External Interrupt (IRQ)
IRQ Pin
MC68HC08AS32A — Rev. 1
Data Sheet
MOTOROLA
External Interrupt (IRQ)
139
8.4 IRQ Pin
A falling edge on the IRQ pin latches an interrupt request into the IRQ latch.
A vector fetch, software clear, or reset clears the IRQ latch.
If the MODE bit is set, the IRQ pin is both falling-edge sensitive and low-level
sensitive. With MODE set, both of the following actions must occur to clear the IRQ
latch:
Vector fetch or software clear — A vector fetch generates an interrupt
acknowledge signal to clear the latch. Software may generate the interrupt
acknowledge signal by writing a 1 to the ACK bit in the interrupt status and
control register (ISCR). The ACK bit is useful in applications that poll the IRQ
pin and require software to clear the IRQ latch. Writing to the ACK bit can
also prevent spurious interrupts due to noise. Setting ACK does not affect
subsequent transitions on the IRQ pin. A falling edge on IRQ that occurs
after writing to the ACK bit latches another interrupt request. If the IRQ mask
bit, IMASK, is clear, the CPU loads the program counter with the vector
address at locations $FFFA and $FFFB.
Return of the IRQ pin to logic 1 — As long as the IRQ pin is at logic 0, the
IRQF flag remains set.
The vector fetch or software clear and the return of the IRQ pin to logic 1 can occur
in any order. The interrupt request remains pending as long as the IRQ pin is at
logic 0. A reset will clear the latch and the MODE control bit, thereby clearing the
interrupt even if the pin stays low.
If the MODE bit is clear, the IRQ pin is falling-edge sensitive only. With MODE
clear, a vector fetch or software clear immediately clears the IRQ latch.
The IRQF bit in the ISCR register can be used to check for pending interrupts. The
IRQF bit is not affected by the IMASK bit, which makes it useful in applications
where polling is preferred.
Use the BIH or BIL instruction to read the logic level on the IRQ pin.
NOTE:
When using the level-sensitive interrupt trigger, avoid false interrupts by masking
interrupt requests in the interrupt routine.
8.5 IRQ Module During Break Interrupts
The system integration module (SIM) controls whether the IRQ interrupt latch can
be cleared during the break state. The BCFE bit in the SIM break flag control
register (SBFCR) enables software to clear the latches during the break state. (See
14.7.3 SIM Break Flag Control Register
.)
To allow software to clear the IRQ latch during a break interrupt, write a 1 to the
BCFE bit. If a latch is cleared during the break state, it remains cleared when the
MCU exits the break state.
F
Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
n
.