Lucent Technologies MERLIN LEGEND Release 5.0 Feature Reference page 486

MERLIN LEGEND Communications System Release 5.0
Feature Reference 555-650-110
Features
Primary Rate Interface (PRI) and T1
If common-channel signaling (CCS) is selected, 23 channels are available for
emulation, and the twenty-fourth channel carries trunk supervision signals. (See
''Signaling Mode'' on page
Framing Format
To identify the DS0 channels, the DS1 signal is segmented into blocks of 193 bits
called frames . A frame consists of 24 eight-bit words (one for each channel) plus a
framing bit at the beginning of each frame (24 words x 8 bits = 192 bits). Thus, a
framing bit appears in every one hundred ninety-third bit position of the
1.544-Mbps DS1 signal.
Frames repeat at a rate of 8,000 per second. Each frame repeats DS0 channels 1
through 24 sequentially.
The following two methods of framing can be used by a 100D module, but the
framing method chosen must match the framing at the far end:
D4 Framing Format. The system is factory-set for D4 framing. A D4 frame
consists of 24 eight-bit time slots and one framing bit. To perform
synchronization, the receiving equipment uses the framing information to
identify the start of each frame and to identify which frames contain
signaling information. The framing information repeats once every 12
frames; these 12 frames form the D4 superframe.
ESF Framing Format. The extended superframe (ESF) format extends
the 12-frame D4 superframe to a 24-frame superframe. The 24 framing bits
include a cyclic redundancy check (CRC) for the entire ESF and a facility
data link for maintenance. The ESF can detect more errors than D4
framing can.
Line Coding
The DS1 signal consists of a continuous stream of ones and zeros, encoded into
bipolar pulses for transmission. Only the ones create a pulse; the zeros represent
the absence of a pulse. Pulses alternate between positive and negative. This type
of line coding is called bipolar or alternate mark inversion (AMI). The line-coding
formats guarantee that the ones-density requirement is met to achieve clock
recovery.
To meet the ones-density requirement, either zero code suppression (ZCS) or
bipolar 8 zero substitution (B8ZS) line coding can be chosen, but the selected line
coding must match the line coding at the far end.
ZCS line coding monitors each DS0 channel and prevents strings of eight or more
zeros. Upon detecting eight consecutive zeros in a channel octet, ZCS line coding
forcibly changes the seventh zero (the second least significant bit) to a one. The
factory-set line coding is ZCS.
B8ZS line coding matches the ones-density requirement by using a special
sequence with a bipolar violation in bit positions 4 and 7. Normally, for bipolar
transmission, ones are encoded alternately as a positive then negative, or
456.)
Issue 1
June 1997
Page 454
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