MC908AP32CFBE Datasheet, PDF(103/324 Page) Freescale Semiconductor, Inc – The following revision history table summarizes changes contained in this document. For your convenience, the page number designators have been linked to the appropriate location.

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MC908AP32CFBE Datasheet, PDF (103/324 Pages) Freescale Semiconductor, Inc – The following revision history table summarizes changes contained in this document. For your convenience, the page number designators have been linked to the appropriate location.

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SIM Counter

If the stop enable bit, STOP, in the mask option register is logic 0, the SIM treats the STOP instruction as

an illegal opcode and causes an illegal opcode reset. The SIM actively pulls down the RST pin for all

internal reset sources.

7.3.2.4 Illegal Address Reset

An opcode fetch from an unmapped address generates an illegal address reset. The SIM verifies that the

CPU is fetching an opcode prior to asserting the ILAD bit in the SIM reset status register (SRSR) and

resetting the MCU. A data fetch from an unmapped address does not generate a reset. The SIM actively

pulls down the RST pin for all internal reset sources.

7.3.2.5 Low-Voltage Inhibit (LVI) Reset

The low-voltage inhibit module (LVI) asserts its output to the SIM when the VDD voltage falls to the

LVITRIPF voltage. The LVI bit in the SIM reset status register (SRSR) is set, and the external reset pin

(RST) is held low while the SIM counter counts out 4096 + 32 ICLK cycles. Thirty-two ICLK cycles later,

the CPU is released from reset to allow the reset vector sequence to occur. The SIM actively pulls down

the RST pin for all internal reset sources.

7.3.2.6 Monitor Mode Entry Module Reset

The monitor mode entry module reset asserts its output to the SIM when monitor mode is entered in the

condition where the reset vectors are blank ($FF). (See Chapter 8 Monitor ROM (MON).) When MODRST

gets asserted, an internal reset occurs. The SIM actively pulls down the RST pin for all internal reset

sources.

7.4 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 (IBUS) clocks. The SIM counter also serves as

a prescaler for the computer operating properly module (COP). The SIM counter overflow supplies the

clock for the COP module. The SIM counter is 13 bits long and is clocked by the falling edge of

CGMXCLK.

7.4.1 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.

7.4.2 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 mask

option register. If the SSREC bit is a logic 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 canned

oscillators that do not require long start-up times from stop mode. External crystal applications should use

the full stop recovery time, that is, with SSREC cleared.

MC68HC908AP Family Data Sheet, Rev. 4

Freescale Semiconductor

103

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