XR17V258_08 Datasheet, PDF(34/70 Page) Exar Corporation – 66MHZ PCI BUS OCTAL UART WITH POWER MANAGEMENT SUPPORT

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XR17V258_08 Datasheet, PDF (34/70 Pages) Exar Corporation – 66MHZ PCI BUS OCTAL UART WITH POWER MANAGEMENT SUPPORT

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XR17V258

66MHZ PCI BUS OCTAL UART WITH POWER MANAGEMENT SUPPORT

REV. 1.0.1

FIGURE 12. AUTO RTS/DTR AND CTS/DSR FLOW CONTROL OPERATION

Local UART

UARTA

Receiver FIFO

Trigger Reached

RXA

TXB

Remote UART

UARTB

Transmitter

Auto RTS

Trigger Level

Transmitter

RTSA#

TXA

CTSB#

RXB

Auto CTS

Monitor

Receiver FIFO

Trigger Reached

Auto CTS

Monitor

CTSA#

RTSB#

Auto RTS

Trigger Level

RTSA#

CTSB#

TXB

Assert RTS# to Begin

Transmission

OFF

8 OFF

10 ON

Data Starts

6 Suspend Restart

RXA FIFO

Receive

INTA

(RXA FIFO

Data RX FIFO

Trigger Level

Interrupt)

RTS High

Threshold

RTS Low

Threshold

RX FIFO

12 Trigger Level

RTSCTS1

The local UART (UARTA) starts data transfer by asserting -RTSA# (1). RTSA# is normally connected to CTSB# (2) of

remote UART (UARTB). CTSB# allows its transmitter to send data (3). TXB data arrives and fills UARTA receive FIFO

(4). When RXA data fills up to its receive FIFO trigger level, UARTA activates its RXA data ready interrupt (5) and con-

tinues to receive and put data into its FIFO. If interrupt service latency is long and data is not being unloaded, UARTA

monitors its receive data fill level to match the upper threshold of RTS delay and de-assert RTSA# (6). CTSB# follows

(7) and request UARTB transmitter to suspend data transfer. UARTB stops or finishes sending the data bits in its trans-

mit shift register (8). When receive FIFO data in UARTA is unloaded to match the lower threshold of RTS delay (9),

UARTA re-asserts RTSA# (10), CTSB# recognizes the change (11) and restarts its transmitter and data flow again until

next receive FIFO trigger (12). This same event applies to the reverse direction when UARTA sends data to UARTB

with RTSB# and CTSA# controlling the data flow.

4.3 Infrared Mode

Each UART in the V258 includes the infrared encoder and decoder compatible to the IrDA (Infrared Data

Association) version 1.0. The input pin ENIR conveniently activates all 8 UART channels to start up in the

infrared mode. This global control pin enables the MCR bit [6] function in every UART channel register. After

power up or a reset, the software can overwrite MCR bit [6] if so desired. ENIR and MCR bit [6] also disable its

receiver while the transmitter is sending data. This prevents the echoed data from going to the receiver. The

global activation ENIR pin prevents the infrared emitter from turning on and drawing large amount of current

while the system is starting up. When the infrared feature is enabled, the transmit data outputs, TX[7:0], would

idle LOW. Likewise, the RX [7:0] inputs assume a LOW idle level.

The infrared encoder sends out a 3/16 of a bit wide pulse for each â0â bit in the transmit data stream. This

signal encoding reduces the on-time of the infrared LED, hence reduces the power consumption. See

Figure 13 below.

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