PA-8T-V35 Synchronous Serial Port Adapter Installation and Configuration
Overview: PA-8T-V.35 Synchronous Serial Port Adapter Installation and Configuration
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Overview

Table Of Contents

Overview

Port Adapter Overview

Serial Interface Specifications

LEDs

Cables and Pinouts

Port Adapter Slot Locations on the Supported Platforms

Catalyst RSM/VIP2 Slot Numbering

Catalyst 6000 Family FlexWAN Module Slot Numbering

Cisco 7100 Series Routers Slot Numbering

Cisco 7200 Series and Cisco uBR7200 Series Routers Slot Numbering

Cisco 7301 Router Slot Numbering

Cisco 7304 PCI Port Adapter Carrier Card Slot Numbering

Cisco 7401ASR Router Slot Numbering

VIP Slot Numbering

Identifying Interface Addresses

Catalyst RSM/VIP2 Interface Addresses

Catalyst 6000 Family FlexWAN Module Interface Addresses

Cisco 7100 Series Routers Interface Addresses

Cisco 7200 Series and Cisco uBR7200 Series Routers Interface Addresses

Cisco 7301 Router Interface Addresses

Cisco 7304 PCI Port Adapter Carrier Card Interface Addresses

Cisco 7401ASR Router Interface Addresses

VIP Interface Addresses


Overview


This chapter describes the V.35 synchronous serial port adapter (PA-8T-V35[=]) and contains the following sections:

Port Adapter Overview

Serial Interface Specifications

LEDs

Cables and Pinouts

Port Adapter Slot Locations on the Supported Platforms

Identifying Interface Addresses

Port Adapter Overview

The Cisco PA-8T-V.35, shown in Figure 1-1, provides up to eight synchronous serial interfaces for the chassis. The PA-8T-V.35 network interfaces provide a direct connection between the high-speed bus in the router and external networks. Each PA-8T-V.35 interface provides full-duplex (FDX) operation at T1 (1.544 Mbps) and E1 (2.048 Mbps) speeds. The V.35 interface is most commonly used in the United States and throughout Europe.

All eight PA-8T-V.35 interfaces connect to external networks through a single port that has a 200-pin, D-shell receptacle. You must use a V.35 compact serial cable to connect PA-8T-V.35 interfaces to an external data service unit (DSU) or channel service unit (CSU). The compact serial cable attached to the single receptacle determines the mode (DCE or DTE) for all eight interfaces.


Note Although the Cisco 7304 PCI Port Adapter Carrier Card in the Cisco 7304 router, Catalyst RSM/VIP2, the Catalyst 6000 family FlexWAN module, and the VIP support online insertion and removal (OIR), individual port adapters do not. To replace port adapters, you must first remove the Cisco 7304 PCI Port Adapter Carrier Card in the Cisco 7304 router, the Catalyst RSM/VIP2, the Catalyst 6000 family FlexWAN module, or the VIP from the chassis, and then replace port adapters as required.

Cisco 7100 series, Cisco 7200 series, Cisco uBR7200 series, Cisco 7301 routers, and Cisco 7401ASR routers support OIR of all port adapter types.


Figure 1-1 PA-8T-V.35 Port Adapter—Faceplate View

All PA-8T-V.35 serial interfaces support non return to zero (NRZ) and non return to zero inverted (NRZI) format, and both 16-bit and 32-bit cyclic redundancy checks (CRCs). The default configuration is for NRZ format and 16-bit CRC. You can change the default settings with software commands.

There is no default mode or clock rate set on the PA-8T-V.35 serial ports, although an internal clock signal is present on all ports for data communications equipment (DCE) support. The internal clock allows you to perform local loopback tests without having to terminate the port or connect a cable. To use the port as a DCE interface, you must set the clock rate and connect a DCE compact serial cable. To use the port as a DTE interface, you need only connect a data terminal equipment (DTE) compact serial cable to the port. Because the serial adapter cables determine the mode and interface type, the PA-8T-V.35 interface becomes a DTE when a DTE cable is connected to it.

If a DTE cable is connected to a port with a clock rate set, the DTE ignores the clock rate and uses the external clock signal that is sent from the remote DCE. For a brief description of the clock rate command, see the "Configuring Timing (Clock) Signals" section on page 5-10. For complete command descriptions and instructions, refer to the publications listed in the "Related Documentation" section on page iv.

Serial Interface Specifications

Serial signals can travel a limited distance at any given bit rate; generally, the slower the bit rate, the greater the distance. All serial signals are subject to distance limits beyond which a signal degrades significantly or is completely lost. Table 1-1 lists recommended transmission speeds and distances for V.35 serial interfaces. The recommended maximum rate for V.35 is 2.048 Mbps.

