XR16C864IQ-F Datasheet, PDF(8/51 Page) Exar Corporation – 2.97V TO 5.5V QUAD UART WITH 128-BYTE FIFO

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XR16C864IQ-F Datasheet, PDF (8/51 Pages) Exar Corporation – 2.97V TO 5.5V QUAD UART WITH 128-BYTE FIFO

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XR16C864

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

REV. 2.2.0

1.0 PRODUCT DESCRIPTION

The XR16C864 (864) integrates the functions of 4 enhanced 16C550 Universal Asynchronous Receiver and

Transmitter (UART). Each UART is independently controlled having its own set of device configuration

registers. The configuration registers set is 16550 UART compatible for control, status and data transfer.

Additionally, each UART channel has 128-bytes of transmit and receive FIFOs, automatic RTS/CTS hardware

flow control with hysteresis control, automatic Xon/Xoff and special character software flow control,

programmable transmit and receive FIFO trigger levels, FIFO level counters, infrared encoder and decoder

(IrDA ver 1.0), programmable baud rate generator with a prescaler of divide by 1 or 4, and data rate up to 2

Mbps. The XR16C864 can operate at 3.3 or 5 volts. The 864 is fabricated with an advanced CMOS process.

Enhanced FIFO

The 864 QUART provides a solution that supports 128 bytes of transmit and receive FIFO memory, instead of

64 bytes provided in the ST16C654 and 16 bytes in the ST16C554, or one byte in the ST16C454. The 864 is

designed to work with high performance data communication systems, that require fast data processing time.

Increased performance is realized in the 864 by the larger transmit and receive FIFOs, FIFO trigger level

control, FIFO level counters and automatic flow control mechanism. This allows the external processor to

handle more networking tasks within a given time. For example, the ST16C554 with a 16 byte FIFO, unloads

16 bytes of receive data in 1.53 ms (This example uses a character length of 11 bits, including start/stop bits at

115.2Kbps). This means the external CPU will have to service the receive FIFO at 1.53 ms intervals. However

with the 128 byte FIFO in the 864, the data buffer will not require unloading/loading for 12.2 ms. This increases

the service interval giving the external CPU additional time for other applications and reducing the overall

UART interrupt servicing time. In addition, the programmable FIFO level trigger interrupt and automatic

hardware/software flow control is uniquely provided for maximum data throughput performance especially

when operating in a multi-channel system. The combination of the above greatly reduces the CPUâs bandwidth

requirement, increases performance, and reduces power consumption.

Data Rate

The 864 is capable of operation up to 2 Mbps at 5V with 16x internal sampling clock rate. The device can

operate with a crystal oscillator of up to 24 MHz crystal on pins XTAL1 and XTAL2, or external clock source of

32 MHz on XTAL1 pin. With a typical crystal of 14.7456 MHz and through a software option, the user can set

the prescaler bit for data rates of up to 921.6 kbps.

Enhanced Features

The rich feature set of the 864 is available through the internal registers. Automatic hardware/software flow

control, selectable transmit and receive FIFO trigger levels, selectable baud rates, infrared encoder/decoder

interface, modem interface controls, and a sleep mode are all standard features. MCR bit-5 provides a facility

for turning off software flow control with any incoming (RX) character. In the 16 mode INTSEL and MCR bit-3

can be configured to provide a software controlled or continuous interrupt capability.

The XR16C864 offers a clock prescaler select pin to allow system/board designers to preset the default baud

rate table on power up. The CLKSEL pin selects the div-by-1 or div-by-4 prescaler for the baud rate generator.

It can then be overridden following initializatioin by MCR bit-7.

The 864 offers several other enhanced features. These features include a CHCCLK clock input, FSTAT

interface. The CHCCLK must be connected to the XTAL2 pin for normal operation or to external MIDI (Music

Instrument Digital Interface) oscillator for MIDI applications. A separate register (FSTAT) is provided for

monitoring the real time status of the FIFO signals TXRDY# and RXRDY# for each of the four UART channels

(A-D). Separate TXRDY and RXRDY outputs for the individual channels are also provided. For infrared

applications, four separate IrDA (Infrared Data Association Standard) TX outputs are provided. These outputs

are provided in addition to the standard asynchronous modem data outputs.

A full Direct Memory Access interface is provided with separate DRQ lines for RX and TX FIFOs of the

individual channels.

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