PIC18F2455_09 Datasheet, PDF(137/438 Page) Microchip Technology – 28/40/44-Pin,High-Performance,Enhanced Flash,USB Microcontrollers with nanoWatt Technology

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PIC18F2455_09 Datasheet, PDF (137/438 Pages) Microchip Technology – 28/40/44-Pin,High-Performance,Enhanced Flash,USB Microcontrollers with nanoWatt Technology

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PIC18F2455/2550/4455/4550

12.7 Considerations in Asynchronous

Counter Mode

Following a Timer1 interrupt and an update to the

TMR1 registers, the Timer1 module uses a falling edge

on its clock source to trigger the next register update on

the rising edge. If the update is completed after the

clock input has fallen, the next rising edge will not be

counted.

If the application can reliably update TMR1 before the

timer input goes low, no additional action is needed.

Otherwise, an adjusted update can be performed

following a later Timer1 increment. This can be done

by monitoring TMR1L within the interrupt routine until it

increments, and then updating the TMR1H:TMR1L reg-

ister pair while the clock is low, or one-half of the period

of the clock source. Assuming that Timer1 is being

used as a Real-Time Clock, the clock source is a

32.768 kHz crystal oscillator; in this case, one-half

period of the clock is 15.25 Î¼s.

The Real-Time Clock application code in Example 12-1

shows a typical ISR for Timer1, as well as the optional

code required if the update cannot be done reliably

within the required interval.

EXAMPLE 12-1: IMPLEMENTING A REAL-TIME CLOCK USING A TIMER1 INTERRUPT SERVICE

RTCinit

RTCisr

MOVLW

MOVWF

CLRF

MOVLW

MOVWF

CLRF

CLRF

MOVLW

MOVWF

BSF

RETURN

80h

TMR1H

TMR1L

bâ00001111â

T1CON

secs

mins

.12

hours

PIE1, TMR1IE

; Preload TMR1 register pair

; for 1 second overflow

; Configure for external clock,

; Asynchronous operation, external oscillator

; Initialize timekeeping registers

;

; Enable Timer1 interrupt

BTFSC

BRA

BTFSS

BRA

TMR1L,0

$-2

TMR1L,0

$-2

BSF

BCF

INCF

MOVLW

CPFSGT

RETURN

CLRF

INCF

MOVLW

CPFSGT

RETURN

CLRF

INCF

MOVLW

CPFSGT

RETURN

CLRF

RETURN

TMR1H, 7

PIR1, TMR1IF

secs, F

.59

secs

secs

mins, F

.59

mins

mins

hours, F

.23

hours

hours

; Insert the next 4 lines of code when TMR1

; can not be reliably updated before clock pulse goes low

; wait for TMR1L to become clear

; (may already be clear)

; wait for TMR1L to become set

; TMR1 has just incremented

; If TMR1 update can be completed before clock pulse goes low

; Start ISR here

; Preload for 1 sec overflow

; Clear interrupt flag

; Increment seconds

; 60 seconds elapsed?

; No, done

; Clear seconds

; Increment minutes

; 60 minutes elapsed?

; No, done

; clear minutes

; Increment hours

; 24 hours elapsed?

; No, done

; Reset hours

; Done

Â© 2009 Microchip Technology Inc.

DS39632E-page 135

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