;-------------------------------------------------------------------------; ; A countdown timer for Psychoanalysis ; ; ORIGINAL CODE April '99 Stan Ockers (ockers@anl.gov) ; ; Re-written by Brendon Archibald April 2007 ; ; Optimized for battery operation ; ; Moddified for use in the 16F628A uP - Use internal OSC No XTAL required ; ; My mods mostly have ;* comments original code is just ; ; ; Modifications from original code include: ; ; 1\ Auto restart when reached zero. ; ; 2\ 0 Digit blanking on least significant digits. ; ; 3\ Improved alarm noise by stopping interupts. ; ; 4\ Combined Set and Select switch functions (long press for Set) ; ; Changed set routine, now start button increments digits and ; ; 5\ select button locks in digits. ; ; 6\ Add power off feature combined with Start switch (long press) ; ; 7\ Add 2 min Auto shutdown timer when not counting. ; ; 8\ Whist in power down uP sleeps till start button pressed ; ; 9\ Remove CD4511 from original design - Use retlw table for segments ; ; Counts down from 0-99 min and 1-59 sec giving an alarm at 0 ; ; Initial counts are held in data EEPROM ; ; and can be selected and set with one button ; ; ; ; *RAO-RA3 to bases of NPN transistors connect to cathode's of displays. ; ; **RB0-RB6 to 7segment display digits a, b, c, d, e, f & g. ; ; * RA6 to Decimal Point Anode, Cathode to ground. ; ; RB7 to start pushbutton used to start countdown and power off . ; ; RA4 is an output whilst counting (Active low Open Drain) ; ; RA5 with pull-up resistor goes to PB to select from 15 starting counts ; ; RA7 go's to piezo element via 100r resistor which gives an alarm. ; ;-------------------------------------------------------------------------; list p=16f628A ; list directive to define processor #include <p16F628A.inc> ; processor specific variable definitions errorlevel -302 ; suppress message 302 from list file __CONFIG _CP_OFF & _DATA_CP_OFF & _LVP_OFF & _BOREN_OFF & _MCLRE_OFF & _WDT_OFF & _PWRTE_ON & _INTOSC_OSC_NOCLKOUT ;* Config's for MPLAB ;-------------------------------------------------------------------------; ; Here we define our own personal registers and give them names ; ; *All moved to 16F6xx register locations* ; ;-------------------------------------------------------------------------; SEC EQU H'20' ; this register holds the value of seconds SEC10 EQU H'21' ; holds value of 10's of seconds MIN EQU H'22' ; holds value of minutes MIN10 EQU H'23' ; holds value of 10's of minutes DIGCTR EQU H'24' ; 8 bit counter, only 2 lowest bits actually used DIGIT EQU H'25' ; hold digit number to access table INTCNT EQU H'26' ; counts # interrupts to determine when 1 sec up FUDGE EQU H'27' ; allows slight adjustment every 7 interrupts RUNFLG EQU H'28' ; bit 0 only, tells if countdown in progress SECNT EQU H'29' ; used in counting 50, 20 msec delays for 1 sec CNTMSEC EQU H'2A' ; used in timing of milliseconds ALARM EQU H'2B' ; bit 0 used as flag for when to alarm, ALSO SETS ALARM LENGTH DISPSET EQU H'2C' ;* bit 0 tells if in SETDISP and avoid bit blanking routine NOISELP EQU H'2D' ;* USED FOR NOISE LOOP BEEPS EQU H'2E' ;* USED FOR NUMBER OF BEEPS AUTOFF EQU H'2F' ;* USED FOR AUTO OFF TIMER BEEPDUR EQU H'30' ;* TEMP REG FOR BEEP DURATION PORTA_TEMP EQU H'31' ;* temporarily holds value of PORTA (MASKED) DPLATCH EQU H'32' ;* Holds latched value for DP DPCNT EQU H'33' W_TEMP EQU H'70' ; temporarily holds value