LM3S8G62 Datasheet, PDF(619/1096 Page) Texas Instruments – Stellaris® LM3S8G62 Microcontroller

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LM3S8G62 Datasheet, PDF (619/1096 Pages) Texas Instruments – Stellaris® LM3S8G62 Microcontroller

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OBSOLETE: TI has discontinued production of this device.

StellarisÂ® LM3S8G62 Microcontroller

13.3.3

13.3.4

when a write operation to UARTLCRH is performed, so any changes to the baud-rate divisor must

be followed by a write to the UARTLCRH register for the changes to take effect.

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 634) 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 signal 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 or fourth cycle of Baud8 depending on the setting of the HSE bit (bit 5) in UARTCTL

(described in âTransmit/Receive Logicâ on page 618).

The start bit is valid and recognized if the UnRx signal is still low on the eighth cycle of Baud16 (HSE

clear) or the fourth cycle of Baud 8 (HSE set), otherwise it is ignored. After a valid start bit is detected,

successive data bits are sampled on every 16th cycle of Baud16 or 8th cycle of Baud8 (that is, one

bit period later) according to the programmed length of the data characters and value of the HSE

bit in UARTCTL. The parity bit is then checked if parity mode is enabled. Data length and parity are

defined in the UARTLCRH register.

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

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

associated with that word.

Serial IR (SIR)

The UART peripheral includes an IrDA serial-IR (SIR) encoder/decoder block. The IrDA SIR block

provides functionality that converts between an asynchronous UART data stream and a half-duplex

serial SIR interface. No analog processing is performed on-chip. The role of the SIR block is to

provide a digital encoded output and decoded input to the UART. When enabled, the SIR block

uses the UnTx and UnRx pins for the SIR protocol. These signals should be connected to an infrared

transceiver to implement an IrDA SIR physical layer link. The SIR block can receive and transmit,

but it is only half-duplex so it cannot do both at the same time. Transmission must be stopped before

data can be received. The IrDA SIR physical layer specifies a minimum 10-ms delay between

transmission and reception.The SIR block has two modes of operation:

â In normal IrDA mode, a zero logic level is transmitted as a high pulse of 3/16th duration of the

selected baud rate bit period on the output pin, while logic one levels are transmitted as a static

LOW signal. These levels control the driver of an infrared transmitter, sending a pulse of light

July 24, 2012

619

Texas Instruments-Production Data

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