XR19L202 Datasheet, PDF(9/50 Page) Exar Corporation – TWO CHANNEL INTEGRATED UART AND RS-232 TRANSCEIVER

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XR19L202 Datasheet, PDF (9/50 Pages) Exar Corporation – TWO CHANNEL INTEGRATED UART AND RS-232 TRANSCEIVER

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XR19L202

REV. 1.0.0

TWO CHANNEL INTEGRATED UART AND RS-232 TRANSCEIVER

Beyond the general 16C2550 features and capabilities, the L202 offers enhanced feature registers just like the

XR16V2751, namely, EFR, Xon/Xoff 1, Xon/Xoff 2, FCTR, TRG, EMSR and FC that provide Xon/Xoff software

flow control, FIFO trigger level control and FIFO level counters. All the register functions are discussed in full

detail later in âSection 3.0, UART INTERNAL REGISTERSâ on page 20.

2.7 DMA Mode

The DMA Mode (a legacy term) refers to data block transfer operation. The DMA mode affects the state of the

RXRDY# and TXRDY# output pins available in the original 16C550. These pins are not available in the

XR19L202. The DMA Enable bit (FCR bit-3) does not have any function in this device and can be a â0â or a â1â.

2.8 INT (IRQ#) Output

The interrupt output changes according to the operating mode and enhanced features setup. Table 3 and

Table 4 below summarize the operating behavior for the transmitter and receiver in the Intel and Motorola

modes. Also see Figures 17 through 20.

TABLE 3: INT (IRQ#) PIN OPERATION FOR TRANSMITTER

FCR BIT-0 = 0 (FIFO DISABLED)

FCR BIT-0 = 1 (FIFO ENABLED)

INT Pin 0 = one byte in THR

(I/M# = 1) 1 = THR empty

0 = FIFO above trigger level

1 = FIFO below trigger level or FIFO empty

IRQ# Pin 1 = one byte in THR

(I/M# = 0) 0 = THR empty

1 = FIFO above trigger level

0 = FIFO below trigger level or FIFO empty

TABLE 4: INT (IRQ#) PIN OPERATION FOR RECEIVER

INT Pin

(I/M# = 1)

IRQ# Pin

(I/M# = 0)

FCR BIT-0 = 0

(FIFO DISABLED)

0 = no data

1 = 1 byte

1 = no data

0 = 1 byte

FCR BIT-0 = 1

(FIFO ENABLED)

0 = FIFO below trigger level

1 = FIFO above trigger level

1 = FIFO below trigger level

0 = FIFO above trigger level

2.9 Crystal or External Clock Input

The L202 includes an on-chip oscillator (XTAL1 and XTAL2) to generate a clock when a crystal is connected

between the XTAL1 and XTAL2 pins of the device. Alternatively, an external clock can be supplied through the

XTAL1 pin. The CPU data bus does not require this clock for bus operation. The crystal oscillator provides a

system clock to the Baud Rate Generators (BRG) section found in each of the UART. XTAL1 is the input to the

oscillator or external clock input and XTAL2 pin is the bufferred output which can be used as a clock signal for

other devices in the system. Please note that the input XTAL1 is not 5V tolerant and therefore, the maximum

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