MT8931CP Zarlink Semiconductor, MT8931CP Datasheet - Page 12

MT8931CP

Manufacturer Part Number

MT8931CP

Description

Description = 4 Wire Full-duplex 2B+D (192Kb/s) Data Format Isdn S And T Subscriber Network Interface Circuit ;; Package Type = Pdip ;; No. Of Pins = 28

Manufacturer

Zarlink Semiconductor

Datasheet

1.MT8931CP.pdf (39 pages)

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filtering out jitter which may be present on the

received line port.

The SNIC uses the first four channels on the

ST-BUS (as shown in Figure 4).

distribution of

provides a delayed frame pulse (F0od) to eliminate

the need for a channel

signal is used to drive subsequent devices in the

daisy chain (refer Figure 13).

arrangement, only the first SNIC in the chain will

receive the system frame pulse (F0b) with the

following devices receiving its predecessor’s delayed

output frame pulse (F0od).

The SNIC makes efficient use of its TDM bus

through the Star configuration. It does so by sharing

four common ST-BUS channels to multiple NT

devices.

physically independent S-Busses can be connected

in parallel to realize a star configuration (as shown in

Figure 14). All devices connected into the star will

carry the same input, thus information is sent to all

TEs simultaneously. The 2B+D data received from

every TE is transmitted to all NTs through the STAR

pin. Consequently, all the DSTo streams will carry

identical 2B+D data reflecting what is being

transmitted by the various TEs.

Address Lines

Up to eight SNICs in NT mode with

the

serial

assignment circuit. This

stream,

In this type of

HDLC Address Byte #1 Register

HDLC Address Byte #2 Register

To simplify the

HDLC Interrupt Mask Register

C-channel Control Register

ST-BUS Control Register

HDLC Control Register 1

HDLC Control Register 2

Table 2. SNIC Address Map

Master Control Register

the

S-Bus Tx B1-channel

S-Bus Tx B2-channel

S-Bus Tx D-channel

Control Register 1

DSTo B1-channel

DSTo B2-channel

DSTo C-channel

DSTo D-channel

HDLC Tx FIFO

Not Available

SNIC

Write

The flow of data in the direction of S-Bus to ST-BUS

is transparent to the SNIC, regardless of the state

machine status. On the other hand, the flow of data

in the direction of ST-BUS to S-Bus becomes

transparent only after the state machine is in the

active state (IS0, IS1=1,1), in case of an NT, or in the

synchronization state (IS0, IS1=1), in case of a TE.

Microprocessor/Control Interface

The microprocessor port is compatible with either

Motorola or Intel multiplexed bus signals and timing.

The MOTEL

Compatible bus) uses the level of the DS/RD pin

at the rising edge

appropriate

rising edge of AS/ALE (refer to Figure 26) then

Motorola bus timing is selected. Conversely, if DS/

RD is high at the rising edge of AS/ALE (refer to

Figures 24 & 25), then Intel bus timing is selected.

This has the effect of redefining the microprocessor

port transparently to the user.

The user has the option of writing to the C-channel

Control or Diagnostic Register through the parallel

port interface or through the C-channel on DSTi. Bit

0 of the Master Control Register provides this option.

bus timing.

circuit

HDLC Interrupt Status Register

C-channel Status Register

Master Status Register

HDLC Status Register

S-Bus Rx B1-channel

S-Bus Rx B2-channel

S-Bus Rx D-channel

DSTi B1-channel

DSTi B2-channel

DSTi C-channel

DSTi D-channel

(MOtorola

HDLC Rx FIFO

AS/ALE

Not Available

If DS/RD is low at the

Read

verify

Data Sheet

and

select

InTEL

the

MT8931CP Zarlink Semiconductor, MT8931CP Datasheet - Page 12

MT8931CP

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