of W STATUS_TEMP EQU H'71' ; temporarily holds value of STATUS OFFSET EQU H'72' ; hold offset of address in EEPROM ;-------------------------------------------------------------------------; ; Here we give names to some numbers to make their use more clear ; ;-------------------------------------------------------------------------; #DEFINE START_PB D'7' ;#DEFINE SET_PB D'6' ;** Delete use of set button on RB6 #DEFINE SELECT_PB D'5' #DEFINE DP D'6' #DEFINE RA7 D'7' #DEFINE OUTPUT D'4' ;#DEFINE RB5 D'5' ;** Not needed anymore ;-------------------------------------------------------------------------; ; We set the start of code to orginate at location zero ; ;-------------------------------------------------------------------------; ORG 0 GOTO MAIN ; jump to the main routine NOP NOP NOP GOTO INTERRUPT ; interrupt routine ;-------------------------------------------------------------------------; ;* Lookup table for 7segment display - replaces CD/HEF4511 display driver ; ; ;-------------------------------------------------------------------------; SEGMENT ADDWF PCL,f ; Bit table data for 7 segment digits RETLW B'00111111' ; "0" _a_ RETLW B'00000110' ; "1" f| |b RETLW B'01011011' ; "2" |_g_| RETLW B'01001111' ; "3" e| |c RETLW B'01100110' ; "4" |_d_| RETLW B'01101101' ; "5" RETLW B'01111101' ; "6" g to a RETLW B'00000111' ; "7" RETLW B'01111111' ; "8" RETLW B'01101111' ; "9" RETLW B'00000000' ; "10 = blank" RETLW B'01011100' ; "11 = o" RETLW B'01110001' ; "12 = F" RETLW B'01101101' ; "13 = S" RETLW B'01111001' ; "14 = E" RETLW B'01110000' ; "15 = t" ;-------------------------------------------------------------------------; ; This table is used to get a bit pattern that will turn on a digit ; ; But only if next segment is not = 0 ie. O bit blanking ; ; Bit blanking not used if in SETDISP routine ie. DISPSET flag set ; ; I know this can be done a better way but it worked so... ; ;-------------------------------------------------------------------------; BITPAT2 ADDWF PCL,f ;* get bit pattern for transistors - NO BIT BLANKING RETLW H'01' ;* 0001 RETLW H'02' ;* 0010 RETLW H'04' ;* 0100 RETLW H'08' ;* 1000 BLANK1 MOVF MIN10,f ;* check MIN10 for zero BTFSS STATUS,Z ;* SHOWMIN RETLW H'04' ;* 0100 MOVF MIN,f ;* check MIN for zero BTFSS STATUS,Z GOTO SHOWMIN ;* NOT 0 SO SHOW BIT GOTO BLANKDIG ;* MIN10 & MIN = 0 SO BLANK BIT BLANK2 MOVF MIN10,f ;* check MIN10 for zero BTFSS STATUS,Z GOTO SHOWSEC10 MOVF MIN,f ;* check MIN for zero BTFSS STATUS,Z SHOWSEC10 RETLW H'02' ;* 0010 MOVF SEC10,f ;* check SEC10 for zero BTFSS STATUS,Z GOTO SHOWSEC10 ;* NOT 0 SO SHOW BIT GOTO BLANKDIG ;* MIN10 & MIN & SEC10 = 0 SO BLANK BIT BITPAT BTFSC DISPSET,0 ;* If in display set mode GOTO BITPAT2 ;* then goto BITBAT2 otherwise continue BITPAT1 ADDWF PCL,f ;* get bit pattern for tranys, 0 turns segment on SHOWSEC RETLW H'01' ;* 0001 Seconds never blank GOTO BLANK2 ;* SEC10 digit call - Blank if MIN & SEC10 = 0 GOTO BLANK1 ;* MIN10 digit call - Blank if MIN10 & MIN = 0 MOVF MIN10,f ;* check MIN10 for zero BTFSS STATUS,Z ;* If MIN10 = 0 Blank MIN10 Segment SHOWMIN10 RETLW H'08' ;* 1000 BLANKDIG RETLW H'00' ;* 0000 Blank DIGITS if 0 ;-------------------------------------------------------------------------; ; Initialization routine sets up ports and timer ; ;-------------------------------------------------------------------------; INIT CLRF PORTB ; initialize PORTB CLRF PORTA ; initialize PORTA MOVLW H'07' ;* 16F6XX Specific - Turn comparators off and MOVWF CMCON ;* enable pins for I/O functions BSF STATUS,RP0 ; Select Bank1 MOVLW B'10000000' ; RB7 input all others outputs MOVWF TRISB ;* Updated command from original code MOVLW B'00100000' ; Port RA5 input, others outputs MOVWF TRISA ;* Updated command from original code MOVLW H'03' ; prescaler on TMR0 and 1:16 MOVWF OPTION_REG ;* write to OPTION register * Updated command BCF STATUS,RP0 ; back to bank0 MOVLW H'A0' ; GIE & T0IE set T0IF cleared MOVWF INTCON MOVLW H'F4' ; initialize INTCNT MOVWF INTCNT MOVLW H'06' ; initialize FUDGE MOVWF FUDGE CLRF OFFSET ; initialize OFFSET MOVLW D'122' ;* initialize DPCNT MOVWF DPCNT ;* BSF PORTA,OUTPUT ;* Set OUTPUT RA4 (Counting not in Progress) RETURN ;-------------------------------------------------------------------------; ; This is the interrupt routine that is jumped to when TMR0 overflows ; ;-------------------------------------------------------------------------; INTERRUPT MOVWF W_TEMP ; save W SWAPF STATUS,W ; save status MOVWF STATUS_TEMP ; without changing flags BCF STATUS,RP0 ; return to bank 0 BCF STATUS,RP1 ; return to bank 0 (shut ric up) MOVF PORTA,W ;* Save PORTA to w reg ANDLW B'11010000' ;* Mask off RA7,RA6 & RA4 (Outputs) MOVWF PORTA_TEMP ;* Save it for later MOVWF PORTA ;* Load it back into PORTA i.e. blank digits only INCF DIGCTR,f ; next digit # MOVF DIGCTR,W ; get it into W ANDLW H'03' ; mask off 2 lowest bits MOVWF DIGIT ; save it for later ADDLW H'20' ;* point at register to display - moved due to 16F6XX MOVWF FSR ; use as pointer MOVF INDF,W ; get value of reg pointed to into W CALL SEGMENT ;* Call segment lookup, return with value in w MOVWF PORTB ; load w into portb - output to 7seg display's MOVF DIGIT,W ; recall digit # CALL BITPAT ;* get bit pattern, return with value in w ADDWF PORTA_TEMP,W ;*Add bit pattern to PORTA_TEMP keep value in W MOVWF PORTA ; load w into porta - i.e select segment/ETC DECFSZ DPCNT,f ;* Decrement and check if DPCNT = 0 GOTO CONTINT ;* Not 0 so continue interrupt COMF DPLATCH,F ;* Is 0 so invert DPLATCH ;MOVLW D'122' ;* Reset DPCNT ;MOVWF DPCNT ;* CONTINT DECFSZ INTCNT,f ; finished 1 sec ? GOTO RESTORE ; not yet, return and enable inter. CALL EVERYSEC ; go to every second routine MOVLW H'F4' ; reset INTCNT to normal value MOVWF INTCNT DECFSZ FUDGE,f ; time for fudge? GOTO RESTORE ; not yet, continue on MOVLW H'06' ; reset FUDGE to 6 MOVWF FUDGE INCF INTCNT,f ; INTCNT to 245 RESTORE SWAPF STATUS_TEMP,W ; get original status back MOVWF STATUS ; into status register SWAPF W_TEMP,f ;* old no flags trick again SWAPF W_TEMP,W ;* to restore W BCF INTCON,T0IF ; clear the TMR0 interrupt flag RETFIE ; finished ;-------------------------------------------------------------------------; ; This routine is called by the interrupt routine every second ; ;-------------------------------------------------------------------------; EVERYSEC BTFSS RUNFLG,0 ; return if runflg not set RETURN BSF DPLATCH,0 MOVLW D'122' ;* Reset DPCNT MOVWF DPCNT DECF SEC,f ; decrement seconds digit INCFSZ SEC,W ; test for underflow GOTO CKZERO MOVLW H'09' MOVWF SEC ; reset sec to 9 DECF SEC10,f ; decrement SEC10 INCFSZ SEC10,W ; check underflow GOTO CKZERO MOVLW H'05' MOVWF SEC10 ; reset SEC10 to 5 DECF MIN,f ; decrement MIN INCFSZ MIN,W ; check underflow GOTO CKZERO MOVLW H'09' MOVWF MIN ; reset MIN to 9 DECF MIN10,f ; decrement MIN10 CKZERO MOVF SEC,f ; test SEC for zero BTFSS STATUS,Z RETURN MOVF SEC10,f ; check SEC10 for zero BTFSS STATUS,Z RETURN MOVF MIN,f ; check MIN for zero BTFSS STATUS,Z RETURN MOVF MIN10,f ; check MIN10 for zero BTFSS STATUS,Z RETURN CLRF RUNFLG ; stop the countdown BCF PORTA,DP ;* clear decimal point BSF ALARM, 0 ; set the alarm flag RETURN ;-------------------------------------------------------------------------; ; This routine is called by the MAINLOOP to set or clear the DP ; ;-------------------------------------------------------------------------; DPSET BTFSC DPLATCH,0 ;* Test DPLATCH bit0 GOTO DPOFF ;* If 0 clear decimal point BSF PORTA,DP ;* If 1 turn on decimal point RETURN DPOFF BCF PORTA,DP ;* TURN OFF decimal point RETURN ;-------------------------------------------------------------------------; ; This is a routine to read a byte from the data EEPROM ; ;-------------------------------------------------------------------------; READEE BSF STATUS,RP0 ;* change to bank 1 - needed it MOVWF EEADR ; set up eeprom address from W BSF EECON1,RD ; set the read bit MOVF EEDATA,W ; return value in W BCF STATUS,RP0 ;* back to bank 0 RETURN ;-------------------------------------------------------------------------; ; This routine fills the display registers from data EEPROM ; ;-------------------------------------------------------------------------; GETEE MOVLW H'01' ; EEprom location 1 + ADDWF OFFSET,W ; offset from start CALL READEE ; into W MOVWF SEC ; into SEC register MOVLW H'02' ; location 2 + ADDWF OFFSET,W ; offset from start CALL READEE ; into W MOVWF SEC10 ; into SEC10 register MOVLW H'03' ; location 3 + ADDWF OFFSET,W ; offset from start CALL READEE ; into W MOVWF MIN ; into MIN register MOVLW H'04' ; location 4 + ADDWF OFFSET,W ; offset from start CALL READEE ; into W MOVWF MIN10 ; into MIN10 register RETURN ;-------------------------------------------------------------------------; ; This routine writes a byte to data EEPROM ; ;-------------------------------------------------------------------------; WRITECHK BCF INTCON,GIE ; clear GIE, disable interrupts WRITEEE BTFSC INTCON,GIE ;* Check if interrupt is disabled GOTO WRITECHK ;* If not disabled then do so BSF STATUS,RP0 ; Change to bank1 CLRF EECON1 BSF EECON1,WREN ; enable write MOVLW H'55' ; magic sequence MOVWF EECON2 MOVLW H'AA' MOVWF EECON2 BSF EECON1,WR ;* Write data to EEPROM EELOOP BTFSC EECON1,WR ; wait for WR to go low i.e. Finished write GOTO EELOOP ; not yet check again BCF EECON1,WREN ;* Finished write, disable write enable BCF EECON1,EEIF ; clear the interrupt flag BCF STATUS,RP0 ; return to bank0 BSF INTCON, GIE ; re-enable interrupts RETURN ;-------------------------------------------------------------------------; ; This routine puts display registers into data EEPROM ; ;-------------------------------------------------------------------------; PUTEE MOVF SEC,W BSF STATUS,RP0 ;* change to bank 1 to make it work MOVWF EEDATA MOVLW H'01' ; EEPROM location 1 + ADDWF OFFSET,W ; offset from start MOVWF EEADR CALL WRITEEE ; put SEC digit into EEprom MOVF SEC10,W BSF STATUS,RP0 ;* change to bank 1 to make it work MOVWF EEDATA MOVLW H'02' ; EEPROM location 2 + ADDWF OFFSET,W ; offset from start MOVWF EEADR CALL WRITEEE ; put SEC10 digit into EEprom MOVF MIN,W BSF STATUS,RP0 ;* change to bank 1 to make it work MOVWF EEDATA MOVLW H'03' ; EEPROM location 3 + ADDWF OFFSET,W ; offset from start MOVWF EEADR CALL WRITEEE ; put MIN digit into EEprom MOVF MIN10,W BSF STATUS,RP0 ;* change to bank 1 to make it work MOVWF EEDATA MOVLW H'04' ; EEPROM location 4 + ADDWF OFFSET,W ; offset from start MOVWF EEADR CALL WRITEEE ; put MIN10 digit into EEprom RETURN ;-------------------------------------------------------------------------; ; This is the main routine, the program starts here ; ;-------------------------------------------------------------------------; MAIN CALL INIT ; set up ports etc. ;-------------------------------------------------------------------------; ; We will return to this point when alarm is shut off. ; ;-------------------------------------------------------------------------; EE2D CALL GETEE ; put eeprom in display regs. BCF RUNFLG, 0 ; clear run flag so no countdown BCF ALARM, 0 ; clear alarm flag BCF DISPSET,0 ;* Initialise DISPSET flag (Enable Blanking) CALL WAITSTARTUP ; wait till no switches pressed CALL WAITSELECT ;-------------------------------------------------------------------------; ; This loop checks for either pushbutton and acts accordingly ; ; If however no switches are pressed for over a preset time call the ; ; SHUTOFF routine. ; ;-------------------------------------------------------------------------; ; Setup AUTOFF TIMEOUT with interrupt gives 2 min delay KEYCHKLOOP MOVLW H'78' ;* 120 INTO AUTO OFF COUNTER MOVWF AUTOFF ;* 120 X .8SEC = 96sec BEFORE AUTO OFF MOVLW H'C8' ;* 200 INTO FIRST COUNTER MOVWF SECNT ;* 200 X 4MSEC = .8SEC or so AUTOFFLOOP MOVLW H'04' ;* 4MSEC DELAY CALL NMSEC BTFSS PORTB,START_PB ; check for start pressed GOTO STARTLONG ;* yes, check for long press BTFSS PORTA,SELECT_PB ; No, check select pushbutton pressed GOTO SELLONG ;* yes, check for long press. DECFSZ SECNT,f ;* no switches, decrement secnt, check for 0 GOTO AUTOFFLOOP ;* secnt not 0 so loop DECFSZ AUTOFF,f ;* secnt is 0, decrement autoff, check for 0 GOTO AUTOFFLOOP ;* autoff not 0 so loop GOTO SHUTOFF ;* autoff is 0 so GOTO SHUTOFF ;-------------------------------------------------------------------------; ; Long Start press routine - If short press then skip to STARTCNT if long ; ; then blank display, stop interrupts and SLEEP till start pressed again. ; ; Upon Start press restart interupts and goto EE2D i.e. LIKE POWER UP ;-------------------------------------------------------------------------; STARTLONG MOVLW H'23' ;* 35 DELAYS MOVWF SECNT ;* INTO SECNT REGISTER STARTLOOP CALL DLY20 ;* CALL 20 MSEC DELAY BTFSC PORTB,START_PB ;* Check, START BUTTON GOTO STARTCNT ;* IF IT IS (i.e SHORT PRESS) START COUNT DECFSZ SECNT,f ;* IF NOT DECREMENT SECNT AND CHECK IF IT REACHES ZERO GOTO STARTLOOP ;* IF IT HASNT GO AND CHECK BUTTON AGAIN CALL SHORTBEEP ;* Make a small noise SHUTOFF MOVLW H'0A' ;* IF THE START BUTTON IS STILL DOWN AFTER 35 LOOPS MOVWF MIN10 ;* Blank 10's of minutes, MOVLW H'0B' ;* put a o in MOVWF MIN ;* minutes MOVLW H'0C' ;* Put an "F" in MOVWF SEC10 ;* 10's of seconds MOVWF SEC ;* and seconds CALL WAITSTARTUP MOVLW H'02' ;* NUMBER OF BEEPS MOVWF BEEPS ;* LOAD 5 INTO BEEPS MOVLW H'02' ;* duration of beeps MOVWF BEEPDUR ;* ETC CLRF PORTB CALL BEEP ;* CALL BEEP MOVLW D'250' CALL NMSEC BCF INTCON, GIE ;* COME BACK FROM BEEP - DISABLE INTERUPTS CLRF PORTB MOVLW B'00010000' ;* select transistors - i.e. ALL OFF MOVWF PORTA ;* MOVLW H'08' ;* Set INTCON RBIE - wake on PORTB MOVWF