PSB 21393 H V1.3 Infineon Technologies, PSB 21393 H V1.3 Datasheet - Page 47

PSB 21393 H V1.3

Manufacturer Part Number

PSB 21393 H V1.3

Description

IC CODEC W/TRANSCEIVER MQFP-44

Manufacturer

Infineon Technologies

Series

SCOUT™r

Datasheet

1.PSB_21391_H_V1.3.pdf (253 pages)

Specifications of PSB 21393 H V1.3

Function

CODEC

Interface

IOM-2, SCI, UPN

Number Of Circuits

Voltage - Supply

3.3V, 5V

Current - Supply

27mA

Mounting Type

Surface Mount

Package / Case

44-BQFP

Includes

Activation and Deactivation, Channel Handler, DTMF / Tone / Ringing Generator, HDLC Controller, Speakerphone, UPN Transceiver

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power (watts)

Operating Temperature

Other names

PSB21393HV1.3XT
PSB21393HV13XP
SP000007533
SP000007534

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2.2.2.1.4 Synchronous Transfer

While looping, shifting and switching (see figure 21 and 22) the data can be accessed by

the controller between the synchronous transfer interrupt (STI) and the synchronous

transfer overflow interrupt (STOV).

The microcontroller access to the CDAxy registers can be synchronized by means of

four programmable synchronous transfer interrupts (STIxy) and synchronous transfer

overflow interrupts (STOVxy) in the STI register.

Depending on the DPS bit in the corresponding CDA_TSDPxy register the STIxy is

generated two (for DPS=’0’) or one (for DPS=’1’) BCL clock after the selected time slot

(CDA_TSDPxy.TSS). One BCL clock is equivalent to two DCL clocks.

A non masked synchronous transfer overflow (STOVx

appropriate STIx

if bit ACKx

clocks (for DPS=’1’) before the time slot which is selected for the appropriate STOVx

If STIx

example a), c) and d) of figure 20).

If STIx

STIxy (see example b) and d) of figure 20).

Setting the corresponding bits in the MSTI (Mask Synchronous Transfer Interrupts)

synchronous transfer is shown in figure 19. Examples of the described synchronous

transfer interrupt controlling are illustrated in Figure 20. A read to the STI register clears

the STIxy and STOVxy interrupts.

Figure 19

Interrupt Structure of the Synchronous Data Transfer

Data Sheet

HDLC

TRAN

WOV

MOS

MASK

TIN

CIC

INT

is masked but STOVx

and STOVx

in the ASTI register is set to ’1’ one BCL clock (for DPS=’0’) or zero BCL

HDLC

TRAN

MOS

WOV

ISTA

CIC

TIN

is not acknowledged in time. The STIx

are not masked STOVx

is not masked, STOVx

STOV20

STOV21

STOV11

STOV10

MSTI

STI20

STI11

STI10

STI21

STOV10

is only related to STIx

STOV20

STOV11

STOV21

STI21

STI20

STI11

STI10

) interrupt is generated if the

STI

is related to each enabled

is acknowledged in time

ACK10

ACK21

ACK11

ACK20

ASTI

PSB 21391

PSB 21393

Interfaces

2001-03-07

(see

PSB 21393 H V1.3 Infineon Technologies, PSB 21393 H V1.3 Datasheet - Page 47

PSB 21393 H V1.3

Specifications of PSB 21393 H V1.3

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