
Aggregate/Channel
8000
22
Aggregate/Channel
9600
23
Aggregate/Channel
12000
24
Aggregate/Channel
14000
25
Aggregate/Channel
14400
26
Aggregate/Channel
16000
27
Aggregate/Channel
19200
28
Aggregate/Channel
24000
29
Aggregate/Channel
25000
30
Aggregate/Channel
28000
31
Aggregate/Channel
28800
32
Aggregate/Channel
32000
33
Aggregate/Channel
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rates 240-249 on the maintenance console VEQ or VCH
screens.
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Table C-2
Rate
36000
38400
48000
50000
56000
57600
64000
72000
76800
96000
100000
112000
115200
128000
144000
153000
192000
224000
230400
256000
288000
384000
460800
512000
576000
768000
1024000
1152000
1536000
(T1/D4)
1544000
2048000
66000
34000
&
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Number to Enter
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
Usage
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate
63
64
65
66
Aggregate
Aggregate
Channel — PCM
Channel — ADPCM
64800
67
Channel — PCM
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VCH screens.
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Table C-2
Rate
1056000
2112000
3168000
4224000
5280000
6336000
7392000
3152000
6312000
921600
896000
448000
307200
2034000
8448000
394000
1344000
1472000*
1528000*
1536000
(422)
10400
32800
$JJUHJDWH&KDQQHO5DWH&RGH'LJLWV&RQW
Number to Enter
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
Usage
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Not Used
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Aggregate/Channel
Not Used
Not Used
Channel
Aggregate
Aggregate
Aggregate
Aggregate
88
89
Tor Channel Rate
ADPCM2 Channel
Rate
Channel
Channel
Channel
Aggregate
Channel
Aggregate
50
90
39000
91
40800
92
168000
93
338000
94
1536000
95
(NTT)
8800
96
Tor Channel Rate
10000
97
ASP Channel Rate
11000
98
ASP Channel Rate
12000
99
ASP Channel Rate
*T1/D4-E only.
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VCH screens.
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Table C-2 $JJUHJDWH&KDQQHO5DWH&RGH'LJLWV&RQW
Rate
Number to Enter
Usage
12800
100
ASP Channel Rate
15000
101
ASP Channel Rate
16800
102
ASP Channel Rate
32800
103
ADPCM Channel Rate
24800
104
ADPCM Channel Rate
32800
105
ADPCM Channel Rate
32800
106
ADPCM Channel Rate
320K
107
Aggregate/Channel
640K
108
Aggregate/Channel
704K
109
Aggregate/Channel
832K
110
Aggregate/Channel
960K
111
Aggregate/Channel
1.088M
112
Aggregate/Channel
1.216M
113
Aggregate/Channel
1.280M
114
Aggregate/Channel
1.408M
115
Aggregate/Channel
1.600M
116
Aggregate/Channel
1.664M
117
Aggregate/Channel
1.728M
118
Aggregate/Channel
1.792M
119
Aggregate/Channel
1.856M
120
Aggregate/Channel
1.920M
121
Aggregate/Channel
1.984M
122
Aggregate/Channel
280K
124
Aggregate/Channel
336K
125
Aggregate/Channel
504K
126
Aggregate/Channel
560K
127
Aggregate/Channel
616K
128
Aggregate/Channel
672K
129
Aggregate/Channel
728K
130
Aggregate/Channel
784K
131
Aggregate/Channel
840K
132
Aggregate/Channel
952K
133
Aggregate/Channel
1.008M
134
Aggregate/Channel
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240-249 on the maintenance console VEQ or VCH screens.
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Table C-2
$JJUHJDWH&KDQQHO5DWH&RGH'LJLWV&RQW
Rate
Number to Enter
Usage
1.064M
135
Aggregate/Channel
1.120M
136
Aggregate/Channel
1.176M
137
Aggregate/Channel
1.232M
138
Aggregate/Channel
1.288M
139
Aggregate/Channel
392K
140
Aggregate/Channel
328K
141
Aggregate/Channel
25
123
Not Used
7.600M
142
Not Used
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240-249 on the maintenance console VEQ or VCH screens.
