MC9S12HY64 Datasheet, PDF(472/792 Page) Freescale Semiconductor, Inc – S12 Microcontrollers

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MC9S12HY64 Datasheet, PDF (472/792 Pages) Freescale Semiconductor, Inc – S12 Microcontrollers

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Serial Peripheral Interface (S12SPIV5)

The main element of the SPI system is the SPI data register. The n-bit1 data register in the master and the

n-bit1 data register in the slave are linked by the MOSI and MISO pins to form a distributed 2n-bit1

register. When a data transfer operation is performed, this 2n-bit1 register is serially shifted n1 bit positions

by the S-clock from the master, so data is exchanged between the master and the slave. Data written to the

master SPI data register becomes the output data for the slave, and data read from the master SPI data

register after a transfer operation is the input data from the slave.

A read of SPISR with SPTEF = 1 followed by a write to SPIDR puts data into the transmit data register.

When a transfer is complete and SPIF is cleared, received data is moved into the receive data register. This

data register acts as the SPI receive data register for reads and as the SPI transmit data register for writes.

A common SPI data register address is shared for reading data from the read data buffer and for writing

data to the transmit data register.

The clock phase control bit (CPHA) and a clock polarity control bit (CPOL) in the SPI control register 1

(SPICR1) select one of four possible clock formats to be used by the SPI system. The CPOL bit simply

selects a non-inverted or inverted clock. The CPHA bit is used to accommodate two fundamentally

different protocols by sampling data on odd numbered SCK edges or on even numbered SCK edges (see

Section 13.4.3, âTransmission Formatsâ).

The SPI can be conï¬gured to operate as a master or as a slave. When the MSTR bit in SPI control register1

is set, master mode is selected, when the MSTR bit is clear, slave mode is selected.

NOTE

A change of CPOL or MSTR bit while there is a received byte pending in

the receive shift register will destroy the received byte and must be avoided.

13.4.1 Master Mode

The SPI operates in master mode when the MSTR bit is set. Only a master SPI module can initiate

transmissions. A transmission begins by writing to the master SPI data register. If the shift register is

empty, data immediately transfers to the shift register. Data begins shifting out on the MOSI pin under the

control of the serial clock.

â¢ Serial clock

The SPR2, SPR1, and SPR0 baud rate selection bits, in conjunction with the SPPR2, SPPR1, and

SPPR0 baud rate preselection bits in the SPI baud rate register, control the baud rate generator and

determine the speed of the transmission. The SCK pin is the SPI clock output. Through the SCK

pin, the baud rate generator of the master controls the shift register of the slave peripheral.

â¢ MOSI, MISO pin

In master mode, the function of the serial data output pin (MOSI) and the serial data input pin

(MISO) is determined by the SPC0 and BIDIROE control bits.

â¢ SS pin

If MODFEN and SSOE are set, the SS pin is conï¬gured as slave select output. The SS output

becomes low during each transmission and is high when the SPI is in idle state.

1. n depends on the selected transfer width, please refer to Section 13.3.2.2, âSPI Control Register 2 (SPICR2)

MC9S12HY/HA-Family Reference Manual, Rev. 1.04

472

Freescale Semiconductor

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