PIC16F688 Datasheet, PDF(111/174 Page) Microchip Technology – 14-Pin Flash-Based, 8-Bit CMOS Microcontrollers with nanoWatt Technology

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PIC16F688 Datasheet, PDF (111/174 Pages) Microchip Technology – 14-Pin Flash-Based, 8-Bit CMOS Microcontrollers with nanoWatt Technology

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11.5 Interrupts

The PIC16F688 has 11 sources of interrupt:

â¢ External Interrupt RA2/INT

â¢ TMR0 Overflow Interrupt

â¢ PORTA Change Interrupts

â¢ 2 Comparator Interrupts

â¢ A/D Interrupt

â¢ Timer1 Overflow Interrupt

â¢ EEPROM Data Write Interrupt

â¢ Fail-Safe Clock Monitor Interrupt

The Interrupt Control (INTCON) register and Peripheral

Interrupt Request 1 (PIR1) register record individual

interrupt requests in flag bits. The INTCON register

also has individual and global interrupt enable bits.

A Global Interrupt Enable bit, GIE (INTCON<7>),

enables (if set) all unmasked interrupts, or disables (if

cleared) all interrupts. Individual interrupts can be

disabled through their corresponding enable bits in the

INTCON register and PIE1 register. GIE is cleared on

Reset.

The Return from Interrupt instruction, RETFIE, exits

the interrupt routine, as well as sets the GIE bit, which

re-enables unmasked interrupts.

The following interrupt flags are contained in the

INTCON register:

â¢ INT Pin Interrupt

â¢ PORTA Change Interrupt

â¢ TMR0 Overflow Interrupt

The peripheral interrupt flags are contained in the

special register, PIR1. The corresponding interrupt

enable bit is contained in special register, PIE1.

The following interrupt flags are contained in the PIR1

â¢ EEPROM Data Write Interrupt

â¢ A/D Interrupt

â¢ 2 Comparator Interrupts

â¢ Timer1 Overflow Interrupt

â¢ Fail-Safe Clock Monitor Interrupt

When an interrupt is serviced:

â¢ The GIE is cleared to disable any further interrupt.

â¢ The return address is pushed onto the stack.

â¢ The PC is loaded with 0004h.

PIC16F688

For external interrupt events, such as the INT pin or

PORTA change interrupt, the interrupt latency will be

three or four instruction cycles. The exact latency

depends upon when the interrupt event occurs (see

Figure 11-8). The latency is the same for one or two-

cycle instructions. Once in the Interrupt Service

Routine, the source(s) of the interrupt can be

determined by polling the interrupt flag bits. The

interrupt flag bit(s) must be cleared in software before

re-enabling interrupts to avoid multiple interrupt

requests.

Note 1: Individual interrupt flag bits are set,

regardless of the status of their

corresponding mask bit or the GIE bit.

2: When an instruction that clears the GIE

bit is executed, any interrupts that were

pending for execution in the next cycle

are ignored. The interrupts, which were

ignored, are still pending to be serviced

when the GIE bit is set again.

For additional information on Timer1, A/D or data

EEPROM modules, refer to the respective peripheral

section.

Preliminary

DS41203B-page 109

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