PIC18F6525_13 Datasheet, PDF(87/400 Page) Microchip Technology – 64/80-Pin High-Performance, 64-Kbyte Enhanced Flash Microcontrollers with A/D

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PIC18F6525_13 Datasheet, PDF (87/400 Pages) Microchip Technology – 64/80-Pin High-Performance, 64-Kbyte Enhanced Flash Microcontrollers with A/D

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PIC18F6525/6621/8525/8621

9.0 INTERRUPTS

The PIC18F6525/6621/8525/8621 devices have multi-

ple interrupt sources and an interrupt priority feature

that allows each interrupt source to be assigned a high

or a low priority level. The high priority interrupt vector

is at 000008h, while the low priority interrupt vector is

at 000018h. High priority interrupt events will override

any low priority interrupts that may be in progress.

There are thirteen registers which are used to control

interrupt operation. They are:

â¢ RCON

â¢ INTCON

â¢ INTCON2

â¢ INTCON3

â¢ PIR1, PIR2, PIR3

â¢ PIE1, PIE2, PIE3

â¢ IPR1, IPR2, IPR3

It is recommended that the Microchip header files

supplied with MPLABÂ® IDE be used for the symbolic bit

names in these registers. This allows the assembler/

compiler to automatically take care of the placement of

these bits within the specified register.

Each interrupt source has three bits to control its

operation. The functions of these bits are:

â¢ Flag bit to indicate that an interrupt event

occurred

â¢ Enable bit that allows program execution to

branch to the interrupt vector address when the

flag bit is set

â¢ Priority bit to select high priority or low priority

The interrupt priority feature is enabled by setting the

IPEN bit (RCON<7>). When interrupt priority is

enabled, there are two bits which enable interrupts

globally. Setting the GIEH bit (INTCON<7>) enables all

interrupts that have the priority bit set. Setting the GIEL

bit (INTCON<6>) enables all interrupts that have the

priority bit cleared. When the interrupt flag, enable bit

and appropriate global interrupt enable bit are set, the

interrupt will vector immediately to address 000008h or

000018h, depending on the priority level. Individual

interrupts can be disabled through their corresponding

enable bits.

When the IPEN bit is cleared (default state), the

interrupt priority feature is disabled and interrupts are

compatible with PICÂ® mid-range devices. In

Compatibility mode, the interrupt priority bits for each

source have no effect. INTCON<6> is the PEIE bit

which enables/disables all peripheral interrupt sources.

INTCON<7> is the GIE bit which enables/disables all

interrupt sources. All interrupts branch to address

000008h in Compatibility mode.

When an interrupt is responded to, the global interrupt

enable bit is cleared to disable further interrupts. If the

IPEN bit is cleared, this is the GIE bit. If interrupt priority

levels are used, this will be either the GIEH or GIEL bit.

High priority interrupt sources can interrupt a low

priority interrupt.

The return address is pushed onto the stack and the

PC is loaded with the interrupt vector address

(000008h or 000018h). Once in the Interrupt Service

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

mined by polling the interrupt flag bits. The interrupt

flag bits must be cleared in software before re-enabling

interrupts to avoid recursive interrupts.

The âreturn from interruptâ instruction, RETFIE, exits

the interrupt routine and sets the GIE bit (GIEH or GIEL

if priority levels are used) which re-enables interrupts.

For external interrupt events, such as the INT pins or

the PORTB input change interrupt, the interrupt latency

will be three to four instruction cycles. The exact

latency is the same for one or two-cycle instructions.

Individual interrupt flag bits are set regardless of the

status of their corresponding enable bit or the GIE bit.

ï£ 2003-2013 Microchip Technology Inc.

DS39612C-page 87

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