MT9126AS Zarlink Semiconductor, MT9126AS Datasheet - Page 14

MT9126AS

Manufacturer Part Number

MT9126AS

Description

Description = Quad Adpcm (G.726) Transcoder ;; Package Type = Pdip ;; No. Of Pins = 28

Manufacturer

Zarlink Semiconductor

Datasheet

1.MT9126AS.pdf (25 pages)

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MT9126

Processing Delay Through the Device

In order to accommodate variable rate PCM and

ADPCM interfaces, the serial input and output

streams require a complete frame to load internal

shift registers. Internal frame alignment of the

encoding/decoding functions are taken from either of

the F0i or ENB1 & ENB2 input strobes depending

upon the device operating mode (i.e., ST-BUS or

SSI). The encoding/decoding of all channels then

takes one frame to complete before the output

buffers are loaded. This results in a two frame

transcoding delay. The two frame delay also applies

to the D and C channels and to the PCM and

ADPCM bypass functions.(See Figure 10.)

Note: When changing the relative positions of the

ENB1 and ENB2 strobes, precaution must be taken

to ensure that two conditions are met. They are:

1) There must be at least 512 master clock cycles

2) The ENB1 strobe must alternate with the ENB2

Violation of these requirements may cause noise on

the output channels.

8-102

PCMi1/2

ADPCMo

ENB1 or ENB2

F0i

MS1 or 4

Where MS2, 3, 5, 6 = 0

This diagram shows the conversion sequence from PCM to ADPCM. The same pipelining occurs in the

reverse ADPCM to PCM direction.

Total delay from data input to data output = 2 frames.

between consecutive rising edges of ENB1.

This condition also holds true for ENB2.

strobe.

32 kb/s

PCM Byte "X" latched into device

Byte "x"

during frame n-1

frame n-1

Figure 10 - Data Throughput

PCM Byte "X" processed according

24 kb/s

to MSn input states latched during

Applications

Figure 11 depicts an ISDN line card utilizing the

MT8910 ’U’ interface transciever and MT9126

ADPCM transcoder. This central office application

implements the network end of a Pair-Gain system.

Figure 12 shows Mitel devices used to construct the

remote Pair-Gain loop terminator.

Figure 13 depicts an ADPCM to linear PCM

converter for applications where further, value

added, functions are being performed via digital

signal processor. Access to linear coded PCM

reduces the overhead of the DSP by removing the

need for a companded to linear conversion. The

linear PCM capability of the ADPCM transcoder in

conjunction with the frame alignment signal EN1

allows direct connection to the serial port of both

Motorola and Texas Instruments Digital Signal

Processors. Daisy-chaining via the delayed frame

strobe output ensures that the ADPCM array is

distributed over the complete 2048 kbit bandwidth. If

the DSP has a second serial port then access to the

processed PCM can be had directly. For processors

with only one serial port the MT8920 connected to

the DSP parallel port will provide serial access by

parallel to serial conversion. The same daisy-

chained arrangement of Quad ADPCM transcoders

will provide a general system resource for

ADPCM conversion by setting the device to non-

linear operation.

frame n

32 kb/s

Word "x"

ADPCM Word "X" output from

device during frame n+1

frame n+1

Data Sheet

PCM-

MT9126AS Zarlink Semiconductor, MT9126AS Datasheet - Page 14

MT9126AS

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