User's Guide

SPRU997C – December 2009

Universal Asynchronous Receiver/Transmitter (UART)

1Introduction

This document describes the universal asynchronous receiver/transmitter (UART) peripheral in the TMS320DM643x Digital Media Processor (DMP) .

1.1Purpose of the Peripheral

The UART peripheral is based on the industry standard TL16C550 asynchronous communications element, which in turn is a functional upgrade of the TL16C450. Functionally similar to the TL16C450 on power up (single character or TL16C450 mode), the UART can be placed in an alternate FIFO (TL16C550) mode. This relieves the CPU of excessive software overhead by buffering received and transmitted characters. The receiver and transmitter FIFOs store up to 16 bytes including three additional bits of error status per byte for the receiver FIFO.

The UART performs serial-to-parallel conversions on data received from a peripheral device and parallel-to-serial conversion on data received from the CPU. The CPU can read the UART status at any time. The UART includes control capability and a processor interrupt system that can be tailored to minimize software management of the communications link.

The UART includes a programmable baud generator capable of dividing the UART input clock by divisors from 1 to 65 535 and producing a 16 × reference clock for the internal transmitter and receiver logic. For detailed timing and electrical specifications for the UART, see the device specific data manual.

1.2Features

The UART peripheral has the following features:

Programmable baud rates up to 128 kbps (frequency pre-scale values from 1 to 65535)

Fully programmable serial interface characteristics:

5, 6, 7, or 8-bit characters

Even, odd, or no PARITY bit generation and detection

1, 1.5, or 2 STOP bit generation

16-byte depth transmitter and receiver FIFOs:

The UART can be operated with or without the FIFOs

1, 4, 8, or 14 byte selectable receiver FIFO trigger level for autoflow control and DMA

DMA signaling capability for both received and transmitted data

CPU interrupt capability for both received and transmitted data

Operates in little-endian mode

False START bit detection

Line break generation and detection

Internal diagnostic capabilities:

Loopback controls for communications link fault isolation

Break, parity, overrun, and framing error simulation

Programmable autoflow control using CTS and RTS signals (not supported on all UARTs. See the device-specific data manual for supported features.)

Modem control functions using CTS and RTS signals (not supported on all UARTs. See the device-specific data manual for supported features.)

SPRU997C –December 2009

Universal Asynchronous Receiver/Transmitter (UART)

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Texas Instruments TMS320DM643X DMP manual Purpose of the Peripheral, Features