XR16M2750IM48-F Datasheet, PDF(36/53 Page) Exar Corporation – 1.62V TO 3.63V HIGH PERFORMANCE DUART WITH 64-BYTE FIFO

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XR16M2750IM48-F Datasheet, PDF (36/53 Pages) Exar Corporation – 1.62V TO 3.63V HIGH PERFORMANCE DUART WITH 64-BYTE FIFO

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XR16M2750

1.62V TO 3.63V HIGH PERFORMANCE DUART WITH 64-BYTE FIFO

REV. 1.0.0

4.15 Device Revision Register (DREV) - Read Only

This register contains the device revision information. For example, 0x01 means revision A. Prior to reading

this register, DLL and DLM should be set to 0x00 (DLD = 0xXX).

4.16 Trigger Level Register (TRG) - Write-Only

User Programmable Transmit/Receive Trigger Level Register. If both the programmable TX and RX trigger

levels are used, the TX trigger levels must be set before the RX trigger levels.

TRG[7:0]: Trigger Level Register

These bits are used to program desired trigger levels when trigger Table-D is selected. FCTR bit-7 selects

between programming the RX Trigger Level (a logic 0) and the TX Trigger Level (a logic 1).

4.17 RX/TX FIFO Level Count Register (FC) - Read-Only

This register is accessible when LCR = 0xBF. Note that this register is not identical to the FIFO Level Count

Register which is located in the general register set when FCTR bit-6 = 1 (Scratchpad Register Swap). It is

suggested to read the FIFO Level Count Register at the Scratchpad Register location when FCTR bit-6 = 1.

See Table 12.

FC[7:0]: RX/TX FIFO Level Count

Receive/Transmit FIFO Level Count. Number of characters in Receiver FIFO (FCTR[7] = 0) or Transmitter

FIFO (FCTR[7] = 1) can be read via this register. Reading this register is not recommended when transmitting

or receiving data.

4.18 Feature Control Register (FCTR) - Read/Write

This register controls the XR16M2750 functions that are not available in ST16C2450 or ST16C2550.

FCTR[1:0]: RTS Hysteresis

User selectable RTS# hysteresis levels for hardware flow control application. After reset, these bits are set to

â0â to select the next trigger level for hardware flow control. See Table 13 for more details.

FCTR[2]: IrDa RX Inversion

â¢ Logic 0 = Select RX input as encoded IrDa data (Idle state will be LOW).

â¢ Logic 1 = Select RX input as inverted encoded IrDa data (Idle state will be HIGH).

FCTR[3]: Auto RS-485 Direction Control

â¢ Logic 0 = Standard ST16C550 mode. Transmitter generates an interrupt when transmit holding register

becomes empty and transmit shift register is shifting data out.

â¢ Logic 1 = Enable Auto RS485 Direction Control function. The direction control signal, RTS# pin, changes its

output logic state from LOW to HIGH one bit time after the last stop bit of the last character is shifted out.

Also, the Transmit interrupt generation is delayed until the transmitter shift register becomes empty. The

RTS# output pin will automatically return to a LOW when a data byte is loaded into the TX FIFO. However,

RTS# behavior can be inverted by setting EMSR[3] = 1.

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