CS62180B-IL 데이터 시트보기 (PDF) - Cirrus Logic
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CS62180B-IL Datasheet PDF : 50 Pages
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CS62180B
Alarms
Figure A10 shows a useful overview of the alarm
operation in a PCM link. When an intermediate
monitoring system (or central office repeater) de-
tects a loss of signal, it transmits an all "1’s"
signal (Blue alarm, or Alarm Indication Signal)
on the line to maintain clock recovery operation
in the subsequent digital repeaters and the desti-
nation’s receiver. The same Blue alarm may be
used by the source transmitter if, for some rea-
son, it cannot maintain normal functionality
(such as during loopback).
When the loss of signal is detected at the inter-
mediate monitor, an internal Red alarm (also
known as a Service Alarm Indication, or Prompt
Maintenance Alarm) is generated. While in a
Red alarm mode, the monitor transmits a Yellow
alarm back to the source’s receiver, indicating a
remote loss of alignment. This Yellow alarm in-
forms the source that there’s a problem farther
down the line and it’s transmission is not being
received at the destination.
Source
Transmit
Monitor
Blue Alarm
Destination
Blue
Alarm Receive
Loss of
Signal = Red
Alarm
Receive
Yellow Alarm
Yellow
Yellow
Alarm Digital Alarm Transmit
Repeater
Figure A10. Alarm Operation on a T1 Link.
Zero Substitution
As was mentioned in the T1 overview, data is
transmitted over dual twisted-pair cable with
digital repeaters at 6000 ft. intervals. It is en-
coded in a bipolar AMI (Alternate Mark
Inversion) format. Successive "1’s" are encoded
alternately as positive and negative voltage
pulses. A zero is simply an absence of pulses.
This means that a long stream of "0’s" is indis-
tinguishable from a dead line. Clock recovery
48
circuits in the network maintain clock synchroni-
zation by syncing to the "1’s" pulses in the
transmission stream. Synchronization may be
lost if there are too many consecutive zero’s,
hence there is a general requirement that there be
at least 12.5 % "1’s" density in the transmission
stream. Furthermore, no more than 15 consecu-
tive "0’s" are allowable. Various zero substitution
schemes have been developed to meet these re-
quirements. The CS62180B supports B7
and B8ZS zero suppression formats.
B7 Zero Substitution
B7 zero substitution guarantees at least one "1"
in all DS0 channels. This satasfies the 12.5 %
ones density, and guarantees that more than 15
consecutive zeros will never occur. In B7 substi-
tution systems, the 7th bit (2nd LSB) of an all
zero channel is forced to a "1". This strategy
maintains 1’s density in voice grade transmis-
sion, with negligible audible interference. The
drawback with the B7 format is that it’s impossi-
ble for the receiving end to detect and remove
the changed bits. This makes B7 zero suppres-
sion unacceptable for clear channel transmission,
in which the integrity of the data must be main-
tained.
B8ZS Zero Substitution
B8ZS (Bipolar Eight Zero Substitution) satisfies
the one’s density requirement without corrupting
transmission data. Instead of operating on indi-
vidual channels, the B8ZS format looks at the
entire transmission stream. Any eight consecutive
zeros are replaced with an 8 bit code. This code
uses specific bipolar violations of the AMI for-
mat to distinguish it from the ordinary data. If
the last "1" transmitted before a string of zeros
was encoded as a positive pulse, then the B8ZS
code for the next eight bits will be 000+-0-+.
Similarly, if the last "1" was a negative pulse,
then the code will be 000-+0+-. In either case,
bipolar violations occur in the fourth and seventh
bits. These violations are decoded as a string of
DS225PP2
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