XR19L212 Datasheet, PDF(38/52 Page) Exar Corporation – TWO CHANNEL INTEGRATED UART AND RS-232 TRANSCEIVER

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XR19L212 Datasheet, PDF (38/52 Pages) Exar Corporation – TWO CHANNEL INTEGRATED UART AND RS-232 TRANSCEIVER

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XR19L212

TWO CHANNEL INTEGRATED UART AND RS-232 TRANSCEIVER

REV. 1.0.0

EFR[4]: Enhanced Function Bits Enable

Enhanced function control bit. This bit enables IER bits 4-7, ISR bits 4-5, FCR bits 4-5, MCR bits 5-7, and DLD

to be modified. After modifying any enhanced bits, EFR bit-4 can be set to a logic 0 to latch the new values.

This feature prevents legacy software from altering or overwriting the enhanced functions once set. Normally, it

is recommended to leave it enabled, logic 1.

â¢ Logic 0 = modification disable/latch enhanced features. IER bits 4-7, ISR bits 4-5, FCR bits 4-5, MCR bits 5-

7, and DLD are saved to retain the user settings. After a reset, the IER bits 4-7, ISR bits 4-5, FCR bits 4-5,

MCR bits 5-7, and DLD are set to a logic 0 to be compatible with ST16C550 mode (default).

â¢ Logic 1 = Enables the above-mentioned register bits to be modified by the user.

EFR[5]: Special Character Detect Enable

â¢ Logic 0 = Special Character Detect Disabled (default).

â¢ Logic 1 = Special Character Detect Enabled. The UART compares each incoming receive character with

data in Xoff-2 register. If a match exists, the receive data will be transferred to FIFO and ISR bit-4 will be set

to indicate detection of the special character. Bit-0 corresponds with the LSB bit of the receive character. If

flow control is set for comparing Xon1, Xoff1 (EFR [1:0]= â10â) then flow control and special character work

normally. However, if flow control is set for comparing Xon2, Xoff2 (EFR[1:0]= â01â) then flow control works

normally, but Xoff2 will not go to the FIFO, and will generate an Xoff interrupt and a special character

interrupt, if enabled via IER bit-5.

EFR[6]: Auto RTS Flow Control Enable

RTS# output may be used for hardware flow control by setting EFR bit-6 to logic 1. When Auto RTS is

selected, an interrupt will be generated when the receive FIFO is filled to the programmed trigger level and

RTS de-asserts HIGH at the next upper trigger level or hysteresis level. RTS# will return LOW when FIFO data

falls below the next lower trigger level. The RTS# output must be asserted (LOW) before the auto RTS can

take effect. RTS# pin will function as a general purpose output when hardware flow control is disabled.

â¢ Logic 0 = Automatic RTS flow control is disabled (default).

â¢ Logic 1 = Enable Automatic RTS flow control.

EFR[7]: Auto CTS Flow Control Enable

Automatic CTS Flow Control.

â¢ Logic 0 = Automatic CTS flow control is disabled (default).

â¢ Logic 1 = Enable Automatic CTS flow control. Data transmission stops when CTS# input de-asserts HIGH.

Data transmission resumes when CTS# returns LOW.

4.19.1 Software Flow Control Registers (XOFF1, XOFF2, XON1, XON2) - Read/Write

These registers are used as the programmable software flow control characters xoff1, xoff2, xon1, and xon2.

For more details, see Table 7.

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