LM3S3748 Datasheet, PDF(38/753 Page) List of Unclassifed Manufacturers – Microcontroller

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LM3S3748 Datasheet, PDF (38/753 Pages) List of Unclassifed Manufacturers – Microcontroller

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Architectural Overview

1.4.4.2

1.4.4.3

1.4.4.4

The LM3S3748 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.) In addition, each UART is capable of supporting IrDA.

Separate 16x8 transmit (TX) and 16x12 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 429)

Synchronous Serial Interface (SSI) is a four-wire bi-directional communications interface.

The LM3S3748 controller includes two SSI modules that provide 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.

Each 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.

Each 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.

Each 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.

I2C (see page 468)

The Inter-Integrated Circuit (I2C) bus provides bi-directional data transfer through a two-wire design

(a serial data line SDA and a serial clock line SCL).

The I2C bus interfaces to external I2C devices such as serial memory (RAMs and ROMs), networking

devices, LCDs, tone generators, and so on. The I2C bus may also be used for system testing and

diagnostic purposes in product development and manufacture.

The LM3S3748 controller includes two I2C modules that provide the ability to communicate to other

IC devices over an I2C bus. The I2C bus supports devices that can both transmit and receive (write

and read) data.

Devices on the I2C bus can be designated as either a master or a slave. Each I2C module supports

both sending and receiving data as either a master or a slave, and also supports the simultaneous

operation as both a master and a slave. The four I2C modes are: Master Transmit, Master Receive,

Slave Transmit, and Slave Receive.

A StellarisÂ® I2C module can operate at two speeds: Standard (100 Kbps) and Fast (400 Kbps).

Both the I2C master and slave can generate interrupts. The I2C master generates interrupts when

a transmit or receive operation completes (or aborts due to an error). The I2C slave generates

interrupts when data has been sent or requested by a master.

USB (see page 503 )

Universal Serial Bus (USB) is a serial bus standard designed to allow peripherals to be connected

and disconnected using a standardized interface without rebooting the system.

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April 08, 2008

Preliminary

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