MT8920B Datasheet, PDF(4/24 Page) Mitel Networks Corporation – ISO-CMOS ST-BUS™ FAMILY ST-BUS Parallel Access Circuit

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MT8920B Datasheet, PDF (4/24 Pages) Mitel Networks Corporation – ISO-CMOS ST-BUS™ FAMILY ST-BUS Parallel Access Circuit

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MT8920B CMOS

Functional Description

The STPA (ST-BUS Parallel Access) device provides

a simple interface between Mitelâs ST-BUS and

parallel system environments. The ST-BUS is a

synchronous, time division, multiplexed serial

bussing scheme with data streams operating at 2048

kbit/s. The ST-BUS is the primary means of access

for voice, data and control information to Mitelâs

family of digital telecommunications components,

including North American and European digital trunk

interfaces, ISDN U and S digital line interfaces, ï¬lter

codecs, rate adapters, etc. The STPA provides

several modes of operation optimized according to

the type of information being handled.

For interfacing parallel data and control information

to the ST-BUS, such as signalling and link control for

digital trunks, the STPA provides a ÂµP access mode

(Mode 1), and looks like a 68000 type peripheral. In

this mode, the device provides powerful interrupt

features, useful in monitoring digital trunk or line

status (i.e., synchronization, alarms, etc.) or for

setting up message communication links between

microprocessors.

To interface high speed data or multi-channel voice/

data to the ST-BUS for switching or transmission, the

STPA has a high speed synchronous access mode

(Mode 2) and acts like a fast RAM. For voice storage

and forward, bulk data transfer, data buffering and

other similar applications, the STPA has a

controllerless mode (Mode 3) in which it provides

address and control signals to the parallel bus This

is useful for performing direct transfers to the

ST-BUS from external devices such as a RAM buffer.

The STPA is a two port device as shown in the

functional block diagram in Figure 1. The parallel

port provides direct access to three dual port RAMâs,

two transmit and one receive. The address, data and

control busses are used to communicate between

the RAMâs and a parallel environment.

Two parallel-to-serial converters, and one

serial-to-parallel converter interface the dual port

RAMâs to the ST-BUS port of the STPA. This port

consists of two serial output streams and one serial

input stream operating at 2048 kbit/s. This

conï¬guration of two outputs and one input was

designed to allow a single STPA to form a complete

control interface to Mitelâs digital trunk interfaces

(MT8976, MT8978 and MT8979) which have two

serial input and one serial output control streams.

ST-BUS clocking circuitry, address generator and

various control and interrupt registers complete the

STPAâs functionality.

Modes of Operation

The three basic modes of operation, ÂµP Peripheral

Mode (Mode 1), Fast RAM Mode (Mode 2) and Bus

Controller Mode (Mode 3) are selected using two

external input pins. These inputs are MMS and MS1

and are decoded as shown in Table 1. Whenever

MMS=1 the device resides in Mode 1. In this mode,

MS1 pin is unavailable and is used for a different

function.

When MMS=0, Modes 2 or 3 are selected as

determined by input MS1. If MS1=1, Mode 2 is

selected and if MS1 =0, Mode 3 is selected.

Each of the modes of the STPA provides a different

pinout to ease interfacing requirements of different

parallel environments. These are shown in Figure 3

below. In ÂµP Peripheral Mode the device uses

interface signals consistent with a 68000-type ÂµP

bus. Mode 2, Fast RAM Mode, uses signals typical

of standard RAM type interfaces. Mode 3 interface

signals are very similiar to Mode 2 signals except

that the address and control signals are supplied as

outputs by the STPA.

ÂµP Peripheral Mode #1

C4i 1

F0i 2

IACK 3

STi0 4

CS 5

DS 6

R/W 7

A0 8

A1 9

A2 10

A3 11

A4 12

A5 13

VSS 14

28 VDD

27 MMS

26 DTACK

25 IRQ

24 STo1

23 STo0

22 D7

21 D6

20 D5

19 D4

18 D3

17 D2

16 D1

15 D0

Fast RAM Mode #2

C4i 1

F0i 2

MS1 3

STi0 4

CS 5

OE 6

R/W 7

A0 8

A1 9

A2 10

A3 11

A4 12

A5 13

VSS 14

28 VDD

27 MMS

26 BUSY

25 24/32

24 STo1

23 STo0

22 D7

21 D6

20 D5

19 D4

18 D3

17 D2

16 D1

15 D0

Bus Controller Mode #3

C4i 1

F0i 2

MS1 3

STi0 4

CS 5

OE 6

WE 7

A0 8

A1 9

A2 10

A3 11

A4 12

STCH 13

VSS 14

28 VDD

27 MMS

26 DCS

25 24/32

24 STo1

23 STo0

22 D7

21 D6

20 D5

19 D4

18 D3

17 D2

16 D1

15 D0

Figure 3 - Modes 1, 2, 3 Pin Connections

3-6

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