AT91RM3400-DK Atmel, AT91RM3400-DK Datasheet - Page 320

AT91RM3400-DK

Manufacturer Part Number

AT91RM3400-DK

Description

KIT DEV FOR AT91RM3400

Manufacturer

Atmel

Series

AT91SAM Smart ARMr

Type

MCUr

Datasheets

1.AT91RM3400-DK.pdf (461 pages)

2.AT91RM3400-DK.pdf (2 pages)

3.AT91RM3400-DK.pdf (25 pages)

Specifications of AT91RM3400-DK

Contents

Evaluation Board, Software and Documentation

Processor To Be Evaluated

AT91RM3400

Data Bus Width

32 bit

Interface Type

RS-232, USB

For Use With/related Products

AT91RM3400

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Frame Sync

Frame Sync Data

Frame Sync Edge

Detection

Data Format

320

AT91RM3400

The Transmitter and Receiver Frame Sync pins, TF and RF, can be programmed to generate

different kinds of frame synchronization signals. The Frame Sync Output Selection (FSOS)

field in the Receive Frame Mode Register (SSC_RFMR) and in the Transmit Frame Mode

•

If a pulse waveform is selected, the Frame Sync Length (FSLEN) field in SSC_RFMR and

SSC_TFMR programs the length of the pulse, from 1-bit time up to 16-bit time.

The periodicity of the Receive and Transmit Frame Sync pulse output can be programmed

through the Period Divider Selection (PERIOD) field in SSC_RCMR and SSC_TCMR.

Frame Sync Data transmits or receives a specific tag during the Frame Synchro signal.

During the Frame Sync signal, the Receiver can sample the RD line and store the data in the

Receive Sync Holding Register and the transmitter can transfer Transmit Sync Holding Regis-

ter in the Shifter Register. The data length to be sampled/shifted out during the Frame Sync

signal is programmed by the FSLEN field in SSC_RFMR/SSC_TFMR.

Concerning the Receive Frame Sync Data operation, if the Frame Sync Length is equal to or

lower than the delay between the start event and the actual data reception, the data sampling

operation is performed in the Receive Sync Holding Register through the Receive Shift

The Transmit Frame Sync Operation is performed by the transmitter only if the bit Frame Sync

Data Enable (FSDEN) in SSC_TFMR is set. If the Frame Sync length is equal to or lower than

the delay between the start event and the actual data transmission, the normal transmission

has priority and the data contained in the Transmit Sync Holding Register is transferred in the

Transmit Register then shifted out.

T h e F r a m e S y n c E d g e d e t e c t i o n i s p r o g r a m m e d b y t h e F S E D G E f i e l d i n

SSC_RFMR/SSC_TFMR. This sets the corresponding flags RXSYN/TXSYN in the SSC Sta-

tus Register (SSC_SR) on frame synchro edge detection (signals RF/TF).

The data framing format of both the transmitter and the receiver are largely programmable

through the Transmitter Frame Mode Register (SSC_TFMR) and the Receiver Frame Mode

•

Programmable low or high levels during data transfer are supported.

Programmable high levels before the start of data transfers or toggling are also supported.

The event that starts the data transfer (START).

The delay in number of bit periods between the start event and the first data bit (

The length of the data (DATLEN)

The number of data to be transferred for each start event (DATNB).

The length of Synchronization transferred for each start event (FSLEN).

The bit sense: most or lowest significant bit first (MSBF).

Additionally, the transmitter can be used to transfer Synchronization and select the level

driven on the TD pin while not in data transfer operation. This is done respectively by the

Frame Sync Data Enable (FSDEN) and by the Data Default Value (DATDEF) bits in

SSC_TFMR.

1790A–ATARM–11/03

STTDLY

AT91RM3400-DK Atmel, AT91RM3400-DK Datasheet - Page 320

AT91RM3400-DK

Specifications of AT91RM3400-DK

Related parts for AT91RM3400-DK