ZL50075 Datasheet, PDF(20/60 Page) Zarlink Semiconductor Inc – 32 K Channel Digital Switch with High Jitter Tolerance, Rate Conversion per Group of 2 Streams (8, 16, 32 or 64 Mbps), and 64 Inputs and 64 Outputs

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ZL50075 Datasheet, PDF (20/60 Pages) Zarlink Semiconductor Inc – 32 K Channel Digital Switch with High Jitter Tolerance, Rate Conversion per Group of 2 Streams (8, 16, 32 or 64 Mbps), and 64 Inputs and 64 Outputs

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ZL50075

Data Sheet

To increase programming bandwidth, the ZL50075 has separate addressable 32 bit memory locations, called

Connection Memory Least Significant Bytes (LSB), which provide direct access to the Connection Memoriesâ

Lowest data bytes (bits 7 - 0). Up to four consecutive message mode channels can be set with one Connection

Memory LSB access. Refer to Section 14.1.2, Connection Memory LSB, for programming details.

6.1 Data Memory Read

All TDM input channels can be read via the microprocessor port. This feature is useful for receiving control and

status information from external circuits or other TDM devices. Each 32 bit Data Memory access enables up to four

consecutive input channels to be monitored. The Data Memory field is read only; any attempt to write to this

address range will result in a bus error condition signalled back to the host processor. Refer to Section 14.2, Data

Memory, for programming details.

The latency of data reads is up to 3 frames, depending on when the input timeslots are sampled.

6.2 Connection Memory Block Programming

See Section 14.7, Block Init Register, and Section 14.8, Block Init Enable Register, for programming details.

This feature allows for fast initialization of the connection memory after power up. When the block programming

mode is enabled, the contents of Block Init Register are written to all Connection Memory Bits. This operation

completes in one 125 Âµs frame. During Connection Memory initialization, all TDM output streams are set to high

impedance.

7.0 Data Delay Through the Switching Paths

See Section 14.1.1, Connection Memory Bit Functions, for programming details.

The switching of information from the input serial streams to the output serial streams results in a throughput delay.

The device can be programmed to perform timeslot interchange functions with different throughput delay

capabilities on a per-channel basis. For voice applications, select variable throughput delay to ensure minimum

delay between input and output data. In wideband data application, select constant delay to maintain the frame

integrity of the information through the switch. The delay through the device varies according to the type of

throughput delay selected by programming the Per Channel Function (bits 31 - 29) in the Connection Memories.

When these bits are set to 011, the channel is in variable delay mode. When they are set to 100, the channel is in

constant delay mode.

7.1 Constant Delay Mode

In this mode the frame integrity is maintained in all switching configurations. The delay though the switch is 2

frames - Input Channel + Output Channel. This can result in a minimum delay of 1 frame + 1 channel if the last

channel of a stream is switched to the first channel of a stream. The maximum delay is 1 channel short of 3 frames

delay. This occurs when the first channel of a stream is switched to the last channel of a stream.

The data throughput delay is expressed as a function of ST-BUS/GCI-Bus frames, input channel number (n) and

output channel number (m). The data throughput delay (T) is:

T = 2 frames + (n - m)

Zarlink Semiconductor Inc.

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