Table 1-1 Recommended Transmission Speed Versus Distance

 
V.35 Distances
Rate (bps)
Feet
Meters

2400

4,100

1,250

4800

2,050

625

9600

1,025

312

19200

513

156

38400

256

78

56000

102

31

2048000

25

8



Note V.35 supports 2.048-Mbps rates without any problems; we do not recommend exceeding the above specifications for transmission speed versus distance. Do so at your own risk. The total aggregate bandwidth for the PA-8T-V.35 is 16 Mbps, which can be divided into 8 Mbps on two ports; 4 Mbps on four ports; or 2 Mbps on eight ports.


LEDs

The PA-8T-V.35 has one row of eight status LEDs (one for each port) and one enabled (EN) LED. (See Figure 1-2.) The green- and amber-colored LED for each port indicates port status.

Figure 1-2 LEDs on the PA-8T-V.35 Port Adapter—Horizontal Orientation

After system initialization, the enabled LED goes on to indicate that the port adapter has been enabled for operation.

The following conditions must be met before the PA-8T-V.35 is enabled:

Port adapter is correctly connected to the backplane or midplane and receiving power.

Valid system software image for the port adapter has been downloaded successfully.

System recognizes the port adapter or PA-8T-V.35-equipped VIP, Catalyst RSM/VIP2, Catalyst 6000 family FlexWAN module, or Cisco 7304 PCI Port Adapter Carrier Card.

If any of the above conditions are not met, or if the initialization fails for other reasons, the enabled LED does not go on.

Table 1-2 lists port LED colors and indications.

Table 1-2 PA-8T-V.35 Port LED Indications 

LED Label
Color
State
Function

0 through 7

Green

On

Port is initialized by the system (the software recognizes the hardware), and a V.35 compact serial cable is properly connected at the router end and the network end.

 

Green

Flashing

Port is sending and receiving data in half-duplex mode (Cisco 7200 series routers only).

 

Amber

On

One of these conditions applies:

Port is in loopback mode

Compact serial is not properly connected at the router or network end

Hardware problem at the network end of the compact serial cable

 

Amber

Off

Port is administratively down.


Cables and Pinouts

The compact serial cable for the PA-8T-V.35 is available in DTE or DCE mode with a 200-pin, D-shell receptacle at the router end and eight, 34-pin Winchester block-type receptacles or plugs at the network end. (See Figure 1-3.) The compact serial cable for the PA-8T-V.35 is 6 feet (1.8 meters) long.


Note The V.35 compact serial cable attached to the single PA-8T-V.35 port determines the mode (DTE or DCE) of the eight PA-8T-V.35 interfaces.


Following are the product numbers, according to mode, for the PA-8T-V.35 compact serial cable:

DTE mode with a 34-pin, Winchester-type V.35 plug (CAB-OCT-V.35-MT[=])

DCE mode with a 34-pin, Winchester-type V.35 receptacle (CAB-OCT-V.35-FC[=])

Figure 1-3 V.35 Compact Serial Cable

Because the PA-8T-V.35 uses a special, high-density port that requires special compact serial interface cables, we recommend that you obtain the cables from Cisco Systems. Figure 1-4 shows the connectors at the network end of the PA-8T-V.35 compact serial cable.

Figure 1-4 PA-8T-V.35 Compact Serial Cable Connectors

Table 1-3 lists connector pinouts for the PA-8T-V.35 DTE compact serial cable (CAB-OCT-V.35-MT[=]), and Table 1-4 lists connector pinouts for the PA-8T-V.35 DCE compact serial cable (CAB-OCT-V.35-FC[=]).

Table 1-3 PA-8T-V.35 DTE Compact Serial Cable Pinouts 

Router End (200-Position Plug)
 
Network End (34-Pin Connector)
Pin
Signal
Note
Direction
Signal
Pin

J8-126

J8-125

MODE_1

GROUND

Shorting

Group

-

J8-175

J8-176

MODE_0

GROUND

Shorting

Group

-

J8-26

J8-25

MODE_DCE

GROUND

Shorting

Group

-

 

SHIELD_GROUND

Braid

 

