ST92124V1Q-Auto STMicroelectronics, ST92124V1Q-Auto Datasheet - Page 260

ST92124V1Q-Auto

Manufacturer Part Number

ST92124V1Q-Auto

Description

8-bit MCU for automotive

Manufacturer

STMicroelectronics

Datasheet

1.ST92150JDV1QAUTO.pdf (430 pages)

Specifications of ST92124V1Q-Auto

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)

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SERIAL PERIPHERAL INTERFACE (Cont’d)

10.7.6 Register Description

DATA REGISTER (SPDR)

R240 - Read/Write

Reset Value: 0000 0000 (00h)

The SPDR register is used to transmit and receive

data on the serial bus. In the master device only a

write to this register will initiate transmission/re-

ception of another byte.

Notes: During the last clock cycle the SPIF bit is

set, a copy of the received data byte in the shift

the serial peripheral data register, the buffer is ac-

tually being read.

Warning: A write to the SPDR register places data

directly into the shift register for transmission.

A read to the SPDR register returns the value lo-

cated in the buffer and not the content of the shift

CONTROL REGISTER (SPCR)

R241 - Read/Write

Reset Value: 0000 0000 (00h)

Bit 7 = SPIE Serial peripheral interrupt enable.

This bit is set and cleared by software.

0: Interrupt is inhibited

1: An SPI interrupt is generated whenever either

Bit 6 = SPOE Serial peripheral output enable.

This bit is set and cleared by software. It is also

cleared by hardware when, in master mode, SS=0

(see

0: SPI alternate functions disabled (MISO, MOSI

1: SPI alternate functions enabled (MISO, MOSI

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SPIE

SPIF or MODF are set in the SPSR register

while the other flag is 0.

and SCK can only work as input)

and SCK can work as input or output depending

on the value of MSTR)

Section 10.7.4.5 Master Mode

SPOE SPIS MSTR

Figure

121).

CPOL

CPHA

Fault).

SPR1

SPR0

Note: To use the MISO, MOSI and SCK alternate

functions (input or output), the corresponding I/O

port must be programmed as alternate function

output.

Bit 5 = SPIS Interrupt Selection.

This bit is set and cleared by software.

0: Interrupt source is external interrupt

1: Interrupt source is SPI

Bit 4 = MSTR Master.

This bit is set and cleared by software. It is also

cleared by hardware when, in master mode, SS=0

(see

0: Slave mode is selected

1: Master mode is selected, the function of the

Bit 3 = CPOL Clock polarity.

This bit is set and cleared by software. This bit de-

termines the steady state of the serial Clock. The

CPOL bit affects both the master and slave

modes.

0: The steady state is a low value at the SCK pin.

1: The steady state is a high value at the SCK pin.

Bit 2 = CPHA Clock phase.

This bit is set and cleared by software.

0: The first clock transition is the first data capture

1: The second clock transition is the first capture

Bit 1:0 = SPR[1:0] Serial peripheral rate.

These bits are set and cleared by software. They

select one of four baud rates to be used as the se-

rial clock when the device is a master.

These 2 bits have no effect in slave mode.

Table 49. Serial Peripheral Baud Rate

SCK pin changes from an input to an output and

the functions of the MISO and MOSI pins are re-

versed.

edge.

INTCLK Clock Divide

Section 10.7.4.5 Master Mode

SPR1

Fault).

SPR0

ST92124V1Q-Auto STMicroelectronics, ST92124V1Q-Auto Datasheet - Page 260

ST92124V1Q-Auto

Specifications of ST92124V1Q-Auto

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