mc145425 Freescale Semiconductor, Inc, mc145425 Datasheet - Page 6

mc145425

Manufacturer Part Number

mc145425

Description

Isdn Universal Digital Loop Transceivers

Manufacturer

Freescale Semiconductor, Inc

Datasheet

1.MC145425.pdf (16 pages)

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DCLK

D Channel Clock Input (Pin 8)

D channels. D channel input and output operation is de-

scribed in the D1O, D2O pin description.

Transmit Data Output (Pin 13)

low. This pin serves as an output for B channel information

received from the slave device. The B channel data is under

the control of TE1, TE2, and TDC/RDC. (See TE1, TE2

description.)

Receive Data Input (Pin 21)

RE1, RE2, and TDC/RDC pins. (See RE1, RE2 description.)

TE1, TE2

Transmit Data Enable Input (Pins 14, 15)

tive B channel on the Tx output pin. When both TE1 and TE2

are low, the Tx pin is high impedance. The rising edge of the

respective enable produces the first bit of the selected

B channel data on the Tx pin. Internal circuitry then scans for

the next negative transition of the TDC/RDC clock. Following

this event, the next seven bits of the selected B channel data

are output on the next seven rising edges of the TDC/RDC

data clock. When TE1 and TE2 are high simultaneously, data

on the Tx pin is undefined. TE1 and TE2 should be approxi-

mately leading–edge aligned with the TDC/RDC data clock

signal. In order to keep the Tx pin out of the high–impedance

state, these enable lines should be high while the respective

B channel data is being output.

RE1, RE2

Receive Data Enable Inputs (Pins 19, 20)

pin of the device. The rising edge of the respective enable

signal causes the device to load the selected receive data

buffer with data from the Rx pin on the next eight falling

edges of the TDC/RDC clock input. The RE1 and RE2

enables should be roughly leading–edge aligned with the

TDC/RDC data clock input. These enables are rising edge

sensitive and need not be high for the entire B channel input

period.

TDC/RDC

Transmit/Receive Data Clock Input (Pin 18)

B channel data. As described in the TE1/TE2 and the RE1/

RE2 sections, output data changes state on the rising edge

of this signal, and input data is read on the falling edges of

this signal. TDC/RDC should be roughly leading–edge

aligned with the TE1, TE2, RE1, and RE2 enables, as well as

the MSI frame reference signal.

MC145421 MC145425

This input is the transmit and receive data clock for both

This pin is high impedance when both TE1 and TE2 are

B channel data is input on this pin and is controlled by the

These two pins control the output of data for their respec-

These inputs control the input of B channel data on the Rx

This input is the transmit and receive data clock for the

V DD

Positive Supply (Pin 24)

respect to V SS .

V SS

Negative Supply (Pin 1)

0 V.

V ref

Reference Output (Analog Ground) (Pin 2)

should be bypassed to V DD and V SS with 0.1 F capacitors.

This pin usually serves as an analog ground reference for

transformer coupling of the device’s incoming bursts from the

line. No external dc load should be placed on this pin.

Line Input (Pin 3)

bursts. The input has an internal 240 k

V ref pin, an external capacitor or line transformer may be

used to couple the input signal to the device with no dc offset.

LO1, LO2

Line Driver Outputs (Pins 23, 22)

sion line with a 512 kHz modified DPSK (MDPSK) burst each

125 s; in other words at an 8 kHz frame rate. When not

modulating the line, these pins are driven to the active high

state — being the same potential, they create an ac short.

When used in conjunction with feed resistors, proper line ter-

mination is maintained.

CLK OUT

Clock Output (Pin 19)

quency divided by two. This clock is provided for systems

using the MC145428 Data Set Interface asynchronous/syn-

chronous terminal adaptor device.

Loopback Control Input (Pin 4)

master are burst back to the master — instead of the Rx B

channel input data. The B channel data from the master con-

tinues to be output at the slave’s Tx pin during loopback. If

the TONE and the loopback function are active simulta-

neously, the loopback function overrides the TONE function.

D channel data is not affected by LB.

Valid Data Output (Pin 5)

has been demodulated. A valid burst is determined by proper

synchronization and the absence of detected bit errors. If no

transmissions from the master have been received in the last

250 s, as determined by an internal oscillator, VD will go

low.

The most positive power supply pin, normally + 5 V with

The most negative supply pin and logic ground, normally

This pin is the output of the internal reference supply and

This pin is an input to the demodulator for the incoming

These push–pull outputs drive the twisted pair transmis-

This pin serves as a buffered output of the crystal fre-

When this pin is low, the incoming B channels from the

A high on this pin indicates that a valid transmission burst

MC145425 SLAVE PIN DESCRIPTIONS

resistor tied to the

MOTOROLA

mc145425 Freescale Semiconductor, Inc, mc145425 Datasheet - Page 6

mc145425

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