MC68HC08AS32 Datasheet, PDF(104/280 Page) Motorola, Inc – M68HC08 Family of 8-bit microcontroller units (MCUs)

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MC68HC08AS32 Datasheet, PDF (104/280 Pages) Motorola, Inc – M68HC08 Family of 8-bit microcontroller units (MCUs)

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5.7.2 Stop Mode

When the STOP instruction executes, the SIM drives the SIMOSCEN signal low,

disabling the CGM and holding low all CGM outputs (CGMXCLK, CGMOUT, and

CGMINT).

If the STOP instruction is executed with the VCO clock (CGMVCLK) divided by two

driving CGMOUT, the PLL automatically clears the BCS bit in the PLL control

register (PCTL), thereby selecting the crystal clock (CGMXCLK) divided by two as

the source of CGMOUT. When the MCU recovers from STOP, the crystal clock

divided by two drives CGMOUT and BCS remains clear.

5.8 CGM During Break Interrupts

The system integration module (SIM) controls whether status bits in other modules

can be cleared during the break state. The BCFE bit in the SIM break flag control

register (SBFCR) enables software to clear status bits during the break state. (See

13.7.3 SIM Break Flag Control Register.)

To allow software to clear status bits during a break interrupt, write a logic 1 to the

BCFE bit. If a status bit is cleared during the break state, it remains cleared when

the MCU exits the break state.

To protect the PLLF bit during the break state, write a logic 0 to the BCFE bit. With

BCFE at logic 0 (its default state), software can read and write the PLL control

register during the break state without affecting the

PLLF bit.

5.9 Acquisition/Lock Time Specifications

The acquisition and lock times of the PLL are, in many applications, the most

critical PLL design parameters. Proper design and use of the PLL ensure the

highest stability and lowest acquisition/lock times.

5.9.1 Acquisition/Lock Time Definitions

Typical control systems refer to the acquisition time or lock time as the reaction

time, within specified tolerances, of the system to a step input. In a PLL, the step

input occurs when the PLL is turned on or when it suffers a noise hit. The tolerance

usually is specified as a percent of the step input or when the output settles to the

desired value plus or minus a percent of the frequency change. Therefore, the

reaction time is constant in this definition, regardless of the size of the step input.

For example, consider a system with a 5% acquisition time tolerance. If a

command instructs the system to change from 0 Hz to 1 MHz, the acquisition time

is the time taken for the frequency to reach 1 MHz Â±50 kHz. 50 kHz = 5% of the

1-MHz step input. If the system is operating at 1 MHz and suffers a â100-kHz noise

hit, the acquisition time is the time taken to return from 900 kHz to 1 MHz Â±5 kHz.

5 kHz = 5% of the 100-kHz step input.

Data Sheet

104

MC68HC08AS32 â Rev. 4.1

Freescale Semiconductor

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