MT9075A Mitel Networks Corporation, MT9075A Datasheet - Page 12

MT9075A

Manufacturer Part Number

MT9075A

Description

E1 Single Chip Transceiver

Manufacturer

Mitel Networks Corporation

Datasheet

1.MT9075A.pdf (78 pages)

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MT9075A

4-140

data. Channel alignment and bit numbering is

consistent

numbering. However, channels are numbered 1 to 30

and relate to time slots as per Table 3.

Basic Frame Alignment

Time slot 0 of every basic frame is reserved for basic

frame alignment and contains either a Frame

Alignment Signal (FAS) or a Non-Frame Alignment

Signal (NFAS). FAS and NFAS occur in time slot zero

of consecutive basic frames as shown in Table 7. Bit

two is used to distinguish between FAS (bit two = 0)

and NFAS (bit two = 1).

Basic frame alignment is initiated by a search for the

bit sequence 0011011 which appears in the last

seven bit positions of the FAS, see the Frame

Algorithm section. Bit position one of the FAS can be

either a CRC-4 remainder bit or an international

usage bit.

Bits four to eight of the NFAS (i.e., S

additional spare bits which may be used as follows:

•

A maintenance channel or data link at 4,8,12,16,or

20 kHz for selected S

MT9075A to implement these functions. Note that for

simplicity all S

called national bits throughout this document.

Bit three (designated as “A”), the Remote Alarm

Indication (RAI), is used to indicate the near end

basic frame synchronization status to the far end of a

link. Under normal operation, the A (RAI) bit should

be set to 0, while in alarm condition, it is set to 1.

Bit position one of the NFAS can be either a CRC-4

multiframe

international usage bit. Refer to an approvals

laboratory and national standards bodies for speciﬁc

requirements.

PCM 30

Timeslot

Voice/Data

Channels

Table 3 - Time Slot to Channel Relationship

applications

conforming to G.761).

for operations, maintenance and performance

monitoring.

to S

may be used as a message-based data link

with

alignment

may be used in speciﬁc point-to-point

are for national usage.

bits including S

(e.g.

time

1 2 3...15

signal,

slot

transcoder

bits is provided by the

alignment

are collectively

E-bit

17 18 19...31

16 17 18...30

equipments

- S

and

) are

bit

CRC-4 Multiframing

The primary purpose for CRC-4 multiframing is to

provide a veriﬁcation of the current basic frame

alignment, although it can also be used for other

functions such as bit error rate estimation. The CRC-

4 multiframe consists of 16 basic frames numbered 0

to 15, and has a repetition rate of 16 frames X 125

microseconds/frame = 2 msec.

CRC-4 multiframe alignment is based on the 001011

bit sequence, which appears in bit position one of the

ﬁrst six NFASs of a CRC-4 multiframe.

The

submultiframes, numbered 1 and 2, which are each

eight basic frames or 2048 bits in length.

The CRC-4 frame alignment veriﬁcation functions as

follows. Initially, the CRC-4 operation must be

activated and CRC-4 multiframe alignment must be

achieved at both ends of the link. At the local end of

a link, all the bits of every transmit submultiframe are

passed through a CRC-4 polynomial (multiplied by

four bit remainder. This remainder is inserted in bit

position one of the four FASs of the following

submultiframe before it is transmitted (see Table 7).

The submultiframe is then transmitted and, at the far

end, the same process occurs. That is, a CRC-4

remainder

submultiframe. These bits are compared with the bits

received in position one of the four FASs of the next

received submultiframe. This process takes place in

both directions of transmission.

When more than 914 CRC-4 errors (out of a possible

1000) are counted in a one second interval, the

framing algorithm will force a search for a new basic

frame alignment. See Frame Algorithm section for

more details.

The result of the comparison of the received CRC-4

remainder with the locally generated remainder will

be transported to the far end by the E-bits.

Therefore, if E

a submultiframe 1 received at the far end; and if E

0, a CRC-4 error was discovered in a submultiframe

2 received at the far end. No submultiframe

sequence numbers or re-transmission capabilities

are supported with layer 1 PCM 30 protocol. See

ITU-T G.704 and G.706 for more details on the

operation of CRC-4 and E-bits.

then divided by X

CRC-4

= 0, a CRC-4 error was discovered in

multiframe

generated

Preliminary Information

+ X + 1), which generates a

for

divided

each

into

received

two

MT9075A Mitel Networks Corporation, MT9075A Datasheet - Page 12

MT9075A

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