w79e532 Winbond Electronics Corp America, w79e532 Datasheet - Page 50

w79e532

Manufacturer Part Number

w79e532

Description

8-bit Microcontroller

Manufacturer

Winbond Electronics Corp America

Datasheet

1.W79E532.pdf (77 pages)

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12. SERIAL PORT

Serial port in the W79E(L)532 is a full duplex port. The W79E(L)532 provides the user with additional

features such as the Frame Error Detection and the Automatic Address Recognition. The serial ports

are capable of synchronous as well as asynchronous communication. In Synchronous mode the

W79E(L)532 generates the clock and operates in a half duplex mode. In the asynchronous mode, full

duplex operation is available. This means that it can simultaneously transmit and receive data. The

transmit register and the receive buffer are both addressed as SBUF Special Function Register.

However any write to SBUF will be to the transmit register, while a read from SBUF will be from the

receive buffer register. The serial port can operate in four different modes as described below.

Mode 0

This mode provides synchronous communication with external devices. In this mode serial data is

transmitted and received on the RXD line. TXD is used to transmit the shift clock. The TxD clock is

provided by the W79E(L)532 whether the device is transmitting or receiving. This mode is therefore a

half duplex mode of serial communication. In this mode, 8 bits are transmitted or received per frame.

The LSB is transmitted/received first. The baud rate is fixed at 1/12 or 1/4 of the oscillator frequency.

This baud rate is determined by the SM2 bit (SCON.5). When this bit is set to 0, then the serial port

runs at 1/12 of the clock. When set to 1, the serial port runs at 1/4 of the clock. This additional facility

of programmable baud rate in mode 0 is the only difference between the standard 8051 and the

W79E(L)532.

The functional block diagram is shown below. Data enters and leaves the Serial port on the RxD line.

The TxD line is used to output the shift clock. The shift clock is used to shift data into and out of the

W79E(L)532 and the device at the other end of the line. Any instruction that causes a write to SBUF

will start the transmission. The shift clock will be activated and data will be shifted out on the RxD pin

till all 8 bits are transmitted. If SM2 = 1, then the data on RxD will appear 1 clock period before the

falling edge of shift clock on TxD. The clock on TxD then remains low for 2 clock periods, and then

goes high again. If SM2 = 0, the data on RxD will appear 3 clock periods before the falling edge of

shift clock on TxD. The clock on TxD then remains low for 6 clock periods, and then goes high again.

This ensures that at the receiving end the data on RxD line can either be clocked on the rising edge of

the shift clock on TxD or latched when the TxD clock is low.

SM2

PTD

REN

Iutput function

P3.0 Alternate

RXD

Write to

SBUF

TX START

TX CLOCK

CLOCK

START

CONTROLLE

SERIAL

LOAD SBUF

Figure 20. Serial Port Mode 0

RX SHIFT

Data Bus

Internal

TX SHIFT

CLOCK

SHIFT

Receive Shift Register

- 50 -

CLOCK

SIN

Transmit Shift Register

PAROUT

CLOCK

PARIN

LOAD

SOUT

SBUF

W79E532/W79L532

TXD

P3.1 Alternate

Output function

Serial Port Interrupt

RXD

P3.0 Alternate

Output Function

Read SBUF

SBUF

Data Bus

Internal

w79e532 Winbond Electronics Corp America, w79e532 Datasheet - Page 50

w79e532

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