Freescale Semiconductor
MC9S12C-Family / MC9S12GC-Family
413
Rev 01.24
Chapter 14
Serial Peripheral Interface (SPIV3) Block Description
14.1
Introduction
The SPI module allows a duplex, synchronous, serial communication between the MCU and peripheral
devices. Software can poll the SPI status flags or the SPI operation can be interrupt driven.
14.1.1
Features
The SPIV3 includes these distinctive features:
•
Master mode and slave mode
•
Bidirectional mode
•
Slave select output
•
Mode fault error flag with CPU interrupt capability
•
Double-buffered data register
•
Serial clock with programmable polarity and phase
•
Control of SPI operation during wait mode
14.1.2
Modes of Operation
The SPI functions in three modes, run, wait, and stop.
•
Run Mode
This is the basic mode of operation.
•
Wait Mode
SPI operation in wait mode is a configurable low power mode, controlled by the SPISWAI bit
located in the SPICR2 register. In wait mode, if the SPISWAI bit is clear, the SPI operates like in
Run Mode. If the SPISWAI bit is set, the SPI goes into a power conservative state, with the SPI
clock generation turned off. If the SPI is configured as a master, any transmission in progress stops,
but is resumed after CPU goes into Run Mode. If the SPI is configured as a slave, reception and
transmission of a byte continues, so that the slave stays synchronized to the master.
•
Stop Mode
The SPI is inactive in stop mode for reduced power consumption. If the SPI is configured as a
master, any transmission in progress stops, but is resumed after CPU goes into run mode. If the SPI
is configured as a slave, reception and transmission of a byte continues, so that the slave stays
synchronized to the master.
This is a high level description only, detailed descriptions of operating modes are contained in
Section 14.4, “Functional Description
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Summary of Contents for MC9S12C Family
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