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Port
Rate
Data-Type
Parity
Timing/Modem
Data Bits
J20
4800
Async
Even
8
J42
1200
Async
Even
8
J19
Auto
Async
Even
7
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MNT - Set or Reset Maintenance Mode
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PXVWVHWPDLQWHQDQFHPRGHWRRQEHIRUHWKHFRQVROHVRIWZDUHDOORZVGLDJQRVWLFV'XULQJPDLQ
WHQDQFHPRGHQRDODUPPHVVDJHVDUHVHQWWRWKHQHWZRUNFRQWUROOHU$IWHU\RXVHOHFW017\RX
VHH
Current Mode: Normal
Change? (Y/N)
%\HQWHULQJ<IRU\HVWKHFXUUHQWPRGHFKDQJHVWR0DLQW,I\RXVHOHFW017DJDLQ\RXVHH
Current Mode: Maint
Change? (Y/N)
%\HQWHULQJ<IRU\HVWKHFXUUHQWPRGHUHWXUQVWR1RUPDO
DIA - To Perform Diagnostics
7KLVFRPPDQGLVXVHGWRLQLWLDWH'LDJQRVWLFWHVWVRQO\DIWHUWKH017FRPPDQGLVXVHGWRFKDQJH
WKHFRQVROHWRPDLQWHQDQFHPRGH0DLQW
127(
From the Maintenance Console, diagnostics may only be performed on the
Aggregate Control Card (ACC) and the Channel Interface Card (CIC).
$IWHUVHOHFWLQJ',$\RXVHH
1 = Equipment
2 = Channel
6HOHFWRUDQGSUHVV<Return>,I\RXVHOHFW(TXLSPHQWWKHIROORZLQJSURPSWVDUHGLV
SOD\HGLQVXFFHVVLYHRUGHU<RXPXVWUHVSRQGWRHDFKRIWKHVHSURPSWV
Slot #? (1-16) [(1-5) for MEGAMUX TMS Compact]
Lcl or Rem Lpbk, Stop Test? (L/R/S)
,IWKHWHVWLVEHLQJSHUIRUPHGVXFFHVVIXOO\WKHVFUHHQGLVSOD\VDQ2.,IWKHFRQVROHRXWSXWVDQ
HUURUFRGHLQVWHDGORRNXSWKHPHDQLQJRIWKHHUURUFRGHLQ7DEOH&7KHSURPSW
Lcl or Rem Lpbk, Stop Test? (L/R/S)
FRQWLQXDOO\UHSHDWVXQWLO\RXSUHVVWKH&21752/NH\DQGWKHOHWWHU;WRH[LWWKLVGLDJQRVWLFWHVW
7KH!RUVODYH!SURPSWWKHQUHDSSHDUV
,I\RXVHOHFW&KDQQHOWKHIROORZLQJSURPSWVDUHGLVSOD\HGLQVXFFHVVLYHRUGHU<RXPXVWUH
VSRQGWRHDFKRIWKHVHSURPSWV
Slot #? (1-16) [(1-5) for MEGAMUX TMS Compact]
Lcl or Rem Lpbk, Stop Test, Monitor BERT (L/R/S/M)
BERT? (Y/N)
,IWKHWHVW\RXLQLWLDWHGLVEHLQJSHUIRUPHGVXFFHVVIXOO\WKHVFUHHQGLVSOD\VDQ2.,IWKHFRQ
VROHRXWSXWVDQHUURUFRGHLQVWHDGORRNXSWKHPHDQLQJRIWKHHUURUFRGHLQ7DEOH&7KHSURPSW
Lcl or Rem Lpbk, Stop Test, Monitor BERT? (L/R/S/M)
*'&5
7060DLQWHQDQFH&RQVROH
&
FRQWLQXDOO\UHSUHDWVXQWLO\RXSUHVV&75/;WRH[LWWKLVGLDJQRVWLFWHVW7KH!RUVODYH!
