ST72264G2 STMicroelectronics, ST72264G2 Datasheet - Page 84

ST72264G2

Manufacturer Part Number

ST72264G2

Description

8-bit MCU

Manufacturer

STMicroelectronics

Datasheet

1.ST72262G2.pdf (172 pages)

Specifications of ST72264G2

4 K Or 8 Kbytes Program Memory

ROM or single voltage extended Flash (XFlash) with read-out protection, write protection, In-Circuit Programming and In-Application Programming (ICP and IAP). 10K write/erase cycles guaranteed, data retention

Clock Sources

crystal/ceramic resonator oscillators, internal RC oscillator and bypass for external clock

4 Power Saving Modes

Halt, Active Halt,Wait and Slow

Two 16-bit Timers With

2 input captures, 2 output compares, external clock input on one timer, PWM and Pulse generator modes

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ST72260Gx, ST72262Gx, ST72264Gx

SERIAL PERIPHERAL INTERFACE (Cont’d)

11.4.8 Register Description

CONTROL REGISTER (SPICR)

Read/Write

Reset Value: 0000 xxxx (0xh)

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 an End

Bit 6 = SPE 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

(MODF)" on page

reset, so the SPI peripheral is not initially connect-

ed to the external pins.

0: I/O pins free for general purpose I/O

1: SPI I/O pin alternate functions enabled

Bit 5 = SPR2 Divider Enable.

This bit is set and cleared by software and is

cleared by reset. It is used with the SPR[1:0] bits to

set the baud rate. Refer to

mode SCK

0: Divider by 2 enabled

1: Divider by 2 disabled

Note: This bit has no effect in slave mode.

Bit 4 = MSTR Master Mode.

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

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

(see

(MODF)" on page

0: Slave mode

1: Master mode. The function of the SCK pin

84/172

SPIE SPE

of Transfer event, Master Mode Fault or Over-

run error occurs (SPIF=1, MODF=1 or OVR=1

in the SPICSR register)

changes from an input to an output and the func-

tions of the MISO and MOSI pins are reversed.

Section 11.4.5.1 "Master Mode Fault

Frequency.

SPR2

MSTR

81).

81). The SPE bit is cleared by

CPOL

Table 16 SPI Master

CPHA

SPR1

SPR0

Bit 3 = CPOL Clock Polarity.

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

termines the idle state of the serial Clock. The

CPOL bit affects both the master and slave

modes.

0: SCK pin has a low level idle state

1: SCK pin has a high level idle state

Note: If CPOL is changed at the communication

byte boundaries, the SPI must be disabled by re-

setting the SPE bit.

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

Note: The slave must have the same CPOL and

CPHA settings as the master.

Bits 1:0 = SPR[1:0] Serial Clock Frequency.

These bits are set and cleared by software. Used

with the SPR2 bit, they select the baud rate of the

SPI serial clock SCK output by the SPI in master

mode.

Note: These 2 bits have no effect in slave mode.

Table 16. SPI Master mode SCK Frequency

edge.

Serial Clock

CPU

/128

/16

/32

/64

SPR2

SPR1

SPR0

ST72264G2 STMicroelectronics, ST72264G2 Datasheet - Page 84

ST72264G2

Specifications of ST72264G2

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