INTCON ;* Also GIE & T0IE & T0IF cleared CLRF TMR0 ;* and clear timer 0 - SOUNDED LIKE A GOOD IDEA? SLEEP ;* Goto sleep, wait for button NOP ;* Required delay? ;BCF INTCON, RBIF ;* DIDNT WORK AND DIDNT SEEM TO NEED IT?? CALL SHORTBEEP ;* Make a small noise MOVLW H'A0' ;* WAKE UP - GIE & T0IE set T0IF cleared MOVWF INTCON ;* i.e. restart interupts GOTO EE2D ;* Reload last eeprom & wait for start etc ;-------------------------------------------------------------------------; ; If start key has been pressed then start countdown process, ; ; I initially released this code with only the setting of the ; ; run flag included. If you think about it you must also reset ; ; TMR0 to zero. TMR0 is free running and could have any value ; ; 0-255 when the button in pressed. Also INTCNT has to be ; ; initialized because the previous count could have been cancelled. ; ;-------------------------------------------------------------------------; STARTCNT CALL SHORTBEEP ;* Make a small noise CALL WAITSTARTUP ; wait for release of start key SUBSTART MOVLW D'244' ; reset INTCNT MOVWF INTCNT CLRF DPLATCH ; reset DPLATCH CLRF TMR0 ; and clear timer 0 BSF RUNFLG, 0 ; start the countdown ;BCF PORTA,OUTPUT ;* Clear OUTPUT RA4 (Counting in Progress) ;-------------------------------------------------------------------------; ; Once started just loop looking for cancel or reaching 0000 ; ;-------------------------------------------------------------------------; MAINLOOP BTFSS PORTB,START_PB ; countdown in progress, check start GOTO STOPCNT ; Yes, Stop count CALL DPSET ;* No start switch, Set or clear decimal point BTFSS ALARM, 0 ; Reached 0000 yet? GOTO MAINLOOP ; no, ALARM = 0 continue looping BCF INTCON, GIE ; yes, ALARM = 1 disable interrupts BCF PORTA,DP ;* Clear decimal point BSF PORTA,OUTPUT ;* Set OUTPUT RA4 (Counting not in Progress) CALL SOUNDALARM ; CALL SOUNDALARM routine and come back BSF INTCON, GIE ; RE-ENABLE interrupts CALL GETEE ; put eeprom in display regs. BCF ALARM, 0 ; clear alarm flag GOTO SUBSTART ; ***Auto Restart triger point*** STOPCNT BCF PORTA,DP ;* Clear decimal point ;BSF PORTA,OUTPUT ;* Set OUTPUT RA4 (Counting not in Progress) CALL SHORTBEEP ;* Make a small noise GOTO EE2D ;-------------------------------------------------------------------------; ; This code sounds the alarm ; ; Produces 1 long 1KHz tone at end of time out - ; ;-------------------------------------------------------------------------; SOUNDALARM MOVLW B'00111111' ;* LOAD a "0" ONTO SEGMENTS MOVWF PORTB ;* Load into PORTB MOVLW H'01' ;* NUMBER OF BEEPS MOVWF BEEPS MOVLW H'14' ; ? delays of ? msec = ?sec or so into BEEPDUR reg MOVWF BEEPDUR BEEP BCF INTCON, GIE ;* DISABLE INTERUPTS T0 CLEAN UP SOUND BEEP2 MOVFW BEEPDUR ;* LOAD BEEPDUR INTO W MOVWF ALARM ; LOAD W INTO ALARM REG - lazy and use ALARM reg for tone duration NOISE MOVLW H'FF' ; 255 delays of 400 usec = 954usec or so MOVWF NOISELP ; into NOISELP register NOISELOOP MOVF PORTA,W ANDLW B'11010000' XORLW B'10000000' ;* TOGGLE PORTA RA7 (Buzzer) MOVWF PORTA MOVLW H'08' ; delay 8x10=80 microseconds (Freq of buzz) CALL N10USEC INCF DIGCTR,f ;* If RA7 is a 0 increment digit # MOVF DIGCTR,W ;* get it into W ANDLW H'03' ;* mask off 2 lowest bits CALL BITPAT2 ;* get bit pattern for transistors ADDWF PORTA,f ;* As a result gives basic multiplex display DIGDIS DECFSZ NOISELP,f ; finished delay? GOTO NOISELOOP ;* NO - DO IT AGAIN