PIC18F97J60 Datasheet, PDF(359/474 Page) Microchip Technology – 64/80/100-Pin, High-Performance, 1 Mbit Flash Microcontrollers with Ethernet

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PIC18F97J60 Datasheet, PDF (359/474 Pages) Microchip Technology – 64/80/100-Pin, High-Performance, 1 Mbit Flash Microcontrollers with Ethernet

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PIC18F97J60 FAMILY

FIGURE 24-5:

FSCM TIMING DIAGRAM

Sample Clock

Device

Clock

Output

CM Output

(Q)

OSCFIF

Oscillator

Failure

Failure

Detected

Note:

CM Test

CM Test

CM Test

The device clock is normally at a much higher frequency than the sample clock. The relative frequencies in

this example have been chosen for clarity.

24.5.3 FSCM INTERRUPTS IN

POWER-MANAGED MODES

By entering a power-managed mode, the clock

multiplexor selects the clock source selected by the

OSCCON register. Fail-Safe Monitoring of the

power-managed clock source resumes in the

power-managed mode.

If an oscillator failure occurs during power-managed

operation, the subsequent events depend on whether

or not the oscillator failure interrupt is enabled. If

enabled (OSCFIF = 1), code execution will be clocked

by the INTRC multiplexor. An automatic transition back

to the failed clock source will not occur.

If the interrupt is disabled, subsequent interrupts while

in Idle mode will cause the CPU to begin executing

instructions while being clocked by the INTRC source.

24.5.4 POR OR WAKE-UP FROM SLEEP

The FSCM is designed to detect oscillator failure at any

point after the device has exited Power-on Reset

(POR) or low-power Sleep mode. When the primary

device clock is either EC or INTRC, monitoring can

begin immediately following these events.

For HS or HSPLL modes, the situation is somewhat

different. Since the oscillator may require a start-up

time considerably longer than the FSCM sample clock

time, a false clock failure may be detected. To prevent

this, the internal oscillator block is automatically config-

ured as the device clock and functions until the primary

clock is stable (the OST and PLL timers have timed

out). This is identical to Two-Speed Start-up mode.

Once the primary clock is stable, the INTRC returns to

its role as the FSCM source.

Note:

The same logic that prevents false oscilla-

tor failure interrupts on POR, or wake from

Sleep, will also prevent the detection of

the oscillatorâs failure to start at all follow-

ing these events. This can be avoided by

monitoring the OSTS bit and using a

timing routine to determine if the oscillator

is taking too long to start. Even so, no

oscillator failure interrupt will be flagged.

As noted in Section 24.4.1 âSpecial Considerations

for Using Two-Speed Start-upâ, it is also possible to

select another clock configuration and enter an alternate

power-managed mode while waiting for the primary

clock to become stable. When the new power-managed

mode is selected, the primary clock is disabled.

Â© 2006 Microchip Technology Inc.

Advance Information

DS39762A-page 357

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