xr16v2752il Exar Corporation, xr16v2752il Datasheet - Page 15

xr16v2752il

Manufacturer Part Number

xr16v2752il

Description

High Performance Duart With 64-byte Fifo

Manufacturer

Exar Corporation

Datasheet

1.XR16V2752IL.pdf (51 pages)

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REV. 1.0.2

Automatic RTS hardware flow control is used to prevent data overrun to the local receiver FIFO. The RTS#

output is used to request remote unit to suspend/resume data transmission. The auto RTS flow control

features is enabled to fit specific application requirement (see

•

If using the Auto RTS interrupt:

•

The V2752 has a new feature that provides flow control trigger hysteresis while maintaining compatibility with

the XR16C850, ST16C650A and ST16C550 family of UARTs. With the Auto RTS function enabled, an interrupt

is generated when the receive FIFO reaches the programmed RX trigger level. The RTS# pin will not be forced

HIGH (RTS off) until the receive FIFO reaches the upper limit of the hysteresis level. The RTS# pin will return

LOW after the RX FIFO is unloaded to the lower limit of the hysteresis level. Under the above described

conditions, the V2752 will continue to accept data until the receive FIFO gets full. The Auto RTS function is

initiated when the RTS# output pin is asserted LOW (RTS On).

Auto RTS# Hysteresis levels. Please note that this table is for programmable trigger levels only (Table D). The

hysteresis values for Tables A-C are the next higher and next lower trigger levels in the corresponding table.

The auto RS485 half-duplex direction control changes the behavior of the transmitter when enabled by FCTR

bit-3. By default, it de-asserts RTS# (HIGH) output following the last stop bit of the last character that has been

transmitted. This helps in turning around the transceiver to receive the remote station’s response. When the

host is ready to transmit next polling data packet again, it only has to load data bytes to the transmit FIFO. The

transmitter automatically re-asserts RTS# (LOW) output prior to sending the data. The RS485 half-duplex

direction control output can be inverted by enabling EMSR bit-3.

Automatic CTS flow control is used to prevent data overrun to the remote receiver FIFO. The CTS# input is

monitored to suspend/restart the local transmitter. The auto CTS flow control feature is selected to fit specific

application requirement (see

•

If using the Auto CTS interrupt:

•

2.13

2.14

2.15

2.16

Enable auto RTS flow control using EFR bit-6.

The auto RTS function must be started by asserting RTS# output pin (MCR bit-1 to logic 1 after it is enabled).

Enable RTS interrupt through IER bit-6 (after setting EFR bit-4). The UART issues an interrupt when the

RTS# pin makes a transition from low to high: ISR bit-5 will be set to logic 1.

Enable auto CTS flow control using EFR bit-7.

Enable CTS interrupt through IER bit-7 (after setting EFR bit-4). The UART issues an interrupt when the

CTS# pin is de-asserted (HIGH): ISR bit-5 will be set to 1, and UART will suspend transmission as soon as

the stop bit of the character in process is shifted out. Transmission is resumed after the CTS# input is re-

asserted (LOW), indicating more data may be sent.

Auto RTS (Hardware) Flow Control

Auto RTS Hysteresis

Auto RS485 Half-duplex Control

Auto CTS Flow Control

Figure

10):

HIGH PERFORMANCE DUART WITH 64-BYTE FIFO

Figure

Table 13

10):

shows the complete details for the

XR16V2752

xr16v2752il Exar Corporation, xr16v2752il Datasheet - Page 15

xr16v2752il

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