IDT72V90823PQFG IDT, Integrated Device Technology Inc, IDT72V90823PQFG Datasheet - Page 6

IDT72V90823PQFG

Manufacturer Part Number

IDT72V90823PQFG

Description

IC DGTL SW 2048X2048 100-PQFP

Manufacturer

IDT, Integrated Device Technology Inc

Series

72Vr

Type

Multiplexerr

Datasheet

1.IDT72V90823PFG.pdf (27 pages)

Specifications of IDT72V90823PQFG

Circuit

1 x 16:16

Independent Circuits

Voltage Supply Source

Single Supply

Voltage - Supply

3 V ~ 3.6 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

100-MQFP, 100-PQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output High, Low

Lead Free Status / RoHS Status

Compliant, Lead free / RoHS Compliant

Other names

72V90823PQFG

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

IDT72V90823PQFG

Manufacturer:

IDT, Integrated Device Technology Inc

Quantity:

10 000

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FUNCTIONAL DESCRIPTION

PCM or N x 64 Kbit/s channel data. The device maintains frame integrity in data

applications and minimum throughput delay for voice applications on a per

channel basis.

4.096 or 8.192 Mb/s and are arranged in 125µs wide frames, which contain

32, 64 or 128 channels respectively. The data rates on input and output streams

are identical.

slots on a per channel basis allowing for transfer of control and status information.

The IDT72V90823 automatically identifies the polarity of the frame synchroni-

zation input signal and configures the serial streams to either ST-BUS

formats.

provided an Input Mode pin (IM) to help integrate the device into different

microprocessor based environments: Non-multiplexed or Multiplexed. These

interfaces provide compatibility with multiplexed and Motorola non-multiplexed

buses. The device can also resolve different control signals eliminating the use

of glue logic necessary to convert the signals (R/W/WR, DS/RD, AS/ALE).

delay using a frame evaluation pin (FE). The input offset delay can be

programmed for individual streams using internal frame input offset registers, see

Table 11.

RX inputs for diagnostic purposes.

DATA AND CONNECTION MEMORY

to-parallel converters and stored sequentially in the data memory. The 8 KHz

input frame pulse (F0i) is used to generate channel and frame boundaries of

the input serial data. Depending on the interface mode select (IMS) register,

the usable data memory may be as large as 2,048 bytes.

data memory or connection memory. For data output from data memory

(connection mode), addresses in the connection memory are used. For data

to be output from connection memory, the connection memory control bits must

set the particular TX output in Processor Mode. One time-slot before the data

is to be output, data from either connection memory or data memory is read

internally. This allows enough time for memory access and parallel-to-serial

conversion.

CONNECTION AND PROCESSOR MODES

channels are stored in the connection memory. The connection memory is

mapped in such a way that each location corresponds to an output channel on

the output streams. For details on the use of the source address data (CAB and

SAB bits), see Table 13 and Table 14. Once the source address bits are

programmed by the microprocessor, the contents of the data memory at the

selected address are transferred to the parallel-to-serial converters and then

onto a TX output stream.

IDT72V90823 3.3V TIME SLOT INTERCHANGE

DIGITAL SWITCH 2,048 x 2,048

The IDT72V90823 is capable of switching up to 2,048 x 2,048, 64 Kbit/s

The serial input streams of the IDT72V90823 can have a bit rate of 2.048,

In Processor Mode, the microprocessor can access input and output time-

With the variety of different microprocessor interfaces, IDT72V90823 has

The frame offset calibration function allows users to measure the frame offset

The internal loopback allows the TX output data to be looped around to the

A functional Block Diagram of the IDT72V90823 is shown in Figure 1.

The received serial data is converted to parallel format by internal serial-

Data to be output on the serial streams (TX0-15) may come from either the

In the Connection Mode, the addresses of the input source data for all output

or GCI

channel, multiple outputs can specify the same input address. This can be a

powerful tool used for broadcasting data.

memory. Each location in the connection memory corresponds to a particular

output stream and channel number and is transferred directly to the parallel-to-

serial converter one time-slot before it is to be output. This data will be output

on the TX streams in every frame until the data is changed by the microprocessor.

also has memory locations to control the outputs based on operating mode.

Specifically, the IDT72V90823 provides five per-channel control bits for the

following functions: processor or connection mode, constant or variable delay,

enables/three-state the TX output drivers and enables/disable the loopback

function. In addition, one of these bits allows the user to control the CCO output.

memory, the TX output will be in a high-impedance state for the duration of that

channel. In addition to the per-channel control, all channels on the ST-BUS

outputs can be placed in a high impedance state by either pulling the ODE input

pin low or programming the Output Stand-By (OSB) bit in the interface mode

selection register. This action overrides the per-channel programming in the

connection memory bits.

interface. The addressing of the devices internal registers, data and connection

memories is performed through the address input pins and the Memory Select

(MS) bit of the control register. For details on device addressing, see Software

Control and Control Register bits description (Table 4, 6 and 7).

SERIAL DATA INTERFACE TIMING

data rates of 2.048, 4.096 or 8.192 Mb/s, the master clock (CLK) must be either

at 4.096, 8.192 or 16.384 MHz respectively. The input and output stream data

rates will always be identical.

GCI and WFP (wide frame pulse). If the WFPS pin is high, the IDT72V90823

is in the wide frame pulse (WFP) frame alignment mode.

ST-BUS

of an input frame pulse and identifies it as either ST-BUS

format, every second falling edge of the master clock marks a bit boundary and

the data is clocked in on the rising edge of CLK, three quarters of the way into

the bit cell, see Figure 7. In GCI format, every second rising edge of the master

clock marks the bit boundary and data is clocked in on the falling edge of CLK

at three quarters of the way into the bit cell, see Figure 8.

WIDE FRAME PULSE (WFP) FRAME ALIGNMENT TIMING

at 16.384 MHz, the FE/HCLK input is 4.096 MHz and the 8 kHz frame pulse

is in ST-BUS

pulse is shown in Figure 9.

However, the frame input offset registers may still be programmed to compensate

for the varying frame delays on the serial input streams.

By having the each location in the connection memory specify an input

In Processor Mode, the microprocessor writes data to the connection

As the IDT72V90823 can be used in a wide variety of applications, the device

If an output channel is set to a high-impedance state through the connection

The connection memory data can be accessed via the microprocessor

The master clock frequency must always be twice the data rate. For serial

The IDT72V90823 provides two different interface timing modes ST-BUS

In ST-BUS

When the device is in WFP frame alignment mode, the CLK input must be

When WFPS pin is high, the frame alignment evaluation feature is disabled.

or GCI format. The IDT72V90823 automatically detects the presence

format. The timing relationship between CLK, HCLK and the frame

/GCI mode, the input 8 KHz frame pulse can be in either

COMMERCIAL TEMPERATURE RANGE

or GCI. In ST-BUS

IDT72V90823PQFG IDT, Integrated Device Technology Inc, IDT72V90823PQFG Datasheet - Page 6

IDT72V90823PQFG

Specifications of IDT72V90823PQFG

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