MC9S08QE16CLC Datasheet, PDF(224/350 Page) Freescale Semiconductor, Inc – Low-power wireless applications, Gas, water and heater meters

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MC9S08QE16CLC Datasheet, PDF (224/350 Pages) Freescale Semiconductor, Inc – Low-power wireless applications, Gas, water and heater meters

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Serial Communications Interface (S08SCIV4)

Field

1

PE

0

PT

Table 13-3. SCIxC1 Field Descriptions (continued)

Description

Parity Enable â Enables hardware parity generation and checking. When parity is enabled, the most significant

bit (MSB) of the data character (eighth or ninth data bit) is treated as the parity bit.

0 No hardware parity generation or checking.

1 Parity enabled.

Parity Type â Provided parity is enabled (PE = 1), this bit selects even or odd parity. Odd parity means the total

number of 1s in the data character, including the parity bit, is odd. Even parity means the total number of 1s in

the data character, including the parity bit, is even.

0 Even parity.

1 Odd parity.

13.2.3 SCI Control Register 2 (SCIxC2)

This register can be read or written at any time.

R

W

Reset

Field

7

TIE

6

TCIE

5

RIE

4

ILIE

3

TE

7

6

5

4

3

2

1

0

TIE

TCIE

RIE

ILIE

TE

RE

RWU

SBK

0

0

0

0

0

0

0

0

Figure 13-7. SCI Control Register 2 (SCIxC2)

Table 13-4. SCIxC2 Field Descriptions

Description

Transmit Interrupt Enable (for TDRE)

0 Hardware interrupts from TDRE disabled (use polling).

1 Hardware interrupt requested when TDRE flag is 1.

Transmission Complete Interrupt Enable (for TC)

0 Hardware interrupts from TC disabled (use polling).

1 Hardware interrupt requested when TC flag is 1.

Receiver Interrupt Enable (for RDRF)

0 Hardware interrupts from RDRF disabled (use polling).

1 Hardware interrupt requested when RDRF flag is 1.

Idle Line Interrupt Enable (for IDLE)

0 Hardware interrupts from IDLE disabled (use polling).

1 Hardware interrupt requested when IDLE flag is 1.

Transmitter Enable

0 Transmitter off.

1 Transmitter on.

TE must be 1 in order to use the SCI transmitter. When TE = 1, the SCI forces the TxD pin to act as an output

for the SCI system.

When the SCI is configured for single-wire operation (LOOPS = RSRC = 1), TXDIR controls the direction of

traffic on the single SCI communication line (TxD pin).

TE also can be used to queue an idle character by writing TE = 0 then TE = 1 while a transmission is in progress.

Refer to Section 13.3.2.1, âSend Break and Queued Idleâ for more details.

When TE is written to 0, the transmitter keeps control of the port TxD pin until any data, queued idle, or queued

break character finishes transmitting before allowing the pin to revert to a general-purpose I/O pin.

MC9S08AC60 Series Data Sheet, Rev. 3

224

Freescale Semiconductor

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