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MC68HC11P2 Datasheet, PDF (203/268 Pages) Motorola, Inc – Microcontrollers
Freescale Semiconductor, Inc.
Resets and Interrupts
Low power operation
10.6.6 Reset and interrupt processing
The following flow diagrams illustrate the reset and interrupt process.
Figure 10-1 and Figure 10-2 illustrate how the CPU begins from a reset
and how interrupt detection relates to normal opcode fetches. Figure 10-
3 to Figure 10-4 provide an expanded version of a block in Figure 10-1
and illustrate interrupt priorities. Figure 10-6 shows the resolution of
interrupt sources within the SCI subsystem.
10.7 Low power operation
Both STOP and WAIT suspend CPU operation until a reset or interrupt
occurs. The WAIT condition suspends processing and reduces power
consumption to an intermediate level. The STOP condition turns off all
on-chip clocks and reduces power consumption to an absolute minimum
while retaining the contents of all bytes of the RAM.
10.7.1 WAIT
The WAI opcode places the MCU in the WAIT condition, during which
the CPU registers are stacked and CPU processing is suspended until a
qualified interrupt is detected. The interrupt can be an external IRQ, an
XIRQ, or any of the internally generated interrupts, such as the timer or
serial interrupts. The on-chip crystal oscillator remains active throughout
the WAIT stand-by period.
The reduction of power in the WAIT condition depends on how many
internal clock signals driving on-chip peripheral functions can be shut
down. The CPU is always shut down during WAIT. While in the wait
state, the address/data bus repeatedly runs read cycles to the address
where the CCR contents were stacked. The MCU leaves the wait state
when it senses any interrupt that has not been masked.
The free-running timer system is shut down only if the I-bit is set to one
and the COP system is disabled by NOCOP being set to one. Several
other systems can also be in a reduced power consumption state
MC68HC11P2 — Rev 1.0
Resets and Interrupts
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