Receiver functions, Transmitter functions, Loopbacks – Nortel Networks 1000 User Manual

Architecture

883

Receiver functions

The receiver extracts data and clock from an AMI (Alternate Mark
Inversion) coded signal and outputs clock and synchronized data. The
receiver is sensitive to signals over the entire range of cable lengths and
requires no equalization. The clock and data recovery meets or exceeds
the jitter specifications of the CCITT recommendation G.823 and the
jitter attenuation requirements of the CCITT recommendation G.742.
This provides jitter attenuation increasing from 0 dB to 60 dB over the
frequency range from about 6 Hz to 6 KHz.

The receiver extracts data and clock from an AMI (Alternate Mark
Inversion) coded signal and outputs clock and synchronized data. The
receiver is sensitive to signals over the entire range of cable lengths and
requires no equalization. The clock and data recovery meets or exceeds
the jitter specifications of the CCITT recommendation G.823 and the jitter
attenuation requirements of CCITT recommendation G.742. This provides
jitter attenuation increasing from 0 dB to 60 dB over the frequency range
from about 6 Hz to 6 KHz.

The receiver extracts data and clock from an AMI (Alternate Mark
Inversion) coded signal and outputs clock and synchronized data. The
receiver is sensitive to signals over the entire range of cable lengths and
requires no equalization. The clock and data recovery meets or exceeds
the jitter specifications of the CCITT recommendation G.823 and the
jitter attenuation requirements of the CCITT recommendation G.742.
This provides jitter attenuation increasing from 0 dB to 60 dB over the
frequency range from about 6 Hz to 6 KHz.

Transmitter functions

The transmitter takes the binary (dual unipolar) data from the PCM
transceiver and produces bipolar pulses. This conforms to CCITT
recommendation G.703 pulse shape.

The transmitter takes the binary (dual unipolar) data from the PCM
transceiver and produces bipolar pulses which conform to CCITT
recommendation G.703 pulse shape.

The transmitter takes the binary (dual unipolar) data from the PCM
transceiver and produces bipolar pulses. This conforms to CCITT
recommendation G.703 pulse shape.

Loopbacks

The remote loopback function causes the far-end device to transmit the
same data that it receives, using the jitter attenuated receive clock. The
data is additionally available at the far-end receive data outputs. Local

Nortel Communication Server 1000

Circuit Card Reference

NN43001-311

02.06

Standard

27 August 2008

Copyright © 2003-2008 Nortel Networks

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