SHIELD GND

J0-A

J8-16

J8-14

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

RTS

DTR

J0-C

J0-H

J8-23

J8-21

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

CTS

DSR

J0-D

J0-E

J8-12

J8-11

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

<—

RLSD

SIG GND

J0-F

J0-B

J8-19

J8-18

O_LL/NIL+

SIG_GROUND

Twisted pair no. 9

—>

LT

SIG GND

J0-K

J0-B

J8-1

J8-2

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

SD+

SD-

J0-P

J0-S

J8-5

J8-6

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

RD+

RD-

J0-R

J0-T

J8-3

J8-4

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCTE+

SCTE-

J0-U

J0-W

J8-7

J8-8

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCR+

SCR-

J0-V

J0-X

J8-9

J8-10

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

<—

<—

SCT+

SCT-

J0-Y

J0-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J1-A

J8-35

J8-37

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

RTS

DTR

J1-C

J1-H

J8-28

J8-30

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

CTS

DSR

J1-D

J1-E

J8-39

J8-40

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

<—

RLSD

SIG GND

J1-F

J1-B

J8-32

J8-33

O_LL/NIL+

SIG_GROUND

Twisted pair no. 9

—>

LT

SIG GND

J1-K

J1-B

J8-50

J8-49

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

SD+

SD-

J1-P

J1-S

J8-46

J8-45

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

RD+

RD-

J1-R

J1-T

J8-48

J8-47

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCTE+

SCTE-

J1-U

J1-W

J8-44

J8-43

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCR+

SCR-

J1-V

J1-X

J8-42

J8-41

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

<—

<—

SCT+

SCT-

J1-Y

J1-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J2-A

J8-66

J8-64

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

RTS

DTR

J2-C

J2-H

J8-73

J8-71

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

CTS

DSR

J2-D

J2-E

J8-62

J8-61

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

<—

RLSD

SIG GND

J2-F

J2-B

J8-69

J8-68

O_LL/NIL+

SIG_GROUND

Twisted pair no. 9

—>

LT

SIG GND

J2-K

J2-B

J8-51

J8-52

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

SD+

SD-

J2-P

J2-S

J8-55

J8-56

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

RD+

RD-

J2-R

J2-T

J8-53

J8-54

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCTE+

SCTE-

J2-U

J2-W

J8-57

J8-58

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCR+

SCR-

J2-V

J2-X

J8-59

J8-60

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

<—

<—

SCT+

SCT-

J2-Y

J2-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J3-A

J8-85

J8-87

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

RTS

DTR

J3-C

J3-H

J8-78

J8-80

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

CTS

DSR

J3-D

J3-E

J8-89

J8-90

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

<—

RLSD

SIG GND

J3-F

J3-B

J8-82

J8-83

O_LL/NIL+

SIG_GROUND

Twisted pair no. 9

—>

LT

SIG GND

J3-K

J3-B

J8-100

J8-99

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

SD+

SD-

J3-P

J3-S

J8-96

J8-95

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

RD+

RD-

J3-R

J3-T

J8-98

J8-97

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCTE+

SCTE-

J3-U

J3-W

J8-94

J8-93

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCR+

SCR-

J3-V

J3-X

J8-92

J8-91

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

<—

<—

SCT+

SCT-

J3-Y

J3-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J4-A

J8-116

J8-114

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

RTS

DTR

J4-C

J4-H

J8-123

J8-121

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

CTS

DSR

J4-D

J4-E

J8-112

J8-111

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

<—

RLSD

SIG GND

J4-F

J4-B

J8-119

J8-118

O_LL/NIL+

SIG_GROUND

Twisted pair no. 9

—>

LT

SIG GND

J4-K

J4-B

J8-101

J8-102

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

SD+

SD-

J4-P

J4-S

J8-105

J8-106

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

RD+

RD-

J4-R

J4-T

J8-103

J8-104

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCTE+

SCTE-

J4-U

J4-W

J8-107

J8-108

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCR+

SCR-

J4-V

J4-X

J8-109

J8-110

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

<—

<—

SCT+

SCT-

J4-Y

J4-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J5-A

J8-135

J8-137

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

RTS

DTR

J5-C

J5-H

J8-128

J8-130

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

CTS

DSR

J5-D

J5-E

J8-139

J8-140

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

<—

RLSD

SIG GND

J5-F

J5-B

J8-132

J8-133

O_LL/NIL+

SIG_GROUND

Twisted pair no. 9

—>

LT

SIG GND

J5-K

J5-B

J8-150

J8-149

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

SD+

SD-

J5-P

J5-S

J8-146

J8-145

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

RD+

RD-

J5-R

J5-T

J8-148

