2 serial peripheral interface (spi), 1 master mode, 2 slave mode – Freescale Semiconductor MCF5480 User Manual

MCF548x Reference Manual, Rev. 3

27-20

Freescale Semiconductor

State transitions from running to stopped occur on the next frame boundary if a transfer is in progress, or

on the next system clock cycle if no transfers are in progress.

27.7.2

Serial Peripheral Interface (SPI)

The SPI transfers data serially using a shift register and a selection of programmable transfer attributes.

The SPI frames can be from 4 to 16 bits long. The data to be transmitted can come from queues stored in

RAM external to the DSPI. Host software or the DMA controller can transfer the SPI data from the queues

to a FIFO. The received data is stored in entries in the receive FIFO (Rx FIFO) buffer. Host software or

the DMA controller transfer the received data from the Rx FIFO to memory external to the DSPI. The

FIFO buffer operations are described in

Section 27.7.2.4, “Tx FIFO Buffering Mechanism

” and

Section 27.7.2.5, “Rx FIFO Buffering Mechanism

.” The interrupt and DMA request conditions are

described in

Section 27.7.6, “Interrupts/DMA Requests

.”

The SPI supports two block-specific modes: master mode and slave mode. The FIFO operations are similar

for both modes. The main difference is that in master mode the DSPI initiates and controls the transfer

according to the fields in the SPI command field of the Tx FIFO entry. In slave mode, the DSPI only

responds to transfers initiated by a bus master external to the DSPI, and the SPI command field of the Tx

FIFO entry is ignored.

27.7.2.1

Master Mode

In SPI master mode, the DSPI initiates the serial transfers by controlling the serial communications clock

(DSPISCK) and the peripheral chip select (DSPICSn) signals. The SPI command field in the executing Tx

FIFO entry determines which DCTAR register will be used to set the transfer attributes and which

DSPICSn signals to assert. The command field also contains various bits that help with queue management

and transfer protocol. See

Section 27.6.6, “DSPI Tx FIFO Register (DTFR)

” for details on the SPI

command fields. The data field in the executing Tx FIFO entry is loaded into the shift register and shifted

out on the serial out (DSPISOUT) pin. In SPI master mode, each SPI frame to be transmitted has a

command associated with it, allowing for transfer attribute control on a frame-by-frame basis.

27.7.2.2

Slave Mode

In SPI slave mode, the DSPI responds to transfers initiated by an SPI bus master. The DSPI does not

initiate transfers. Certain transfer attributes such as clock polarity, clock phase, and frame size must be set

Table 27-14. State Transitions for Start and Stop of DSPI Transfers

Transition # Current State Next State

Description

0

Reset

Stopped

Generic power-on-reset transition

1

Stopped

Running

The DSPI is started (DSPI transitions to Running) when all of the following
conditions are true:
• EOQF bit is clear
• Debug mode is unselected or the FRZ bit is clear
• HALT bit is clear

2

Running

Stopped

The DSPI stops (transitions from Running to Stopped) after the current frame
for any one of the following conditions:
• EOQF bit is set
• Debug mode is selected and the FRZ bit is set
• HALT bit is set