XRT16C854 Datasheet, PDF(33/54 Page) Exar Corporation – 2.97V TO 5.5V QUAD UART WITH 128-BYTE FIFO

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XRT16C854 Datasheet, PDF (33/54 Pages) Exar Corporation – 2.97V TO 5.5V QUAD UART WITH 128-BYTE FIFO

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REV. 3.0.1

XR16C854/854D

2.97V TO 5.5V QUAD UART WITH 128-BYTE FIFO

MCR[6]: Infrared Encoder/Decoder Enable

â¢ Logic 0 = Enable the standard modem receive and transmit input/output interface (default).

â¢ Logic 1 = Enable infrared IrDA receive and transmit inputs/outputs. The TX/RX output/input are routed to the

infrared encoder/decoder. The data input and output levels conform to the IrDA infrared interface

requirement. The RX FIFO may need to be flushed upon enable. While in this mode, the infrared TX output

will be a logic 0 during idle data conditions.

MCR[7]: Clock Prescaler Select

The CLKSEL pin selects this function upon power up or reset. After the power up or reset, this register bit will

have control and can alter the logic state.

â¢ Logic 0 = Divide by one. The input clock from the crystal or external clock is fed directly to the Programmable

Baud Rate Generator without further modification, i.e., divide by one (default).

â¢ Logic 1 = Divide by four. The prescaler divides the input clock from the crystal or external clock by four and

feeds it to the Programmable Baud Rate Generator, hence, data rates become one forth.

4.8 Line Status Register (LSR) - Read Only

This register provides the status of data transfers between the UART and the host. If LSR bits 1-4 are

asserted, an interrupt will be generated immediately if IER bit-2 is enabled.

LSR[0]: Receive Data Ready Indicator

â¢ Logic 0 = No data in receive holding register or FIFO (default).

â¢ Logic 1 = Data has been received and is saved in the receive holding register or FIFO.

LSR[1]: Receiver Overrun Flag

â¢ Logic 0 = No overrun error (default).

â¢ Logic 1 = Overrun error. A data overrun error condition occurred in the receive shift register. This happens

when additional data arrives while the FIFO is full. In this case the previous data in the receive shift register

is overwritten. Note that under this condition the data byte in the receive shift register is not transferred into

the FIFO, therefore the data in the FIFO is not corrupted by the error.

LSR[2]: Receive Data Parity Error Tag

â¢ Logic 0 = No parity error (default).

â¢ Logic 1 = Parity error. The receive character in RHR does not have correct parity information and is suspect.

This error is associated with the character available for reading in RHR.

LSR[3]: Receive Data Framing Error Tag

â¢ Logic 0 = No framing error (default).

â¢ Logic 1 = Framing error. The receive character did not have a valid stop bit(s). This error is associated with

the character available for reading in RHR.

LSR[4]: Receive Break Tag

â¢ Logic 0 = No break condition (default).

â¢ Logic 1 = The receiver received a break signal (RX was a logic 0 for at least one character frame time). In the

FIFO mode, only one break character is loaded into the FIFO. The break indication remains until the RX

input returns to the idle condition, âmarkâ or logic 1.

LSR[5]: Transmit Holding Register Empty Flag

This bit is the Transmit Holding Register Empty indicator. The THR bit is set to a logic 1 when the last data byte

is transferred from the transmit holding register to the transmit shift register. The bit is reset to logic 0

concurrently with the data loading to the transmit holding register by the host. In the FIFO mode this bit is set

when the transmit FIFO is empty, it is cleared when the transmit FIFO contains at least 1 byte.

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