LM3S317 Datasheet, PDF(369/551 Page) List of Unclassifed Manufacturers – Microcontroller

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LM3S317 Datasheet, PDF (369/551 Pages) List of Unclassifed Manufacturers – Microcontroller

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StellarisÂ® LM3S317 Microcontroller

11.3.3

11.3.4

To update the baud-rate registers, there are four possible sequences:

â UARTIBRD write, UARTFBRD write, and UARTLCRH write

â UARTFBRD write, UARTIBRD write, and UARTLCRH write

â UARTIBRD write and UARTLCRH write

â UARTFBRD write and UARTLCRH write

Data Transmission

Data received or transmitted is stored in two 16-byte FIFOs, though the receive FIFO has an extra

four bits per character for status information. For transmission, data is written into the transmit FIFO.

If the UART is enabled, it causes a data frame to start transmitting with the parameters indicated

in the UARTLCRH register. Data continues to be transmitted until there is no data left in the transmit

FIFO. The BUSY bit in the UART Flag (UARTFR) register (see page 377) is asserted as soon as

data is written to the transmit FIFO (that is, if the FIFO is non-empty) and remains asserted while

data is being transmitted. The BUSY bit is negated only when the transmit FIFO is empty, and the

last character has been transmitted from the shift register, including the stop bits. The UART can

indicate that it is busy even though the UART may no longer be enabled.

When the receiver is idle (the UnRx is continuously 1) and the data input goes Low (a start bit has

been received), the receive counter begins running and data is sampled on the eighth cycle of

Baud16 (described in âTransmit/Receive Logicâ on page 368).

The start bit is valid and recognized if UnRx is still low on the eighth cycle of Baud16, otherwise it

is ignored. After a valid start bit is detected, successive data bits are sampled on every 16th cycle

of Baud16 (that is, one bit period later) according to the programmed length of the data characters.

The parity bit is then checked if parity mode was enabled. Data length and parity are defined in the

UARTLCRH register.

Lastly, a valid stop bit is confirmed if UnRx is High, otherwise a framing error has occurred. When

a full word is received, the data is stored in the receive FIFO, with any error bits associated with

that word.

FIFO Operation

The UART has two 16-entry FIFOs; one for transmit and one for receive. Both FIFOs are accessed

via the UART Data (UARTDR) register (see page 373). Read operations of the UARTDR register

return a 12-bit value consisting of 8 data bits and 4 error flags while write operations place 8-bit data

in the transmit FIFO.

Out of reset, both FIFOs are disabled and act as 1-byte-deep holding registers. The FIFOs are

enabled by setting the FEN bit in UARTLCRH (page 381).

FIFO status can be monitored via the UART Flag (UARTFR) register (see page 377) and the UART

Receive Status (UARTRSR) register. Hardware monitors empty, full and overrun conditions. The

UARTFR register contains empty and full flags (TXFE, TXFF, RXFE, and RXFF bits) and the

UARTRSR register shows overrun status via the OE bit.

The trigger points at which the FIFOs generate interrupts is controlled via the UART Interrupt FIFO

Level Select (UARTIFLS) register (see page 385). Both FIFOs can be individually configured to

trigger interrupts at different levels. Available configurations include 1/8, Â¼, Â½, Â¾, and 7/8. For

example, if the Â¼ option is selected for the receive FIFO, the UART generates a receive interrupt

after 4 data bytes are received. Out of reset, both FIFOs are configured to trigger an interrupt at the

Â½ mark.

July 14, 2014

369

Texas Instruments-Production Data

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