LM3S610 Datasheet, PDF(243/409 Page) List of Unclassifed Manufacturers – Microcontroller

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LM3S610 Datasheet, PDF (243/409 Pages) List of Unclassifed Manufacturers – Microcontroller

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LM3S610 Data Sheet

12.2.6

12.3

Â Receive Timeout

Â Transmit (when condition defined in the TXIFLSEL bit in the UARTIFLS register is met)

Â Receive (when condition defined in the RXIFLSEL bit in the UARTIFLS register is met)

All of the interrupt events are ORed together before being sent to the interrupt controller, so the

UART can only generate a single interrupt request to the controller at any given time. Software can

service multiple interrupt events in a single interrupt service routine by reading the UART Masked

Interrupt Status (UARTMIS) register (see page 261).

The interrupt events that can trigger a controller-level interrupt are defined in the UART Interrupt

Mask (UARTIM) register (see page 258) by setting the corresponding IM bit to 1. If interrupts are

not used, the raw interrupt status is always visible via the UART Raw Interrupt Status (UARTRIS)

register (see page 260).

Interrupts are always cleared (for both the UARTMIS and UARTRIS registers) by setting the

corresponding bit in the UART Interrupt Clear (UARTICR) register (see page 262).

Loopback Operation

The UART can be placed into an internal loopback mode for diagnostic or debug work. This is

accomplished by setting the LBE bit in the UARTCTL register (see page 256). In loopback mode,

data transmitted on the U0Tx output is received on the U0Rx input, and data transmitted on U1Tx

is received on U1Rx.

Initialization and Configuration

To use the UARTs, the peripheral clock must be enabled by setting the UART0 or UART1 bits in the

RCGC1 register.

This section discusses the steps that are required for using a UART module. For this example, the

system clock is assumed to be 20 MHz and the desired UART configuration is:

Â 115200 baud rate

Â Data length of 8 bits

Â One stop bit

Â No parity

Â FIFOs disabled

Â No interrupts

The first thing to consider when programming the UART is the baud-rate divisor (BRD), since the

UARTIBRD and UARTFBRD registers must be written before the UARTLCRH register. Using the

equation described in âBaud-Rate Generationâ on page 241, the BRD can be calculated:

BRD = 20,000,000 / (16 * 115,200) = 10.8507

which means that the DIVINT field of the UARTIBRD register (see page 252) should be set to 10.

The value to be loaded into the UARTFBRD register (see page 253) is calculated by the equation:

UARTFBRD[DIVFRAC] = integer(0.8507 * 64 + 0.5) = 54

With the BRD values in hand, the UART configuration is written to the module in the following

order:

1. Disable the UART by clearing the UARTEN bit in the UARTCTL register.

2. Write the integer portion of the BRD to the UARTIBRD register.

April 27, 2007

243

Preliminary

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