J8-147

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCTE+

SCTE-

J5-U

J5-W

J8-144

J8-143

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCR+

SCR-

J5-V

J5-X

J8-142

J8-141

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

<—

<—

SCT+

SCT-

J5-Y

J5-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J6-A

J8-166

J8-164

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

RTS

DTR

J6-C

J6-H

J8-173

J8-171

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

CTS

DSR

J6-D

J6-E

J8-162

J8-161

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

<—

RLSD

SIG GND

J6-F

J6-B

J8-169

J8-168

O_LL/NIL+

SIG_GROUND

Twisted pair no. 9

—>

LT

SIG GND

J6-K

J6-B

J8-151

J8-152

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

SD+

SD-

J6-P

J6-S

J8-155

J8-156

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

RD+

RD-

J6-R

J6-T

J8-153

J8-154

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCTE+

SCTE-

J6-U

J6-W

J8-157

J8-158

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCR+

SCR-

J6-V

J6-X

J8-159

J8-160

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

<—

<—

SCT+

SCT-

J6-Y

J6-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J7-A

J8-185

J8-187

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

RTS

DTR

J7-C

J7-H

J8-178

J8-180

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

CTS

DSR

J7-D

J7-E

J8-189

J8-190

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

<—

RLSD

SIG GND

J7-F

J7-B

J8-182

J8-183

O_LL/NIL+

SIG_GROUND

Twisted pair no. 9

—>

LT

SIG GND

J7-K

J7-B

J8-200

J8-199

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

SD+

SD-

J7-P

J7-S

J8-196

J8-195

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

RD+

RD-

J7-R

J7-T

J8-198

J8-197

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCTE+

SCTE-

J7-U

J7-W

J8-194

J8-193

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCR+

SCR-

J7-V

J7-X

J8-192

J8-191

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

<—

<—

SCT+

SCT-

J7-Y

J7-AA


Table 1-4 PA-8T-V.35 DCE Compact Serial Cable Pinouts 

Router End (200-Position Plug)
 
Network End (34-Pin Connector)
Pin
Signal
Note
Direction
Signal
Pin

J8-126

J8-125

MODE_1

GROUND

Shorting

Group

-

J8-175

J8-176

MODE_0

GROUND

Shorting

Group

-

 

SHIELD_GROUND

Braid

 

SHIELD GND

J0-A

J8-23

J8-21

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

RTS

DSR

J0-C

J0-H

J8-16

J8-14

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

CTS

DTR

J0-D

J0-E

J8-12

J8-11

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

—>

RLSD

SIG GND

J0-F

J0-B

J8-20

J8-18

I_NIL/LL+

SIG_GROUND

Twisted pair no. 9

<—

LT

SIG GND

J0-K

J0-B

J8-5

J8-6

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

SD+

SD-

J0-P

J0-S

J8-1

J8-2

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

RD+

RD-

J0-R

J0-T

J8-7

J8-8

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCTE+

SCTE-

J0-U

J0-W

J8-3

J8-4

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCR+

SCR-

J0-V

J0-X

J8-9

J8-10

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

—>

—>

SCT+

SCT-

J0-Y

J0-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J1-A

J8-28

J8-30

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

RTS

DSR

J1-C

J1-H

J8-35

J8-37

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

CTS

DTR

J1-D

J1-E

J8-39

J8-40

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

—>

RLSD

SIG GND

J1-F

J1-B

J8-31

J8-33

I_NIL/LL+

SIG_GROUND

Twisted pair no. 9

<—

LT

SIG GND

J1-K

J1-B

J8-46

J8-45

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

SD+

SD-

J1-P

J1-S

J8-50

J8-49

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

RD+

RD-

J1-R

J1-T

J8-44

J8-43

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCTE+

SCTE-

J1-U

J1-W

J8-48

J8-47

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCR+

SCR-

J1-V

J1-X

J8-42

J8-41

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

—>

—>

SCT+

SCT-

J1-Y

J1-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J2-A

J8-73

J8-71

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

RTS

DSR

J2-C

J2-H

J8-66

J8-64

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

CTS

DTR

J2-D

J2-E

J8-62

J8-61

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

—>

RLSD

SIG GND

J2-F

J2-B

J8-70

J8-68

I_NIL/LL+

SIG_GROUND

Twisted pair no. 9

<—

LT

SIG GND

J2-K

J2-B

J8-55

J8-56

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

SD+

SD-

J2-P

J2-S

J8-51

J8-52

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

RD+

RD-

J2-R

J2-T

J8-57

J8-58

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCTE+

SCTE-

J2-U

J2-W

J8-53

J8-54

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCR+

SCR-

J2-V

J2-X

J8-59

J8-60

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

—>

—>

SCT+

SCT-

J2-Y

J2-AA

           
 

SHIELD_GROUND

Braid

 

