LM3S608-IQN50-C2T Datasheet, PDF(36/538 Page) Texas Instruments – Stellaris LM3S608 Microcontroller

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LM3S608-IQN50-C2T Datasheet, PDF (36/538 Pages) Texas Instruments – Stellaris LM3S608 Microcontroller

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Architectural Overview

NRND: Not recommended for new designs.

1.4.4

1.4.4.1

1.4.4.2

â A shared single external reference voltage

â A shared internal reference voltage

The comparator can provide its output to a device pin, acting as a replacement for an analog

comparator on the board, or it can be used to signal the application via interrupts or triggers to the

ADC to cause it to start capturing a sample sequence. The interrupt generation and ADC triggering

logic is separate. This means, for example, that an interrupt can be generated on a rising edge and

the ADC triggered on a falling edge.

Serial Communications Peripherals

The LM3S608 controller supports both asynchronous and synchronous serial communications with:

â Two fully programmable 16C550-type UARTs

â One SSI module

â One I2C module

UART (see page 360)

A Universal Asynchronous Receiver/Transmitter (UART) is an integrated circuit used for RS-232C

serial communications, containing a transmitter (parallel-to-serial converter) and a receiver

(serial-to-parallel converter), each clocked separately.

The LM3S608 controller includes two fully programmable 16C550-type UARTs that support data

transfer speeds up to 3.125 Mbps. (Although similar in functionality to a 16C550 UART, it is not

register-compatible.)

Separate 16x8 transmit (TX) and receive (RX) FIFOs reduce CPU interrupt service loading. The

UART can generate individually masked interrupts from the RX, TX, modem status, and error

conditions. The module provides a single combined interrupt when any of the interrupts are asserted

and are unmasked.

SSI (see page 400)

Synchronous Serial Interface (SSI) is a four-wire bi-directional full and low-speed communications

interface.

The LM3S608 controller includes one SSI module that provides the functionality for synchronous

serial communications with peripheral devices, and can be configured to use the Freescale SPI,

MICROWIRE, or TI synchronous serial interface frame formats. The size of the data frame is also

configurable, and can be set between 4 and 16 bits, inclusive.

The SSI module performs serial-to-parallel conversion on data received from a peripheral device,

and parallel-to-serial conversion on data transmitted to a peripheral device. The TX and RX paths

are buffered with internal FIFOs, allowing up to eight 16-bit values to be stored independently.

The SSI module can be configured as either a master or slave device. As a slave device, the SSI

module can also be configured to disable its output, which allows a master device to be coupled

with multiple slave devices.

The SSI module also includes a programmable bit rate clock divider and prescaler to generate the

output serial clock derived from the SSI module's input clock. Bit rates are generated based on the

input clock and the maximum bit rate is determined by the connected peripheral.

36

June 18, 2012

Texas Instruments-Production Data

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