Preliminary Information
Functional Description
The Quad-channel ADPCM Transcoder is a low
power, CMOS device capable of four encode and
four decode operations per frame. Four 64 kbit/s
channels (PCM octets) are compressed into four 32,
24 or 16 kbit/s ADPCM channels (ADPCM words),
and four 32, 24 or 16 kbit/s ADPCM channels
(ADPCM words) are expanded into four 64 kbit/s
PCM channels (PCM octets). The ADPCM
transcoding algorithm utilized conforms to ITU-T
recommendation G.726 (excluding 40 kb/s), and
ANSI T1.303 - 1989. Switching on-the-fly between
32 and 24 kbit/s transcoding is possible by toggling
the appropriate mode select pins (supports T1
robbed-bit signalling).
All functions supported by the device are pin
selectable. The four encode functions comprise a
common group controlled via Mode Select pins MS1,
MS2 and MS3. Similarily, the four decode functions
form a second group commonly controlled via Mode
Select pins MS4, MS5 and MS6. All other pin
controls are common to the entire transcoder.
The device requires 25 mWatts (MCLK= 4.096 MHz)
typically for four channel transcode operation. A
minimum master clock frequency of 4.096 MHz is
required for the circuit to complete four encode
channels and four decode channels per frame. For
SSI operation a master clock frequency greater than
4.096 MHz and asynchronous, relative to the 8 kHz
frame, is allowed.
The PCM and ADPCM serial busses support both
ST-BUS and Synchronous Serial Interface (SSI)
operation. This allows serial data clock rates from
128 kHz to 4096 kHz, as well as compatibility with
Mitel’s standard Serial Telecom BUS (ST-BUS). For
ST-BUS operation, on chip channel counters provide
channel enable outputs as well as a 2048 kHz bit
clock output which may be used by down-stream
devices utilizing the SSI bus interface.
Linear coded PCM is also supported. In this mode
the encoders compress, four 14-bit, two’s
complement
(S,S,S,12,...,1,0),
uniform
PCM
channels into four 4, 3 or 2 bit ADPCM channels.
Similarly, the decoder expands four 4, 3 or 2 bit
ADPCM channels into four 16-bit, two’s complement
(S,14,...,1,0), uniform PCM channels. The data rate
for both ST-BUS and SSI operation in this mode is
2048 kbit/s.
MT9126
Serial (AD)PCM Data I/O
Serial data transfer to/from the Quad ADPCM
transcoder is provided through one ADPCM and two
PCM ports (ADPCMi, ADPCMo, PCMi1, PCMo1,
PCMi2, PCMo2). Data is transferred through these
ports according to either ST-BUS or SSI
requirements. The device determines the mode of
operation by monitoring the signal applied to the F0i
pin. When a valid ST-BUS frame pulse (244nSec low
going pulse) is applied to the F0i pin the transcoder
will assume ST-BUS operation. If F0i is tied
continuously to V
SS
the transcoder will assume SSI
operation. Pin functionality in each of these modes is
described in the following sub-sections.
ST-BUS Mode
During ST-BUS operation the C2o, EN1, EN2 and
F0od outputs become active and all serial timing is
derived from the MCLK (C4) and F0i inputs while the
BCLK input is tied to V
SS
. (See Figures 7, 8 & 9.)
Basic Rate “D” and “C” Channels
In ST-BUS mode, when ENB1 is brought low,
transparent transport of the ST-BUS "Basic Rate D-
and C-channels" is supported through the PCMi1
and PCMo1 pins. This allows a microprocessor
controlled device, connected to the PCMi/o1 pins, to
access the "D" and "C" channels of a transmission
device connected to the ADPCMi/o pins. When
ENB1 is brought high, the “D” and “C” channel
outputs are tristated. Basic Rate “D” and “C”
channels are not supported in LINEAR mode.(See
Figure 7.)
SSI Mode
During SSI operation the BCLK, ENB1 and ENB2/
F0od inputs become active. The C2o, EN1, and EN2
outputs are forced to a high-impedance state except
during LINEAR operation during which the EN1
output remains active. (See Figures 4, 5 & 6.)
The SSI port is a serial data interface, including data
input and data output pins, a variable rate bit clock
input and two input strobes providing enables for
data transfers. There are three SSI I/O ports on the
Quad ADPCM; the PCMi/o1 PCM port, the PCMi/o2
PCM port, and the ADPCMi/o port. The two PCM
ports may transport 8-bit companded PCM or 16-bit
linear PCM. The alignment of the channels is
determined by the two input strobe signals ENB1
and ENB2/F0od. The bit clock (BCLK) and input
strobes (ENB1 and ENB2/F0od) are common for all
8-37
MITEL [ MITEL NETWORKS CORPORATION ]