SHIELD GND

J3-A

J8-78

J8-80

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

RTS

DSR

J3-C

J3-H

J8-85

J8-87

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

CTS

DTR

J3-D

J3-E

J8-89

J8-90

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

—>

RLSD

SIG GND

J3-F

J3-B

J8-81

J8-83

I_NIL/LL+

SIG_GROUND

Twisted pair no. 9

<—

LT

SIG GND

J3-K

J3-B

J8-96

J8-95

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

SD+

SD-

J3-P

J3-S

J8-100

J8-99

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

RD+

RD-

J3-R

J3-T

J8-94

J8-93

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCTE+

SCTE-

J3-U

J3-W

J8-98

J8-97

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCR+

SCR-

J3-V

J3-X

J8-92

J8-91

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

—>

—>

SCT+

SCT-

J3-Y

J3-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J4-A

J8-123

J8-121

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

RTS

DSR

J4-C

J4-H

J8-116

J8-114

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

CTS

DTR

J4-D

J4-E

J8-112

J8-111

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

—>

RLSD

SIG GND

J4-F

J4-B

J8-120

J8-118

I_NIL/LL+

SIG_GROUND

Twisted pair no. 9

<—

LT

SIG GND

J4-K

J4-B

J8-105

J8-106

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

SD+

SD-

J4-P

J4-S

J8-101

J8-102

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

RD+

RD-

J4-R

J4-T

J8-107

J8-108

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCTE+

SCTE-

J4-U

J4-W

J8-103

J8-104

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCR+

SCR-

J4-V

J4-X

J8-109

J8-110

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

—>

—>

SCT+

SCT-

J4-Y

J4-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J5-A

J8-128

J8-130

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

RTS

DSR

J5-C

J5-H

J8-135

J8-137

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

CTS

DTR

J5-D

J5-E

J8-139

J8-140

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

—>

RLSD

SIG GND

J5-F

J5-B

J8-131

J8-133

I_NIL/LL+

SIG_GROUND

Twisted pair no. 9

<—

LT

SIG GND

J5-K

J5-B

J8-146

J8-145

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

SD+

SD-

J5-P

J5-S

J8-150

J8-149

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

RD+

RD-

J5-R

J5-T

J8-144

J8-143

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCTE+

SCTE-

J5-U

J5-W

J8-148

J8-147

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCR+

SCR-

J5-V

J5-X

J8-142

J8-141

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

—>

—>

SCT+

SCT-

J5-Y

J5-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J6-A

J8-173

J8-171

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

RTS

DSR

J6-C

J6-H

J8-166

J8-164

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

CTS

DTR

J6-D

J6-E

J8-162

J8-161

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

—>

RLSD

SIG GND

J6-F

J6-B

J8-170

J8-168

I_NIL/LL+

SIG_GROUND

Twisted pair no. 9

<—

LT

SIG GND

J6-K

J6-B

J8-155

J8-156

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

SD+

SD-

J6-P

J6-S

J8-151

J8-152

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

RD+

RD-

J6-R

J6-T

J8-157

J8-158

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCTE+

SCTE-

J6-U

J6-W

J8-153

J8-154

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCR+

SCR-

J6-V

J6-X

J8-159

J8-160

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

—>

—>

SCT+

SCT-

J6-Y

J6-AA

 

SHIELD_GROUND

Braid

 

SHIELD GND

J7-A

J8-178

J8-180

I_CTS/RTS+

I_DSR/DTR+

Twisted pair no. 8

<—

<—

RTS

DSR

J7-C

J7-H

J8-185

J8-187

O_RTS/CTS+

O_DTR/DSR+

Twisted pair no. 7

—>

—>

CTS

DTR

J7-D

J7-E

J8-189

J8-190

IO_DCD/DCD+

SIG_GROUND

Twisted pair no. 6

—>

RLSD

SIG GND

J7-F

J7-B

J8-181

J8-183

I_NIL/LL+

SIG_GROUND

Twisted pair no. 9

<—

LT

SIG GND

J7-K

J7-B

J8-196

J8-195

I_RXD/TXD+

I_RXD/TXD-

Twisted pair no. 3

<—

<—

SD+

SD-

J7-P

J7-S

J8-200

J8-199

O_TXD/RXD+

O_TXD/RXD-

Twisted pair no. 1

—>

—>

RD+

RD-

J7-R

J7-T

J8-194

J8-193

I_RXC/TXCE+

I_RXC/TXCE-

Twisted pair no. 4

<—

<—

SCTE+

SCTE-

J7-U

J7-W

J8-198

J8-197

O_TXCE/RXC+

O_TXCE/RXC-

Twisted pair no. 2

—>

—>

SCR+

SCR-

J7-V

J7-X

J8-192

J8-191

IO_TXC/TXC+

IO_TXC/TXC-

Twisted pair no. 5

—>

—>

SCT+

SCT-

J7-Y

J7-AA


Port Adapter Slot Locations on the Supported Platforms

This section discusses port adapter slot locations on the supported platforms. The Illustrations that follow summarize slot locations on each platform:

Catalyst RSM/VIP2 Slot Numbering

Catalyst 6000 Family FlexWAN Module Slot Numbering

Cisco 7100 Series Routers Slot Numbering

Cisco 7200 Series and Cisco uBR7200 Series Routers Slot Numbering

Cisco 7301 Router Slot Numbering

Cisco 7304 PCI Port Adapter Carrier Card Slot Numbering

Cisco 7401ASR Router Slot Numbering

VIP Slot Numbering

Catalyst RSM/VIP2 Slot Numbering

The Catalyst RSM/VIP2 can be installed in any slot except the top slots, which contain the supervisor engine. The Catalyst RSM/VIP2 in a Catalyst 5000 family switch does not use interface processor slot numbering; therefore, slots are not numbered in Figure 1-5. The PA-8T-V.35 can be installed into either port adapter slot 0 or slot 1 on a Catalyst RSM/VIP2. Figure 1-5 shows a Catalyst RSM/VIP2 with two port adapters installed.