SURPSWWKHQUHDSSHDUV
7KLVIHDWXUHLVSDUWLFXODUO\XVHIXOIRUPRQLWRULQJDFFXPXODWHGWHVWSDWWHUQHUURUV
7\SLQJ6DWWKH/56RU/560SURPSWVWHUPLQDWHVWKHWHVW
Table C-3
'LDJQRVWLF(UURU&RGHV
Code
Meaning
01
02
03
04
05
Channel Test Fail
Controller Test Fail — Hardware
Controller Test Fail — Aggregate Control or Channel Interface Not Responding or Not In Slot
Channel Not In Slot and/or Not Configured
Channel Tests Already in Progress
MFP - Modify I/O Port Configuration
7KLVFRPPDQGLVXVHGWRVHWWKHFRQILJXUDWLRQIRUWKH706&RQWUROOHU3RUW-RQWKH0DLQ6KHOI
EDFNSODQHRIWKH706QRGHWKH,QWHUQDO([WHUQDO0RGHP3RUW-DQGLQWKHIXWXUH-$IWHU
\RXVHOHFW0)3\RXVHH
Modify Port:
0 - J20
1 - J42
2 - J19
Enter #
0RGLI\3RUW,2&RQILJXUDWLRQIRU-¥6HOHFWDQGSUHVV5(7851
<RXVHH
0-Sync
1-Async
Enter Serial I/F Type
)RUV\QFVHOHFWDQGSUHVV<Return><RXVHH
Enter Data Rate (Ref: User Manual for Max allowed)
Enter #
$IWHUHQWHULQJDUDWHDWWKHSURPSW\RXVHH
0 - J20 set to loop timing
1 - Ext device in loop timing
2 - Normal timing
$IWHUPDNLQJ\RXUFKRLFH\RXDUHUHWXUQHGWRWKHVODYH!SURPSW
*'&5
&7060DLQWHQDQFH&RQVROH
)RU$V\QFVHOHFWDQGSUHVV<Return><RXVHH
0-Deconfigure for communications
1-300
2-1.2k
3-2.4k
4-4.8k
5-9.6k
6-19.2k (Entry not valid for J19)
6HOHFWFKRLFHIRUUDWHDQGSUHVV<Return><RXVHH
0-8 bits no parity
1-8 bits even parity
2-8 bits odd parity
3-7 bits even parity
4-7 bits odd parity
(QWHU
6ODYH!
0RGLI\3RUW,2&RQILJXUDWLRQIRU-¥$IWHU\RXVHOHFW0)3\RXVHH
Modify Port:
0 - J20
1 - J42
2 - J19
Enter:
6HOHFWDQGSUHVV5(7851
<RXVHH
0-Passthru
1-Int Modem
2-Ext Modem - Pulse Dial
3-Ext Modem - Tone Dial
,I\RXVHOHFWRUDQGSUHVV<Return>%\VHOHFWLQJWKHLQWHUQDOPRGHPEDXGUDWHLV
DXWRPDWLFDOO\VHWWR<RXVHH
0-Deconfigure for communications
1-300
2-1.2k
3-2.4k
4-4.8k
5-9.6k
6-19.2k (Entry not valid for J19)
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7060DLQWHQDQFH&RQVROH
&
0DNHVHOHFWLRQDQGSUHVV<Return><RXVHH
0-8 bits no parity
1-8 bits even parity
2-8 bits odd parity
3-7 bits even parity
4-7 bits odd parity
(QWHU
$IWHUVHOHFWLQJWKHSDULW\DQGELWV\RXDUHVHQWWRWKH6ODYH!¨¨SURPSW
0RGLI\3RUW,2&RQILJXUDWLRQIRU-LVFXUUHQWO\QRWDOORZHGEXWPD\EHDYDLODEOHLQDIX
WXUHUHOHDVH
7RGHFRQILJXUH3RUW-VHOHFW$V\QFDQGHQWHUIRUWKHUDWH7RGHFRQILJXUHWKH3RUW-
VHOHFWHLWKHU3DVVWKUXRU([W0RGHPDQGHQWHUIRUWKHUDWH<RXDUHWKHQUHWXUQHGWRWKH
6ODYH!SURPSW
CFM - Configure the External Modem
7KLVFRPPDQGLVXVHGWRFRQILJXUHDQH[WHUQDOGLDOEDFNPRGHPRQ3RUW-$IWHU\RXVHOHFW
