System Integration Module (SIM)
MC68HC908GZ60 MC68HC908GZ48 MC68HC908GZ32 Data Sheet, Rev. 5
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Freescale Semiconductor
15.4 SIM Counter
The SIM counter is used by the power-on reset module (POR) and in stop mode recovery to allow the
oscillator time to stabilize before enabling the internal bus clocks. The SIM counter also serves as a
prescaler for the computer operating properly (COP) module. The SIM counter overflow supplies the clock
for the COP module. The SIM counter is 12 bits long.
15.4.1 SIM Counter During Power-On Reset
The power-on reset module (POR) detects power applied to the MCU. At power-on, the POR circuit
asserts the signal PORRST. Once the SIM is initialized, it enables the clock generation module (CGM) to
drive the bus clock state machine.
15.4.2 SIM Counter During Stop Mode Recovery
The SIM counter also is used for stop mode recovery. The STOP instruction clears the SIM counter. After
an interrupt, break, or reset, the SIM senses the state of the short stop recovery bit, SSREC, in the
CONFIG1 register. If the SSREC bit is a 1, then the stop recovery is reduced from the normal delay of
4096 CGMXCLK cycles down to 32 CGMXCLK cycles. This is ideal for applications using crystals with
the OSCENINSTOP bit set. External crystal applications should use the full stop recovery time, SSREC
15.4.3 SIM Counter and Reset States
External reset has no effect on the SIM counter. See
15.6.2 Stop Mode for details. The SIM counter is
internal reset recovery sequences.
15.5 Exception Control
Normal, sequential program execution can be changed in three different ways:
Interrupts:
–
Maskable hardware CPU interrupts
–
Non-maskable software interrupt instruction (SWI)
Reset
Break interrupts
15.5.1 Interrupts
At the beginning of an interrupt, the CPU saves the CPU register contents on the stack and sets the
interrupt mask (I bit) to prevent additional interrupts. At the end of an interrupt, the RTI instruction recovers
the CPU register contents from the stack so that normal processing can resume.
Figure 15-8 shows
interrupt entry timing.
Figure 15-9 shows interrupt recovery timing.
Interrupts are latched, and arbitration is performed in the SIM at the start of interrupt processing. The
arbitration result is a constant that the CPU uses to determine which vector to fetch. Once an interrupt is
latched by the SIM, no other interrupt can take precedence, regardless of priority, until the latched
interrupt is serviced (or the I bit is cleared). See
Figure 15-10.