Note The Catalyst 5500 switch has 13 slots. Slot 1 is reserved for the supervisor engine. If a redundant supervisor engine is used, it would go in slot 2; otherwise, slot 2 can be used for other modules. Slot 13 is a dedicated slot, reserved for the ATM switch processor (ASP) module. Refer to the Catalyst 5000 Series Route Switch Module Installation and Configuration Note for any additional slot restrictions for the Catalyst RSM/VIP2.


Figure 1-5 Catalyst 5000 Family Switch with Port Adapters Installed on Catalyst RSM/VIP2

Catalyst 6000 Family FlexWAN Module Slot Numbering

The Catalyst 6000 family FlexWAN module can be installed in any slot except slot 1, which is reserved for the supervisor engine. The PA-8T-V.35 can be installed into either port adapter bay 0 or bay 1 on a FlexWAN module. Figure 1-6 shows a FlexWAN module with two blank port adapters installed.


Note Slot 1 is reserved for the supervisor engine. If a redundant supervisor engine is used, it would go in slot 2; otherwise, slot 2 can be used for other modules.


Figure 1-6 Catalyst 6000 Family Switch with Blank Port Adapters Installed on FlexWAN Module

Cisco 7100 Series Routers Slot Numbering

The PA-8T-V.35 can be installed in port adapter slot 3 in Cisco 7120 series routers, and in port adapter slot 4 in Cisco 7140 series routers. Figure 1-7 shows a Cisco 7120 with a port adapter installed in slot 3. Figure 1-8 shows a Cisco 7140 with a port adapter installed in slot 4.

Figure 1-7 Port Adapter Slots in the Cisco 7100 Series Router—Cisco 7120 Series

Figure 1-8 Port Adapter Slots in the Cisco 7100 Series Router—Cisco 7140 Series

Cisco 7200 Series and Cisco uBR7200 Series Routers Slot Numbering

Figure 1-9 shows a Cisco 7206 with port adapters installed. In the Cisco 7206, port adapter slot 1 is in the lower left position, and port adapter slot 6 is in the upper right position. (The Cisco 7202 and Cisco 7204 are not shown; however, the PA-8T-V.35 can be installed in any available port adapter slot.)

Figure 1-9 Port Adapter Slots in the Cisco 7206

Figure 1-10 shows the slot numbering of port adapters in a Cisco uBR7246 and Cisco uBR7246VXR router. The port adapter slots are numbered slot 1 and slot 2 for the Cisco uBR7246 and Cisco uBR7246VXR router and slot 1 for the Cisco uBR7223. (Slot 0 is always reserved for the Fast Ethernet port on the I/O controller—if present.)

Figure 1-10 Port Adapter Slots in the Cisco uBR7246 and Cisco uBR7246VXR

Cisco 7301 Router Slot Numbering

The Cisco 7301 router has one standard port adapter slot. See Figure 1-11.

Figure 1-11 Port Adapter Slot in the Cisco 7301 Router

Cisco 7304 PCI Port Adapter Carrier Card Slot Numbering

The Cisco 7304 PCI Port Adapter Carrier Card accepts one single-width port adapter. Figure 1-12 shows a Cisco 7304 PCI Port Adapter Carrier Card with a port adapter installed.

Figure 1-12 Cisco 7304 PCI Port Adapter Carrier Card—Port Adapter Installed

The Cisco 7304 PCI Port Adapter Carrier Card installs in Cisco 7304 router module slots 2 through 5. See Figure 1-13 for module slot numbering on a Cisco 7304 router.

Figure 1-13 Module Slots on the Cisco 7304 Router

Cisco 7401ASR Router Slot Numbering

Figure 1-14 shows the front view of a Cisco 7401ASR router with a port adapter installed. There is only one port adapter slot in a Cisco 7401ASR router.

Figure 1-14 Cisco 7401ASR Router with a Port Adapter Installed

VIP Slot Numbering

Figure 1-15 shows a partial view of a VIP motherboard with installed port adapters. With the motherboard oriented as shown in Figure 1-15, the left port adapter is in port adapter slot 0, and the right port adapter is in port adapter slot 1. The slot numbering is the same for the Catalyst RSM/VIP2. The slots are always numbered 0 and 1.

Figure 1-15 VIP Motherboard with Two Port Adapters Installed—Horizontal Orientation


Note In the Cisco 7000, Cisco 7507, and Cisco 7513 chassis, the VIP motherboard is installed vertically. In the Cisco 7010 and Cisco 7505 chassis, the VIP motherboard is installed horizontally.