&)0WKHFXUUHQWFRQILJXUDWLRQIRU-LVFKHFNHG,I3RUW-LVQRWFRQILJXUHGDVDQH[WHUQDO
GLDOEDFNPRGHPWKHPHVVDJH1RW&IJ
GIRU([W0RGHPLVGLVSOD\HG
7KHH[WHUQDOPRGHPLVWKHQFKHFNHGWRPDNHVXUHLWLVFXUUHQWO\RQOLQH,ILWLVRQOLQHWKHPHV
VDJH2Q/LQHLVGLVSOD\HGDQGWKHPRGHPLVQRWDOORZHGWREHFRQILJXUHGXQWLOWKHFXUUHQWFDOO
LVWHUPLQDWHG
7KHFRQVROH,2LVWKHQLQWHUQDOO\URXWHGWRWKHH[WHUQDOPRGHPDQGWKHPRGHP©VKHOSPHQXLV
GLVSOD\HGRQWKHVFUHHQ3OHDVHUHIHUWRWKHDSSURSULDWHPRGHPPDQXDOIRUDGHWDLOHGGHVFULSWLRQ
RIWKHPRGHPFRPPDQGV
7RWHUPLQDWHWKHPRGHPFRQILJXUDWLRQVHVVLRQSUHVV&75/;
AGR - Set Aggregate Parameters
7KLVFRPPDQGLVXVHGWRVHWPLQLPXPDJJUHJDWHFRQILJXUDWLRQGDWDDQGIRUFHWKHDJJUHJDWHVWR
UXQV\QFIUDPHV8VHWKLVFRPPDQGZKHQDQRGHKDVQRFRQILJXUDWLRQRUDEDGFRQILJXUDWLRQ,Q
WKHVHFDVHVVRPHRIWKH$JJUHJDWH&RQWURO0RGXOHVDWWKHORFDOQRGHDUHRXWRIV\QFZLWKWKRVH
DWUHPRWHQRGHV1RFRPPXQLFDWLRQVFDQEHHVWDEOLVKHGEHWZHHQWKHVHQRGHV:KHQWKH$*5
FRPPDQGLVXVHGWKH706&RQWUROOHUFDQWKHQGRZQORDGDPRUHFRPSOHWHFRQILJXUDWLRQ$IWHU
\RXW\SH$*5DQGSUHVV<Return>\RXVHHWKHIROORZLQJSURPSWVLQVXFFHVVLYHRUGHU
Slot #? (1-16) [(1-5) for MEGAMUX TMS Compact]
Agg Rate? (1 - 255)
Tx Clk Source? (I/E)
Ext Clk Source? (A/R)
T1/D4 or NTT? (Y/N)
Red. Agg? (Y/N)
1’s density? (Y/N)
*'&5
&7060DLQWHQDQFH&RQVROH
127(
You should only select Slot 1 or Slot 3 (the Aggregate Interface Cards) for the
TMS Compact node. Selecting other Slots (2, 4, or 5) can cause the
configurations for these slots to be corrupted.
,I\RXQHHGWRNQRZWKHFXUUHQWO\UXQQLQJQRGHFRQILJXUDWLRQEHIRUHXVLQJWKH$*5FRPPDQG
W\SH9(4DQGSUHVV<Return>7KHFXUUHQWQRGHFRQILJXUDWLRQLVGLVSOD\HG2QFH\RXNQRZWKH
FRQILJXUDWLRQ\RXZDQWWRVHWXSLQSXWHDFKFDWHJRU\RQWKHPHQXDVIROORZV
(QWHUWKHVORWQXPEHURIWKHORFDODJJUHJDWHWKDW\RXDUHFRQILJXULQJDQGSUHVV<Return>
8VH7DEOH&WRHQWHUWKHDJJUHJDWHUDWH3UHVV<Return>
If you are using a T1DS0 interface, the aggregate index rate must be followed by
a "T". For example: 140T.
127(
If you are using a G704 interface, the aggregate index rate must be followed by
a "G". For example: 122G.
7R VHOHFW WKH WUDQVPLW FORFN VRXUFH 7[ &ON 6RXUFH H[WHUQDO FORFN VRXUFH ([W &ON
6RXUFHDQG7RU177UHIHUWR7DEOH&$IWHUHQWHULQJWKHVHSDUDPHWHUVSUHVV<Return>
7RVHOHFWDUHGXQGDQWDJJUHJDWH5HG$JJHQWHU<DQGSUHVV5(78517RVHOHFWDQRQ
UHGXQGDQWDJJUHJDWHHQWHU1DQGSUHVV5(7851
7RVHOHFWVGHQVLW\HQWHU<$IWHUHQWHULQJWKHFRUUHFWOHWWHUSUHVV<Return>
If T1DS0 interface, and Nx56k DS0s, answer Yes (Y) to the 1's density prompt.
127(
If T1DS0 interface, and Nx64k DS0s, answer No (N) to the 1's density prompt.
