TM4C129DNCPDT Datasheet, PDF(1287/1946 Page) Texas Instruments – Tiva Microcontroller

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TM4C129DNCPDT Datasheet, PDF (1287/1946 Pages) Texas Instruments – Tiva Microcontroller

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Tivaâ¢ TM4C129DNCPDT Microcontroller

19.3.9

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

UARTRSR register shows overrun status via the OE bit. If the FIFOs are disabled, the empty and

full flags are set according to the status of the 1-byte-deep holding registers.

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

Level Select (UARTIFLS) register (see page 1309). Both FIFOs can be individually configured to

trigger interrupts at different levels. Available configurations include â, Â¼, Â½, Â¾, and â. 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.

Interrupts

The UART can generate interrupts when the following conditions are observed:

â Overrun Error

â Break Error

â Parity Error

â Framing Error

â Receive Timeout

â Transmit (when condition defined in the TXIFLSEL bit in the UARTIFLS register is met, or if the

EOT bit in UARTCTL is set, when the last bit of all transmitted data leaves the serializer)

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 1319).

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

Mask (UARTIM) register (see page 1311) by setting the corresponding IM bits. If interrupts are not

used, the raw interrupt status is visible via the UART Raw Interrupt Status (UARTRIS) register

(see page 1315).

Note: For receive timeout, the RTIM bit in the UARTIM register must be set to see the RTMIS and

RTRIS status in the UARTMIS and UARTRIS registers.

Interrupts are always cleared (for both the UARTMIS and UARTRIS registers) by writing a 1 to the

corresponding bit in the UART Interrupt Clear (UARTICR) register (see page 1323).

The receive timeout interrupt is asserted when the receive FIFO is not empty, and no further data

is received over a 32-bit period when the HSE bit is clear or over a 64-bit period when the HSE bit

is set. The receive timeout interrupt is cleared either when the FIFO becomes empty through reading

all the data (or by reading the holding register), or when a 1 is written to the corresponding bit in the

UARTICR register.

The receive interrupt changes state when one of the following events occurs:

â If the FIFOs are enabled and the receive FIFO reaches the programmed trigger level, the RXRIS

bit is set. The receive interrupt is cleared by reading data from the receive FIFO until it becomes

less than the trigger level, or by clearing the interrupt by writing a 1 to the RXIC bit.

June 18, 2014

Texas Instruments-Production Data

1287

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