mc68331cpv20b1 Freescale Semiconductor, Inc, mc68331cpv20b1 Datasheet - Page 153

mc68331cpv20b1

Manufacturer Part Number

mc68331cpv20b1

Description

Mc68331 32 Bit Microcontroller

Manufacturer

Freescale Semiconductor, Inc

Datasheet

1.MC68331CPV20B1.pdf (254 pages)

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6.4.3.4 Parity Checking

6.4.3.5 Transmitter Operation

MC68331

USER’S MANUAL

where SCBR is in the range {1, 2, 3,..., 8191}.

The SCI receiver operates asynchronously. An internal clock is necessary to synchro-

nize with an incoming data stream. The SCI baud clock generator produces a receive

time (RT) sampling clock with a frequency 16 times that of the SCI baud clock. The

SCI determines the position of bit boundaries from transitions within the received

waveform, and adjusts sampling points to the proper positions within the bit period.

The parity type (PT) bit in SCCR1 selects either even (PT = 0) or odd (PT = 1) parity.

PT affects received and transmitted data. The parity enable (PE) bit in SCCR1 deter-

mines whether parity checking is enabled (PE = 1) or disabled (PE = 0). When PE is

set, the MSB of the data in a frame is used for the parity function. For transmitted data,

a parity bit is generated; for received data, the parity bit is checked. When parity check-

ing is enabled, the parity flag (PF) in the SCI status register (SCSR) is set if a parity

error is detected.

Enabling parity affects the number of data bits in a frame, which can in turn affect

frame size. Table 6-6 shows possible data and parity formats.

The transmitter consists of a serial shifter and a parallel data register (TDR) located in

the SCI data register (SCDR). The serial shifter cannot be directly accessed by the

CPU. The transmitter is double-buffered, which means that data can be loaded into

the TDR while other data is shifted out. The transmitter enable (TE) bit in SCCR1 en-

ables (TE = 1) and disables (TE = 0) the transmitter.

Shifter output is connected to the TXD pin while the transmitter is operating (TE = 1,

or TE = 0 and transmission in progress). Wired-OR operation should be specified

when more than one transmitter is used on the same SCI bus. The wired-OR mode

select bit (WOMS) in SCCR1 determines whether TXD is an open-drain (wired-OR)

output or a normal CMOS output. An external pull-up resistor on the TXD pin is nec-

essary for wired-OR operation. WOMS controls TXD function whether the pin is used

for SCI transmissions (TE = 1) or as a general-purpose I/O pin.

Data to be transmitted is written to TDR, then transferred to the serial shifter. The

transmit data register empty (TDRE) flag in SCSR shows the status of TDR. When

TDRE = 0, TDR contains data that has not been transferred to the shifter. Writing to

SCI Baud Clock Rate

Table 6-6 Effect of Parity Checking on Data Size

Freescale Semiconductor, Inc.

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System Clock

----------------------------------- -

32 SCBR

QUEUED SERIAL MODULE

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8 Data Bits

7 Data Bits, 1 Parity Bit

9 Data Bits

8 Data Bits, 1 Parity Bit

Result

6-27

mc68331cpv20b1 Freescale Semiconductor, Inc, mc68331cpv20b1 Datasheet - Page 153

mc68331cpv20b1

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