:KHQWKHQHZDJJUHJDWHSDUDPHWHUVDUHDFFHSWHGDQHZSURPSWVLJQ!DSSHDUV
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Table C-3
&
$JJUHJDWH,QWHUIDFH6HOHFWLRQV
,QWHUIDFH7\SH
64 K Contra
BELL T1/D4
NTT
BELL T1
CCITT 2.048 M
64 K Codirectional
CCITT V.35
BELL 303
MIL-STD-188-114
RS-422 (V.11)
RS-423 (V.10)
EIA/TIA-232-E (V.24)
BELL T1-D4/E
64K CONTRA’L
G704 (CCITT)
T1D4/DS0, FT1
$OORZDEOH'DWD5DWHV
ESV
64 K
1.536 M
192 K-1.536 M
1.544 M
2.048 M
64 K
4800-2.048 M
19.2 K-230.4 K
4800-2.048 M
4800-2.048 M
4800-100 K
4800-19.2 K
1.472M, 1.536M
64K
64K-1.984M N by 64K
56K-1.344M N by 56K
64K-1.536M N by 64K
7UDQVPLW
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E
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E
E
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I
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I
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6RXUFH
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
7'RU
177
NO
YES
YES
NO
NO
NO
NO
NO
NO
NO
NO
NO
YES
NO
YES
YES
*'&5
D Agency Rules and Regulations
This appendix supersedes any information contained in GDC 036R303-000.
127(
Before installing the equipment refer to the applicable national regulations
within this document.
Part 1: UK Regulations
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DSSURSULDWHRYHUULGHVDQ\LQIRUPDWLRQSURYLGHGLQWKHWH[WRIWKHLQWHUQDWLRQDOPDQXDO$Q\LQ
TXLULHVVKRXOGEHDGGUHVVHGWR
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706
Applicable Regulations
Safety Aspects
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7KLVHTXLSPHQWPXVWEHHDUWKHG
$OWHUQDWLYHO\WKHXQLWPXVWEHLVRODWHGIURPWKH372OLQHLQWHUIDFHEHIRUHWKHPDLQVSOXJFRQ
WDLQLQJWKHSURWHFWLYHHDUWKLVUHPRYHG,QVXFKFDVHVWKH372OLQHLQWHUIDFHVKRXOGQRWEHKDUG
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DGYLFHVKRXOGEHVRXJKWIURPDFRPSHWHQWHQJLQHHU
Part 2: Telecommunication Attachment Details
7KLVDSSDUDWXVLVDSSURYHGIRUFRQQHFWLRQWR.LORVWUHDPDQG0HJDVWUHDPVHUYLFHV
7KHDSSURYDORIWKLVHTXLSPHQWIRUFRQQHFWLRQWRFLUFXLWVSURYLGHGE\D3XEOLF7HOHFRPPV2S
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Part 3: Attachment Information — UK
:KHQFRPSOHWLQJWKHHQFORVHGIRUPIRUWHOHFRPPXQLFDWLRQVDWWDFKPHQWWKHIROORZLQJGHWDLOV
PXVWEHLQVHUWHGIRUWKLVHTXLSPHQW
MODEL NUMBER
ATTACHMENT APPROVAL No.
AUTHORISED FOR CONNECTION
*'&5
TMS-3000
NS/1132/123/H/452743
Megastream 2 private circuits
Kilostream X21bis (V.28) private
circuits
Kilostream X21bis (V.35) private
circuits
Kilostream X21 (V.11) private circuits
The PSTN utilising PCM and ADPCM encoding
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Part 4: Attachment Information — Republic Of Ireland
MODEL NUMBER
ATTACHMENT APPROVAL NO.
AUTHORISED FOR CONNECTION
TMS-3000
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:H*HQHUDO'DWD&RPP,QFGHFODUHXQGHURXUVROHOHJDOUHVSRQVLELOLW\WKDWWKHIROORZLQJSURG
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•
The affixing of the CE mark is based on compliance with directive 89/336/EEC as
amended by directive 93/68/EEC.
•
EN 55022 (Based on CISPR 22), Specification for limits and methods of
measurement of radio interference characteristics of information
technology equipment.
•
EN 55024 Limits and methods of measurement of the immunity to ElectroMagnetic interference for information technology equipment.
•
EN 50081-1(Based on IEC 801), Electromagnetic compatibility generic emissions
standard Part 1: Residential, Commercial and light industry.
•
EN 50082-1 Electromagnetic compatibility generic immunity standard Part 1:
Residential Commercial and light industry.
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The affixing of the CE mark is based on compliance with directive 73/23/EEC as amended
by directive 93/68/EEC.
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EN 60950 Safety of Information Technology Equipment including Electrical
Business Equipment.
•
EN 41003 Particular Safety Requirements for Equipment to be connected to
Telecommunications Networks.
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ESCC (Enterprise System Control Card)
036M337-001
RCC (Redundancy Control Card)
036P302-001
ECC-II (Expansion Common Card)
036P307-002
Sync Status Module
S-036P042-001
CP-12 Adapter (Expansion Shelf)
S-036B001-002
CP (422/423/449 Ext. Adapter)
S-036P001-001
DLD=M (Ext. Line Driver
039P002-001
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