CANOGA PERKINS 2240 Fiber Optic Modem User Manual

Chapter 4 Data Interfaces

Multi-Channel Interfaces

61

The previous V.35 interface Model MC2/435, did not conform to the ISO 2593 pinout and was the
predecessor to the MC2/436 interface. The MC2/436 went into production during mid-summer
1996. The signals listed in Table 4-13 have different pinouts on the MC2/435 versus the MC2/
436. The MC2/435 also did not support the Extra Clock for the receive data signal. This pinout
difference table is only included as a reference. MC2/436 interfaces can be identified by the
addition of a heatsink on the voltage regulator, VR1.

Calling Indicator (aka RI)

J

125

from modem

Local Loopback

L

141

to modem

Remote Loopback

N

140

to modem

Received Data (aka RXD)

R/T

104

from modem

Receiver Signal Element

V/X

115

from modem

Timing

DCE Source (aka SCR)

Transmitted Data (aka TXD)

P/S

103

to modem

Transmitter Signal Element

Y/AA

114

from modem

Timing

DCE Source (aka SCT)

Transmitter Signal Element

U/W

113

to modem

Timing

DTE Source (aka
SCTE)

Test Indicator (aka TM)

NN

142

from modem

Extra Clock for Receive Data

FF/DD *

–

to modem

* These pins carry signals which are not defined by V.35 or ISO 2593-1993. If a straight-
through cable is used, verify compatibility of this pin usage with the customer's
equipment.
NOTE 1: The 2240 connects the Shield pin to chassis ground.
NOTE 2: The extra clock signal is an enhancement added to -MC2 interfaces. MC2
interfaces with this capability can be identified by the addition of a heatsink on the
voltage regulator, VR1.

Table 4-13. Pinout Differences (MC2/435 vs. MC2/436)

Function

Pin (A/B)

CCITT Circuit

Number

Direction

Test Mode

C C

142

from modem

Local Loopback

E E

141

to modem

Remote Loopback D D

140

to modem

Table 4-12. CCITT V.35 Pinouts for MC2 (Continued)

Function

Pin (A/B)

CCITT

Circuit

Number

Direction