7 serial host interface, 1 introduction, Serial host interface -1 – Freescale Semiconductor DSP56366 User Manual

DSP56366 24-Bit Digital Signal Processor User Manual, Rev. 4

Freescale Semiconductor

7-1

7

Serial Host Interface

7.1

Introduction

The Serial Host Interface (SHI) is a serial I/O interface that provides a path for communication and
program/coefficient data transfers between the DSP and an external host processor. The SHI can also
communicate with other serial peripheral devices. The SHI supports two well-known and widely used
synchronous serial buses: the Freescale Serial Peripheral Interface (SPI) bus and the Philips
Inter-Integrated-Circuit Control (I

2

C) bus. The SHI supports either bus protocol as either a slave or a

single-master device. To minimize DSP overhead, the SHI supports 8-bit, 16-bit and 24-bit data transfers.
The SHI has a 1 or 10-word receive FIFO that permits receiving up to 30 bytes before generating a receive
interrupt, reducing the overhead for data reception.

When configured in the SPI mode, the SHI can perform the following functions:

•

Identify its slave selection (in slave mode)

•

Simultaneously transmit (shift out) and receive (shift in) serial data

•

Directly operate with 8-, 16- and 24-bit words

•

Generate vectored interrupts separately for receive and transmit events and update status bits

•

Generate a separate vectored interrupt for a receive exception

•

Generate a separate vectored interrupt for a bus-error exception

•

Generate the serial clock signal (in master mode)

•

Trigger DMA interrupts to service the transmit and receive events

When configured in the I

2

C mode, the SHI can perform the following functions:

•

Detect/generate start and stop events

•

Identify its slave (ID) address (in slave mode)

•

Identify the transfer direction (receive/transmit)

•

Transfer data byte-wise according to the SCL clock line

•

Generate ACK signal following a byte receive

•

Inspect ACK signal following a byte transmit

•

Directly operate with 8-, 16- and 24-bit words

•

Generate vectored interrupts separately for receive and transmit events and update status bits

•

Generate a separate vectored interrupt for a receive exception

•

Generate a separate vectored interrupt for a bus error exception

•

Generate the clock signal (in master mode)

•

Trigger DMA interrupts to service the transmit and receive events