MC68HC08GP32A Datasheet, PDF(148/258 Page) Freescale Semiconductor, Inc – Microcontrollers

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

MC68HC08GP32A Datasheet, PDF (148/258 Pages) Freescale Semiconductor, Inc – Microcontrollers

◁

Serial Communications Interface (SCI) Module

14.4.3.7 Receiver Interrupts

The following sources can generate CPU interrupt requests from the SCI receiver:

â¢ SCI receiver full (SCRF) â The SCRF bit in SCS1 indicates that the receive shift register has

transferred a character to the SCDR. SCRF can generate a receiver CPU interrupt request. Setting

the SCI receive interrupt enable bit, SCRIE, in SCC2 enables the SCRF bit to generate receiver

CPU interrupts.

â¢ Idle input (IDLE) â The IDLE bit in SCS1 indicates that 10 or 11 consecutive 1s shifted in from the

PTE1/RxD pin. The idle line interrupt enable bit, ILIE, in SCC2 enables the IDLE bit to generate

CPU interrupt requests.

14.4.3.8 Error Interrupts

The following receiver error flags in SCS1 can generate CPU interrupt requests:

â¢ Receiver overrun (OR) â The OR bit indicates that the receive shift register shifted in a new

character before the previous character was read from the SCDR. The previous character remains

in the SCDR, and the new character is lost. The overrun interrupt enable bit, ORIE, in SCC3

enables OR to generate SCI error CPU interrupt requests.

â¢ Noise flag (NF) â The NF bit is set when the SCI detects noise on incoming data or break

characters, including start, data, and stop bits. The noise error interrupt enable bit, NEIE, in SCC3

enables NF to generate SCI error CPU interrupt requests.

â¢ Framing error (FE) â The FE bit in SCS1 is set when a 0 occurs where the receiver expects a stop

bit. The framing error interrupt enable bit, FEIE, in SCC3 enables FE to generate SCI error CPU

interrupt requests.

â¢ Parity error (PE) â The PE bit in SCS1 is set when the SCI detects a parity error in incoming data.

The parity error interrupt enable bit, PEIE, in SCC3 enables PE to generate SCI error CPU interrupt

requests.

14.5 Low-Power Modes

The WAIT and STOP instructions put the MCU in low power- consumption standby modes.

14.5.1 Wait Mode

The SCI module remains active after the execution of a WAIT instruction. In wait mode, the SCI module

registers are not accessible by the CPU. Any enabled CPU interrupt request from the SCI module can

bring the MCU out of wait mode.

If SCI module functions are not required during wait mode, reduce power consumption by disabling the

module before executing the WAIT instruction.

Refer to Chapter 9 Low-Power Modes for information on exiting wait mode.

14.5.2 Stop Mode

The SCI module is inactive after the execution of a STOP instruction. The STOP instruction does not

affect SCI register states. SCI module operation resumes after an external interrupt.

Because the internal clock is inactive during stop mode, entering stop mode during an SCI transmission

or reception results in invalid data.

Refer to Chapter 9 Low-Power Modes for information on exiting stop mode.

MC68HC08GP32A â¢ MC68HC08GP16A Data Sheet, Rev. 1.0

148

Freescale Semiconductor

▷