ST92150JDV1QAuto STMicroelectronics, ST92150JDV1QAuto Datasheet - Page 240

ST92150JDV1QAuto

Manufacturer Part Number

ST92150JDV1QAuto

Description

8/16-bit single voltage Flash MCU family with RAM, E3 TM(emulated EEPROM), CAN 2.0B and J1850 BLPD

Manufacturer

STMicroelectronics

Datasheet

1.ST92150JDV1QAUTO.pdf (430 pages)

Specifications of ST92150JDV1QAuto

Internal Memory

Single Voltage FLASH up to 256 Kbytes, RAM up to 8Kbytes, 1K byte E3 TM (Emulated EEPROM)

Minimum Instruction Time

83 ns (24 MHz int. clock)

Current page: 240 of 430
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ASYNCHRONOUS SERIAL COMMUNICATIONS INTERFACE (Cont’d)

10.6.4.2 Transmitter

The transmitter can send data words of either 8 or

9 bits depending on the M bit status. When the M

bit is set, word length is 9 bits and the 9th bit (the

MSB) has to be stored in the T8 bit in the SCICR1

Character Transmission

During an SCI transmission, data shifts out least

significant bit first on the TDO pin. In this mode,

the SCIDR register consists of a buffer (TDR) be-

tween the internal bus and the transmit shift regis-

ter (see

Procedure

– Select the M bit to define the word length.

– Select the desired baud rate using the SCIBRR

– Set the TE bit to send an idle frame as first trans-

– Access the SCISR register and write the data to

Clearing the TDRE bit is always performed by the

following software sequence:

1. An access to the SCISR register

2. A write to the SCIDR register

The TDRE bit is set by hardware and it indicates:

– The TDR register is empty.

– The data transfer is beginning.

– The next data can be written in the SCIDR regis-

This flag generates an interrupt if the TIE bit is set

in the SCICR2 register and the IMI0 bit is set in the

SIMRH register.

When a transmission is taking place, a write in-

struction to the SCIDR register stores the data in

the TDR register and which is copied in the shift

240/430

and the SCIETPR registers.

mission.

send in the SCIDR register (this sequence clears

the TDRE bit). Repeat this sequence for each

data to be transmitted.

ter without overwriting the previous data.

Figure

117).

When no transmission is taking place, a write in-

struction to the SCIDR register places the data di-

rectly in the shift register, the data transmission

starts, and the TDRE bit is immediately set.

When a frame transmission is complete (after the

stop bit or after the break frame) the TC bit is set

and an interrupt is generated if the TCIE is set and

the IMI0 bit is set in the SIMRH register.

Clearing the TC bit is performed by the following

software sequence:

1. An access to the SCISR register

2. A write to the SCIDR register

Note: The TDRE and TC bits are cleared by the

same software sequence.

LIN Transmission

The same procedure has to be applied with the fol-

lowing differences:

– Clear the M bit to configure 8-bit word length

– Set the LINE bit to enter LIN Master mode. In this

Break Characters

Setting the SBK bit loads the shift register with a

break character. The break frame length depends

on the M bit (see

As long as the SBK bit is set, the SCI sends break

frames to the TDO pin. After clearing this bit by

software, the SCI inserts a logic 1 bit at the end of

the last break frame to guarantee the recognition

of the start bit of the next frame.

Idle Characters

Setting the TE bit drives the SCI to send an idle

frame before the first data frame.

Clearing and then setting the TE bit during a trans-

mission sends an idle frame after the current word.

Note: Resetting and setting the TE bit causes the

data in the TDR register to be lost. Therefore the

best time to toggle the TE bit is when the TDRE bit

is set, i.e. before writing the next byte in the

SCIDR.

case, setting the SBK bit will send 13 low bits.

Figure

118).

ST92150JDV1QAuto STMicroelectronics, ST92150JDV1QAuto Datasheet - Page 240

ST92150JDV1QAuto

Specifications of ST92150JDV1QAuto

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