Interface processor slots are numbered as shown in Figure 1-16.

Figure 1-16 Interface Slot Numbers—Cisco 7505 shown

Identifying Interface Addresses

This section describes how to identify interface addresses for the PA-8T-V.35 in supported platforms. Interface addresses specify the actual physical location of each interface on a router or switch.

Interfaces on the PA-8T-V.35 installed in a router maintain the same address regardless of whether other port adapters are installed or removed. However, when you move a port adapter to a different slot, the first number in the interface address changes to reflect the new port adapter slot number.

Interfaces on a PA-8T-V.35 installed in a Catalyst 6000 family FlexWAN module or a VIP maintain the same address regardless of whether other interface processors are installed or removed. However, when you move a Catalyst 6000 family FlexWAN module or a VIP to a different slot, the interface processor slot number changes to reflect the new interface processor slot.


Note Interface ports are numbered from left to right starting with 0.


Table 1-5 explains how to identify interface addresses.

Table 1-5 Identifying Interface Addresses 

Platform
Interface Address Format
Numbers
Syntax

Catalyst RSM/VIP2 in Catalyst 5000 family switches

Port-adapter-slot-number/interface-port-number

Port adapter slot—always 0 or 1

Interface port—0 through 7

0/1

Catalyst 6000 family FlexWAN module in Catalyst 6000 family switches

Module-slot-number/port-adapter-bay-number/
interface-port-number

Module slot number—21 through 6 or 9 (depending on the number of slots in the switch)

Port adapter bay—always 0 or 1

Interface port—0 through 7

3/0/0

Cisco 7120 series routers

Port-adapter-slot-number/interface-port-number

Port adapter slot—always 3

Interface port—0 through 7

3/1

Cisco 7140 series routers

Port-adapter-slot-number/interface-port-number

Port adapter slot—always 4

Interface port—0 through 7

4/0

Cisco 7200 series routers

Port-adapter-slot-number/interface-port-number

Port adapter slot—0 through 6 (depends on the number of slots in the router)2

Interface port—0 through 7

1/0

Cisco uBR7223 router

Port-adapter-slot-number/interface-port-number

Port adapter slot—always 12

Interface port—0 through 7

1/0

Cisco uBR7246 and Cisco uBR7246VXR routers

Port-adapter-slot-number/interface-port-number

Port adapter slot—always 1 or 22

Interface port—0 through 7

1/2

Cisco 7301 routers

Port-adapter-slot-number/interface-port-number

Port adapter slot—always 1

Interface port—0 through 7

1/0

Cisco 7304 PCI Port Adapter Carrier Card in Cisco 7304 routers

Port-adapter-slot-number/interface-port-number

Port adapter slot—router module slot 2 through 5

Interface port—0 through 7

3/0

Cisco 7401ASR routers

Port-adapter-slot-number/interface-port-number

Port adapter slot—always 1

Interface port—0 through 7

1/0

VIP in Cisco 7000 series or Cisco 7500 series routers

Interface-processor-slot-number/port-adapter-
slot-number/interface-port-number

Interface processor slot—0 through 12 (depends on the number of slots in the router)

Port adapter slot—always 0 or 1

Interface port—0 through 7

3/1/0

1 Slot 1 is reserved for the supervisor engine. If a redundant supervisor engine is used, it must go in slot 2; otherwise, slot 2 can be used for other modules.

2 Port adapter slot 0 is reserved for the Fast Ethernet port on the I/O controller (if present).


Catalyst RSM/VIP2 Interface Addresses

This section describes how to identify the interface addresses used for the PA-8T-V.35 on the Catalyst RSM/VIP2 in the Catalyst 5000 family switches. The interface address is composed of a two-part number in the format port-adapter-slot number/interface-port number.

See Table 1-5 for the interface address format.

Catalyst 6000 Family FlexWAN Module Interface Addresses

This section describes how to identify the interface addresses used for the PA-8T-V.35 on the Catalyst FlexWAN module in the Catalyst 6000 family switches.The interface address is composed of a three-part number in the format module-number/port-adapter-bay-number/interface-port-number.

See Table 1-5 for the interface address format.

If the FlexWAN module is inserted in module slot 3, then the interface addresses of the PA-8T-V.35 are 3/0/0 through 3/0/7 (module slot 3, port adapter bay 0, and interfaces 0 through 7). If the port adapter was in port adapter bay 1 on the FlexWAN module, these same interface addresses would be numbered 3/1/0 through 3/1/7.


Note If you remove the FlexWAN module with the PA-8T-V.35 from module slot 3 and install it in module slot 6, the interface addresses become 6/0/0 through 6/0/7.



Note The FlexWAN module physical port address uses a zero- (0-) based port address, which differs from the conventional Catalyst 6000 family one- (1-) based port address.


