xr17v258 Exar Corporation, xr17v258 Datasheet - Page 42
xr17v258
Manufacturer Part Number
xr17v258
Description
66mhz Pci Bus Octal Uart With Power Management Support
Manufacturer
Exar Corporation
Datasheet
1.XR17V258.pdf
(70 pages)
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XR17V258
66MHZ PCI BUS OCTAL UART WITH POWER MANAGEMENT SUPPORT
SEE”RECEIVER” ON PAGE 41.
SEE”TRANSMITTER” ON PAGE 39.
The Baud Rate Generator (BRG) generates the data rate for the transmitter and receiver. The rate is
programmed through registers DLM, DLL and DLD which are only accessible when LCR bit [7] is set to logic 1.
Refer to
details.
The Interrupt Enable Register (IER) masks the interrupts from receive data ready, transmit empty, line status
and modem status registers. These interrupts are reported in the Interrupt Status Register (ISR) and also
encoded in INT (INT0-INT3) register in the Device Configuration Registers.
When the receive FIFO (FCR bit [0] = logic 1) and receive interrupts (IER bit [0] = logic 1) are enabled, the
RHR interrupts (see ISR bits [4:3]) status will reflect the following:
A. The receive data available interrupts are issued to the host when the FIFO has reached the programmed
B. FIFO level will be reflected in the ISR register when the FIFO trigger level is reached. Both the ISR register
C. The receive data ready bit (LSR bit [0]) is set as soon as a character is transferred from the shift register to
When FCR bit [0] equals a logic 1 for FIFO enable; resetting IER bits [3:0] enables the XR16V258 in the FIFO
polled mode of operation. Since the receiver and transmitter have separate bits in the LSR either can be used
in the polled mode by selecting respective transmit or receive control bit(s).
A. LSR BIT-0 indicates there is data in RHR (non-FIFO mode) or RX FIFO (FIFO mode).
B. LSR BIT-1 indicates an overrun error has occurred and that data in the FIFO may not be valid.
C. LSR BIT 2-4 provides the type of receive data errors encountered for the data byte in RHR, if any.
D. LSR BIT-5 indicates THR (non-FIFO mode) or TX FIFO (FIFO mode) is empty.
E. LSR BIT-6 indicates when both the transmit FIFO and TSR are empty.
F. LSR BIT-7 indicates a data error in at least one character in the RX FIFO.
IER[7]: CTS# Input Interrupt Enable (requires EFR bit [4]=1)
•
•
IER[6]: RTS# Output Interrupt Enable (requires EFR bit [4]=1)
•
•
IER[5]: Xoff Interrupt Enable (requires EFR bit [4]=1)
•
•
5.0 UART CONFIGURATION REGISTERS
5.1
5.2
5.3
5.4
5.4.1
5.4.2
Logic 0 = Disable the CTS# interrupt (default).
Logic 1 = Enable the CTS# interrupt. The UART issues an interrupt when CTS# pin makes a transition from
LOW to HIGH.
Logic 0 = Disable the RTS# interrupt (default).
Logic 1 = Enable the RTS# interrupt. The UART issues an interrupt when RTS# pin makes a transition from
LOW to HIGH.
Logic 0 = Disable the software flow control, receive Xoff interrupt (default).
Logic 1 = Enable the software flow control, receive Xoff interrupt. See Software Flow Control section for
details.
trigger level. It will be cleared when the FIFO drops below the programmed trigger level.
status bit and the interrupt will be cleared when the FIFO drops below the trigger level.
the receive FIFO. It is reset when the FIFO is empty.
Receive Holding Register (RHR) - Read only
Transmit Holding Register (THR) - Write only
Baud Rate Generator Divisors (DLM, DLL and DLD)
Interrupt Enable Register (IER) - Read/Write
“Section 4.1, Programmable Baud Rate Generator with Fractional Divisor” on page 31
IER versus Receive FIFO Interrupt Mode Operation
IER versus Receive/Transmit FIFO Polled Mode Operation
42
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