ST72361J6 STMicroelectronics, ST72361J6 Datasheet - Page 151

ST72361J6

Manufacturer Part Number

ST72361J6

Description

8-bit MCU

Manufacturer

STMicroelectronics

Datasheet

1.ST72361AR7.pdf (225 pages)

Specifications of ST72361J6

Hdflash Endurance

100 cycles, data retention 40 years at 85°C

5 Power Saving Modes

Halt, Auto Wake Up From Halt, Active Halt, Wait and Slow

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10.8 LINSCI SERIAL COMMUNICATION INTERFACE (LIN Master Only)

10.8.1 Introduction

The Serial Communications Interface (SCI) offers

a flexible means of full-duplex data exchange with

external equipment requiring an industry standard

NRZ asynchronous serial data format. The SCI of-

fers a very wide range of baud rates using two

baud rate generator systems.

10.8.2 Main Features

■

– Address bit (MSB)

– Idle line

– Overrun error

– Noise error

– Frame error

– Parity error

– Transmit data register empty

– Transmission complete

– Receive data register full

– Idle line received

– Overrun error detected

– Transmits parity bit

– Checks parity of received data byte

Full duplex, asynchronous communications

NRZ standard format (Mark/Space)

Dual baud rate generator systems

Independently programmable transmit and

receive baud rates up to 500K baud.

Programmable data word length (8 or 9 bits)

Receive buffer full, Transmit buffer empty and

End of Transmission flags

2 receiver wake-up modes:

Muting function for multiprocessor configurations

Separate enable bits for Transmitter and

Receiver

4 error detection flags:

5 interrupt sources with flags:

Transmitter clock output

Parity control:

Reduced power consumption mode

LIN Synch Break send capability

10.8.3 General Description

The interface is externally connected to another

device by three pins (see

Any SCI bidirectional communication requires a

minimum of two pins: Receive Data In (RDI) and

Transmit Data Out (TDO):

– SCLK: Transmitter clock output. This pin outputs

– TDO: Transmit Data Output. When the transmit-

– RDI: Receive Data Input is the serial data input.

Through these pins, serial data is transmitted and

received as frames comprising:

– An Idle Line prior to transmission or reception

– A start bit

– A data word (8 or 9 bits) least significant bit first

– A Stop bit indicating that the frame is complete.

This interface uses two types of baud rate generator:

– A conventional type for commonly-used baud

– An extended type with a prescaler offering a very

the transmitter data clock for synchronous trans-

mission (no clock pulses on start bit and stop bit,

and a software option to send a clock pulse on

the last data bit). This can be used to control pe-

ripherals that have shift registers (e.g. LCD driv-

ers). The clock phase and polarity are software

programmable.

ter is disabled, the output pin returns to its I/O

port configuration. When the transmitter is ena-

bled and nothing is to be transmitted, the TDO

pin is at high level.

Oversampling techniques are used for data re-

covery by discriminating between valid incoming

data and noise.

rates,

wide range of baud rates even with non-standard

oscillator frequencies.

Figure 88 on page

ST72361

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153).

ST72361J6 STMicroelectronics, ST72361J6 Datasheet - Page 151

ST72361J6

Specifications of ST72361J6

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