MT89L80AN1 ZARLINK [Zarlink Semiconductor Inc], MT89L80AN1 Datasheet - Page 7

MT89L80AN1

Manufacturer Part Number

MT89L80AN1

Description

CMOS ST-BUSTM Family

Manufacturer

ZARLINK [Zarlink Semiconductor Inc]

Datasheet

1.MT89L80AN1.pdf (17 pages)

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If bit 6 of the Control Register is 0, then bits 2 and 0 of each Connection Memory High location function normally

(see Fig. 5). If bit 2 is 1, the associated ST-BUS output channel is in Message Mode; i.e., the byte in the

corresponding Connection Memory Low location is transmitted on the stream at that channel. Otherwise, one of the

bytes received on the serial inputs is transmitted and the contents of the Connection Memory Low define the ST-

BUS input stream and channel where the byte is to be found (see Fig. 6).

If the ODE pin is low, then all serial outputs are high-impedance. If it is high and bit 6 in the Control Register is 1,

then all outputs are active. If the ODE pin is high and bit 6 in the Control Register is 0, then the bit 0 in the

Connection Memory High location enables the output drivers for the corresponding individual ST-BUS output

stream and channel. Bit 0=1 enables the driver and bit 0=0 disables it (see Fig. 5).

Bit 1 of each Connection Memory High location (see Fig. 5) is output on the CSTo pin once every frame. To allow for

delay in any external control circuitry the bit is output one channel before the corresponding channel on the ST-BUS

streams, and the bit for stream 0 is output first in the channel; e.g., bit 1’s for channel 9 of streams 0-7 are output

synchronously with ST-BUS channel 8 bits 7-0.

Applications

Use in a Simple Digital Switching System

Figs. 7 and 8 show how MT89L80s can be used with MT8964s to form a simple digital switching system. Fig. 7

shows the interface between the MT89L80s and the filter/codecs. Fig. 8 shows the position of these components in

an example architecture.

The MT8964 filter/codec in Fig. 7 receives and transmits digitized voice signals on the ST-BUS input D

BUS output D

which is used as a digital speech switch.

The MT8964 is controlled by the ST-BUS input D

appropriate signals from an output channel in Message Mode. This architecture optimizes the messaging capability

*If bit 2 of the corresponding Connection High location is 1 or if bit 6 of the Control Register is 1, then these entire

8 bits are output on the channel and stream associated with this location. Otherwise, the bits are used as indicated

to define the source of the connection which is output on the channel and stream associated with this location.

7-5*

4-0*

Bit

Channel

Address

Stream

Name

Bits*

, respectively. These signals are routed to the ST-BUS inputs and outputs on the top MT89L80,

The number expressed in binary notation on these 3 bits is the number of the ST-BUS

stream for the source of the connection. Bit 7 is the most significant bit. e.g., if bit 7 is 1,

bit 6 is 0 and bit 5 is 0, then the source of the connection is a channel on STi4.

The number expressed in binary notation on these 5 bits is the number of the channel

which is the source of the connection (The ST-BUS stream where the channel lies is

defined by bits 7, 6 and 5.). Bit 4 is the most significant bit. e.g., if bit 4 is 1, bit 3 is 0, bit 2

is 0, bit 1 is 1 and bit 0 is 1, then the source of the connection is channel 19.

Address

Stream

Figure 6 - Connection Memory Low Bits

Bits

Zarlink Semiconductor Inc.

MT89L80

originating from the bottom MT89L80, which generates the

Description

Channel

Address

Bits

Data Sheet

, and ST-

MT89L80AN1 ZARLINK [Zarlink Semiconductor Inc], MT89L80AN1 Datasheet - Page 7

MT89L80AN1

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