mc68331cpv20b1 Freescale Semiconductor, Inc, mc68331cpv20b1 Datasheet - Page 154

mc68331cpv20b1

Manufacturer Part Number

mc68331cpv20b1

Description

Mc68331 32 Bit Microcontroller

Manufacturer

Freescale Semiconductor, Inc

Datasheet

1.MC68331CPV20B1.pdf (254 pages)

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TDR again overwrites the data. TDRE is set when the data in TDR is transferred to the

shifter. Before new data can be written to TDR, however, the processor must clear

TDRE by writing to SCSR. If new data is written to TDR without first clearing TDRE,

the data will not be transmitted.

The transmission complete (TC) flag in SCSR shows transmitter shifter state. When

TC = 0, the shifter is busy. TC is set when all shifting operations are completed. TC is

not automatically cleared. The processor must clear it by first reading SCSR while TC

is set, then writing new data to TDR.

The state of the serial shifter is checked when the TE bit is set. If TC = 1, an idle frame

is transmitted as a preamble to the following data frame. If TC = 0, the current opera-

tion continues until the final bit in the frame is sent, then the preamble is transmitted.

The TC bit is set at the end of preamble transmission.

The send break (SBK) bit in SCCR1 is used to insert break frames in a transmission.

A nonzero integer number of break frames is transmitted while SBK is set. Break trans-

mission begins when SBK is set, and ends with the transmission in progress at the

time either SBK or TE are cleared. If SBK is set while a transmission is in progress,

that transmission finishes normally before the break begins. To assure the minimum

break time, toggle SBK quickly to one and back to zero. The TC bit is set at the end of

break transmission. After break transmission, at least one bit-time of logic level one

(mark idle) is transmitted to ensure that a subsequent start bit can be detected.

If TE remains set, after all pending idle, data and break frames are shifted out, TDRE

and TC are set and TXD is held at logic level one (mark).

When TE is cleared, the transmitter is disabled after all pending idle, data and break

frames are transmitted. The TC flag is set, and the TXD pin reverts to control by PQS-

PAR and DDRQS. Buffered data is not transmitted after TE is cleared. To avoid losing

data in the buffer, do not clear TE until TDRE is set.

Some serial communication systems require a mark on the TXD pin even when the

transmitter is disabled. Configure the TXD pin as an output (DDRQS), then write a one

to PORTQS bit 7. When the transmitter releases control of the TXD pin, it reverts to

driving a logic one output.

To insert a delimiter between two messages, to place nonlistening receivers in wakeup

mode between transmissions, or to signal a retransmission by forcing an idle line, clear

and then set TE before data in the serial shifter has shifted out. The transmitter finishes

the transmission, then sends a preamble. After the preamble is transmitted, if TDRE

is set, the transmitter will mark idle. Otherwise, normal transmission of the next se-

quence will begin.

Both TDRE and TC have associated interrupts. The interrupts are enabled by the

transmit interrupt enable (TIE) and transmission complete interrupt enable (TCIE) bits

in SCCR1. Service routines can load the last byte of data in a sequence into the TDR,

then terminate the transmission when a TDRE interrupt occurs.

QUEUED SERIAL MODULE

MC68331

6-28

USER’S MANUAL

For More Information On This Product,

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mc68331cpv20b1 Freescale Semiconductor, Inc, mc68331cpv20b1 Datasheet - Page 154

mc68331cpv20b1

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