SAB 82525 N V2.2 Infineon Technologies, SAB 82525 N V2.2 Datasheet - Page 50

SAB 82525 N V2.2

Manufacturer Part Number

SAB 82525 N V2.2

Description

IC CONTROLLER HSCX PLCC-44

Manufacturer

Infineon Technologies

Datasheet

1.SAB_82525_H_V2.2.pdf (126 pages)

Specifications of SAB 82525 N V2.2

Controller Type

Serial Communications Controller (SCC)

Interface

Serial

Voltage - Supply

4.75 V ~ 5.25 V

Current - Supply

8mA

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

44-PLCC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

SAB82525NV2.2XT
SAB82525NV22XK
SP000063649
SP000084997

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Clock Mode 1 (Receive/Transmit Strobes)

Externally generated, but identical receive and transmit clocks are forwarded via R CLK pins.

In addition, a receive strobe can be connected via A CLK and a transmit strobe via T CLK

pins. The operating mode can be applied in time division multiplex applications or for adjusting

disparate transmit and receive data rates.

Clock Mode 2 (Receive Clock from DPLL)

The BRG is driven with an external clock (R CLK) and it delivers a reference clock for the

DPLL which in turn generate the receive clock. Depending on the programming of the CCR2

delivered by the BRG divided by 16. In this case, the transmit clock can be output via T CLK

(CCR2 : TIO = 1).

Clock Mode 3 (Receive and Transmit Clock from DPLL)

The BRG is fed with an externally generated clock via R CLK and supplies the reference clock

for DPLL, which generates both the receive and transmit clock. This clock can also be output

via T CLK pin.

Clock Mode 4 (OSC-Direct)

The receive and transmit clocks are directly supplied by the OSC. In addition this clock can

be output via T CLK.

Clock Mode 5 (Time-Slots)

This operating mode has been designed for application in time-slot oriented PCM systems.

The receive and transmit clock is identical for each channel and must be supplied externally

via R

programmable width (1. . .256 bit, via RCCR and XCCR registers) and location with respect to

a frame synchronization signal, which must be delivered to the HSCX via the

transmit direction via TSAR and TSAX registers, and an additional clock shift of 0…7 bits via

TSAR, TSAX, and CCR2 registers. Together with bits XCS0 and RCS0 (LSB of clock shift),

located in the CCR2 register, there are 9 bits to determine the location of a time-slot.

According to the value programmed via those bits, the receive/transmit window (time-slot)

starts with a delay of 1 (minimum delay) up to 512 clock periods following the frame

synchronization signal and is active during the number of clock periods programmed via

RCCR, XCCR (number of bits to be received/transmitted within a time-slot) as shown in

figure 23.

Semiconductor Group

CLK pin. One of up to 64 time-slots can be programmed independently for receive and

CLK pins. The HSCX receives and transmits only during certain time-slots of

SAB 82525

SAB 82526

SAF 82525

SAF 82526

SAB 82525 N V2.2 Infineon Technologies, SAB 82525 N V2.2 Datasheet - Page 50

SAB 82525 N V2.2

Specifications of SAB 82525 N V2.2

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