TL16C752BPTRG4 参数 Datasheet PDF下载

TL16C752B

3.3-V DUAL UART WITH 64-BYTE FIFO

SLLS405A – DECEMBER 1999 – REVISED AUGUST 2000

functional description (continued)

software flow control example

Assumptions: UART1 is transmitting a large text file to UART2. Both UARTs are using software flow control with

single character Xoff (0F) and Xon (0D) tokens. Both have Xoff threshold (TCR [3:0]=F) set to 60 and Xon

threshold (TCR[7:4]=8) set to 32. Both have the interrupt receive threshold (TLR[7:4]=D) set to 52.

UART1 begins transmission and sends 52 characters, at which point UART2 will generate an interrupt to its

processor to service the RCV FIFO, but assume the interrupt latency is fairly long. UART1 will continue sending

characters until a total of 60 characters have been sent. At this time UART2 will transmit a 0F to UART1,

informing UART1 to halt transmission. UART1 will likely send the 61

st

character while UART2 is sending the

Xoff character. Now UART2 is serviced and the processor reads enough data out of the RCV FIFO that the level

drops to 32. UART2 will now send a 0D to UART1, informing UART1 to resume transmission.

reset

Table 2 summarizes the state of registers after reset.

Table 2. Register Reset Functions

REGISTER

Interrupt enable register

Interrupt identification register

FIFO control register

Line control register

Modem control register

Line status register

Modem status register

Enhanced feature register

Receiver holding register

Transmitter holding register

Transmission control register

Trigger level register

RESET

CONTROL

RESET

RESET

RESET

RESET

RESET

RESET

RESET

RESET

RESET

RESET

RESET

RESET

All bits cleared

Bit 0 is set. All other bits cleared.

All bits cleared

Reset to 00011101 (1D hex).

All bits cleared

Bits 5 and 6 set. All other bits cleared.

Bits 0 – 3 cleared. Bits 4 – 7 input signals.

All bits cleared

Pointer logic cleared

Pointer logic cleared

All bits cleared

All bits cleared

RESET STATE

NOTE: Registers DLL, DLH, SPR, Xon1, Xon2, Xoff1, Xoff2 are not reset by the top-level reset signal

RESET, i.e., they hold their initialization values during reset.

Table 3 summarizes the state of registers after reset.

Table 3. Signal Reset Functions

SIGNAL

TX

RTS

DTR

RXRDY

TXRDY

RESET

CONTROL

RESET

RESET

RESET

RESET

RESET

RESET STATE

High

High

High

High

Low

interrupts

The TL16C752B has interrupt generation and prioritization (6 prioritized levels of interrupts) capability. The

interrupt enable register (IER) enables each of the 6 types of interrupts and the INT signal in response to an

interrupt generation. The IER can also disable the interrupt system by clearing bits 0–3, 5–7. When an interrupt

is generated, the IIR indicates that an interrupt is pending and provides the type of interrupt through IIR[5–0].

Table 4 summarizes the interrupt control functions.

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