PEB 20542 F V1.3 Infineon Technologies, PEB 20542 F V1.3 Datasheet - Page 95

PEB 20542 F V1.3

Manufacturer Part Number

PEB 20542 F V1.3

Description

IC CTRLR DMA SERIAL 2-CH TQFP144

Manufacturer

Infineon Technologies

Series

SEROCCO™r

Datasheet

1.PEB_20542_F_V1.3.pdf (300 pages)

Specifications of PEB 20542 F V1.3

Function

Serial Optimized Communications Controller

Interface

HDLC, PPP

Number Of Circuits

Voltage - Supply

3 V ~ 3.6 V

Current - Supply

50mA

Power (watts)

150mW

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

144-LFQFP

Includes

Bit Processor Functions, Serial Communication Controllers (SCCs)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

PEB20542FV1.3X
SP000007633

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– an ’RME’ interrupt generated by the SCC, and

– the receive abort indication ’RAB’ in the Receive Status Byte (RSTA).

Additionally an optional ’FLEX’ interrupt is generated prior to ’RME’, indicating that the

maximum receive frame length was exceeded.

Receive operation continues with the beginning of the next receive frame.

4.2

PPP (as described in RFC1662) can work over 3 modes: asynchronous HDLC,

synchronous HDLC, and octet synchronous. The SEROCCO-D supports asynchronous

HDLC PPP over ISDN or DDS circuits as well as bit and octet synchronous HDLC PPP

for use over dial-up connections. The octet synchronous mode of PPP protocol (RFC

1662) supports PPP over SONET applications.

Both the asynchronous HDLC PPP mode, as well as the synchronous HDLC PPP

modes are submodes of the HDLC mode. Either mode is selected by configuring

SEROCCO-D for the standard HDLC mode. In addition the appropriate PPP mode is

selected via bit field ’PPPM’ in register CCR2L.

The SEROCCO-D provides logic to convert an HDLC frame to an ASYNC character

stream with the specified mapping functions. Layer 3 PPP functions are normally

implemented in software.

The PPP-support hardware allows software to perform segmentation and reassembly of

PPP payloads, and allows SEROCCO-D to perform the asynchronous HDLC PPP or the

synchronous HDLC PPP protocol conversions as required for the network interface.

4.2.1

The SEROCCO-D transmits a data block, inserts HDLC Header (Opening Flag), and

appends the HDLC Trailer (CRC, Ending Flag). Zero-bit stuffing algorithm is also

performed. No character mapping is performed. The bit-synchronous PPP mode differs

from the HDLC mode (address mode 0) only in the abort sequence:

HDLC requires at least 7 consecutive ’1’ bits as abort sequence, whereas PPP requires

at least 15 ’1’ bits.

For receive operation SEROCCO-D monitors the incoming data stream for the Opening

Flag (7E Hex) to identify the beginning of a HDLC packet. Subsequent bytes are part of

data and are processed as normal HDLC packet including checking of CRC.

4.2.2

The SEROCCO-D transmits a data block, inserts HDLC Header (Opening Flag), and

appends the HDLC Trailer (CRC, Ending Flag). Beside this standard HDLC operation,

zero-bit stuffing is not performed, but character mapping is performed.

Data Sheet

Point-to-Point Protocol (PPP) Modes

Bit Synchronous PPP

Octet Synchronous PPP

Detailed Protocol Description

PEB 20542

PEF 20542

2000-09-14

PEB 20542 F V1.3 Infineon Technologies, PEB 20542 F V1.3 Datasheet - Page 95

PEB 20542 F V1.3

Specifications of PEB 20542 F V1.3

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