Cisco 7100 Series Routers Interface Addresses

This section describes how to identify the interface addresses used for the PA-8T-V.35 in Cisco 7100 series routers. The interface address is composed of a two-part number in the format port-adapter-slot-number/interface-port-number. See Table 1-5 for the interface address format.

Cisco 7200 Series and Cisco uBR7200 Series Routers Interface Addresses

This section describes how to identify the interface addresses used for the PA-8T-V.35 in Cisco 7200 series routers or Cisco uBR7200 series routers. The interface address is composed of a two-part number in the format port-adapter-slot-number/interface-port-number. See Table 1-5 for the interface address format.

In Cisco 7200 series routers, port adapter slots are numbered from the lower left to the upper right, beginning with port adapter slot 1 and continuing through port adapter slot 2 for the Cisco 7202, slot 4 for the Cisco 7204 and Cisco 7204VXR, and slot 6 for the Cisco 7206 and Cisco 7206VXR. (Port adapter slot 0 is reserved for the optional Fast Ethernet port on the I/O controller—if present.)

The interface addresses of the interfaces on the PA-8T-V.35 in port adapter slot 1 are 1/0 through 1/7 (port adapter slot 1 and interfaces 0 through 7). If the PA-8T-V.35 was in port adapter slot 4, these same interfaces would be numbered 4/0 through 4/7 (port adapter slot 4 and interfaces 0 through 7).

In Cisco uBR7200 series routers, port adapter slots are numbered slot 1 and slot 2 for the Cisco uBR7246 and Cisco uBR7246VXR and slot 1 for the Cisco uBR7223. (Slot 0 is always reserved for the Fast Ethernet port on the I/O controller—if present.) The individual interfaces always begin with 0. The number of additional interfaces depends on the number of interface ports on a port adapter.

The interface addresses of the interfaces on a PA-8T-V.35 in port adapter slot 2 are 2/0 and 2/1 (port adapter slot 2 and interfaces 0 and 1). If the PA-8T-V.35 was in port adapter slot 1, these same interfaces would be numbered 1/0 and 1/1 (port adapter slot 1 and interfaces 0 and 1).

Cisco 7301 Router Interface Addresses

This section describes how to identify the interface addresses used for the Cisco PA-8T-V.35 port adapter in Cisco 7301 router. The interface address is composed of a two-part number in the format port-adapter-slot-number/interface-port-number. See Table 1-5 for the interface address format.

Cisco 7304 PCI Port Adapter Carrier Card Interface Addresses

This section describes how to identify the interface addresses used for the PA-8T-V.35 in the Cisco 7304 PCI Port Adapter Carrier Card in Cisco 7304 routers. The interface address is made of a two-part number in the format port-adapter-slot-number/interface-port-number.

The Cisco 7304 PCI Port Adapter Carrier Card installs into Cisco 7304 router module slots 2 through 5 (See Figure 1-13.) The port-adapter-slot-number is the Cisco 7304 router module slot number. For example, the interface address of port 0 on a PA-8T-V.35, in which the Cisco 7304 PCI Port Adapter Carrier Card is installed in Cisco 7304 router module slot 3, would be numbered 3/0.

Cisco 7401ASR Router Interface Addresses

This section describes how to identify the interface addresses used for the PA-8T-V.35 in the Cisco 7401ASR router. In the Cisco 7401ASR router, slot 1 is the port adapter slot you use for the PA-8T-V.35. The interface address is composed of a two-part number in the format port-adpater-slot-number/interface-port-number. See Table 1-5 for the interface address format.

VIP Interface Addresses

This section describes how to identify the interface addresses used for the PA-8T-V.35 on a VIP in Cisco 7000 series and Cisco 7500 series routers.


Note Although the processor slots in the 7-slot Cisco 7000 and Cisco 7507 and the 13-slot Cisco 7513 and Cisco 7576 are vertically oriented and those in the 5-slot Cisco 7010 and Cisco 7505 are horizontally oriented, all Cisco 7000 series and Cisco 7500 series routers use the same method for slot and port numbering.


See Table 1-5 for the interface address format. The interface address is composed of a three-part number in the format interface-processor-slot-number/port-adapter-slot-number/
interface-port-number
.

If the VIP is inserted in interface processor slot 3, then the interface addresses of the PA-8T-V.35 are 3/1/0 through 3/1/7 (interface processor slot 3, port adapter slot 1, and interfaces 0 through 7). If the port adapter was in port adapter slot 0 on the VIP, these same interface addresses would be numbered 3/0/0 through 3/0/7.


Note If you remove the VIP with the PA-8T-V.35 (shown in Figure 1-16) from interface processor slot 3 and install it in interface processor slot 2, the interface addresses become 2/1/0 through 2/1/7.