C8051F326-TB Silicon Laboratories Inc, C8051F326-TB Datasheet - Page 121

C8051F326-TB

Manufacturer Part Number

C8051F326-TB

Description

BOARD PROTOTYPING W/C8051F326

Manufacturer

Silicon Laboratories Inc

Type

MCUr

Datasheet

1.C8051F326-TB.pdf (140 pages)

Specifications of C8051F326-TB

Contents

Board

Processor To Be Evaluated

C8051F326/F327

Interface Type

USB

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

For Use With/related Products

C8051F326

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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13.3. Configuration and Operation

UART0 provides standard asynchronous, full duplex communication. It can operate in a point-to-point

serial communications application, or as a node on a multi-processor serial interface. To operate in a

point-to-point application, where there are only two devices on the serial bus, the MCE0 bit in SMOD0

should be cleared to ‘0’. For operation as part of a multi-processor communications bus, the MCE0 and

XBE0 bits should both be set to ‘1’. In both types of applications, data is transmitted from the microcon-

troller on the TX0 pin, and received on the RX0 pin. The TX0 and RX0 pins are configured using the cross-

bar and the Port I/O registers, as detailed in Section “11. Port Input/Output” on page 79.

In typical UART communications, The transmit (TX) output of one device is connected to the receive (RX)

input of the other device, either directly or through a bus transceiver, as shown in Figure 13.5.

13.3.1. Data Transmission

Data transmission begins when software writes a data byte to the SBUF0 register. The TI0 Transmit Inter-

rupt Flag (SCON0.1) will be set at the end of any transmission (the beginning of the stop-bit time). If

enabled, an interrupt will occur when TI0 is set.

If the extra bit function is enabled (XBE0 = ‘1’) and the parity function is disabled (PE0 = ‘0’), the value of

the TBX0 (SCON0.3) bit will be sent in the extra bit position. When the parity function is enabled (PE0 =

‘1’), hardware will generate the parity bit according to the selected parity type (selected with S0PT[1:0]),

and append it to the data field. Note: when parity is enabled, the extra bit function is not available.

13.3.2. Data Reception

Data reception can begin any time after the REN0 Receive Enable bit (SCON0.4) is set to logic 1. After the

stop bit is received, the data byte will be stored in the receive FIFO if the following conditions are met: the

receive FIFO (3 bytes deep) must not be full, and the stop bit(s) must be logic 1. In the event that the

receive FIFO is full, the incoming byte will be lost, and a Receive FIFO Overrun Error will be generated

(OVR0 in register SCON0 will be set to logic 1). If the stop bit(s) were logic 0, the incoming data will not be

stored in the receive FIFO. If the reception conditions are met, the data is stored in the receive FIFO, and

the RI0 flag will be set. Note: when MCE0 = ‘1’, RI0 will only be set if the extra bit was equal to ‘1’. Data can

be read from the receive FIFO by reading the SBUF0 register. The SBUF0 register represents the oldest

byte in the FIFO. After SBUF0 is read, the next byte in the FIFO is loaded into SBUF0, and space is made

available in the FIFO for another incoming byte. If enabled, an interrupt will occur when RI0 is set.

If the extra bit function is enabled (XBE0 = ‘1’) and the parity function is disabled (PE0 = ‘0’), the extra bit

for the oldest byte in the FIFO can be read from the RBX0 bit (SCON0.2). If the extra bit function is not

Figure 13.5. Typical UART Interconnect Diagram

COM Port

RS-232

MCU

Rev. 1.1

TRANSLATOR

RS-232

LEVEL

C8051Fxxx

C8051F326/7

121

C8051F326-TB Silicon Laboratories Inc, C8051F326-TB Datasheet - Page 121

C8051F326-TB

Specifications of C8051F326-TB

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