DECFSZ ALARM,f ; Check alarm reg for 0, decrement if not GOTO NOISE ;* and loop MOVLW B'00010000' ;* select transistors - i.e. ALL OFF MOVWF PORTA ;* MOVLW H'C8' ;* DELAY BETWEEN BEEPS CALL NMSEC ;* DECFSZ BEEPS,f GOTO BEEP2 STOPBEEP BSF INTCON, GIE ; RE-ENABLE interrupts RETURN SHORTBEEP MOVLW D'100' ; 100 delays of 80usec = 8msec or so MOVWF NOISELP BEEPLOOP MOVLW B'10000000' ;* XOR (TOGGLE) RA7 XORWF PORTA,1 MOVLW H'08' ; delay 8x10=80 microseconds (Freq of buzz) CALL N10USEC DECFSZ NOISELP,f ; finished delay? GOTO BEEPLOOP ;* NO - DO IT AGAIN BCF PORTA,RA7 ;* YES BEEP PROCESS FINISHED CLEAR SPEAKER PIN RETURN ;* GO BACK ;-------------------------------------------------------------------------; ; Wait for release of start button ; ;-------------------------------------------------------------------------; WAITSTARTUP BTFSS PORTB,START_PB ; wait for release GOTO WAITSTARTUP ; not released yet CALL DLY20 ; debounce release BTFSS PORTB,START_PB ; 2nd check, make sure released GOTO WAITSTARTUP ; keep checking RETURN ;-------------------------------------------------------------------------; ; Wait for release of select button ; ;-------------------------------------------------------------------------; WAITSELECT BTFSS PORTA,SELECT_PB ; wait for release GOTO WAITSELECT ; not yet CALL DLY20 ; debounce release BTFSS PORTA,SELECT_PB ; 2nd check, make sure released GOTO WAITSELECT ; keep checking RETURN ;-------------------------------------------------------------------------; ; Routine to follow sets the countdown time digit by digit ; ;-------------------------------------------------------------------------; SETDISP2 BSF DISPSET, 0 ;* set the DISPSET flag - Disable bitblanking MOVLW H'0A' ; put 10 in MOVWF MIN10 ; 10's of minutes MOVLW D'13' ; put S in MOVWF MIN ; minutes MOVLW D'14' ; put E in MOVWF SEC10 ; 10's of seconds MOVLW D'15' ; put t in MOVWF SEC ; seconds CALL SHORTBEEP ;* Make a small noise CALL WAITSELECT MOVLW H'0A' ; put 10 in digits, (no display) MOVWF MIN ; minutes MOVWF SEC10 ; 10's of seconds MOVWF SEC ; seconds STARTMIN10 CLRF MIN10 ; 0 now in MIN10 CALL WAITSELECT ;* WAIT1 BTFSS PORTB,START_PB ; set key pressed? GOTO MOREMIN10 ;* BTFSS PORTA,SELECT_PB ;* GOTO SETMIN ; yes MIN10 now set GOTO WAIT1 MOREMIN10 CALL SHORTBEEP ;* Make a small noise CALL WAITSTARTUP ; wait for release of set key INCF MIN10,f ; every increment 10's MIN MOVLW H'0A' ; reached 10? SUBWF MIN10,W BTFSC STATUS,Z ; Z set if reached 10 GOTO STARTMIN10 ; start again with 0 GOTO WAIT1 ; Check buttons again SETMIN CALL SHORTBEEP ;* Make a small noise STARTMIN CLRF MIN ; 0 into MIN CALL WAITSELECT WAIT2 BTFSS PORTB,START_PB ;* GOTO MOREMIN BTFSS PORTA,SELECT_PB ;* GOTO SETSEC10 ;* yes, finished with MIN GOTO WAIT2 ; Check buttons again MOREMIN CALL SHORTBEEP ;* Make a small noise CALL WAITSTARTUP ;* INCF MIN,f ; every second increment MIN MOVLW H'0A' ; reached 10? SUBWF MIN,W BTFSC STATUS,Z ; Z set if reached 10 GOTO STARTMIN ; put zero in if Z set GOTO WAIT2 ; Check buttons again SETSEC10 CALL SHORTBEEP ;* Make a small noise STARTSEC10 CLRF SEC10 ; 0 into SEC10 CALL WAITSELECT ;* WAIT3 BTFSS PORTB,START_PB ;* GOTO MORESEC10 ;* yes quit incrementing BTFSS PORTA,SELECT_PB ;* GOTO SETSEC GOTO WAIT3 ; continue wait MORESEC10 CALL SHORTBEEP ;* Make a small noise CALL WAITSTARTUP ;* INCF SEC10,f ; every second increment 10's SEC MOVLW H'06' ; reached 6? SUBWF SEC10,W BTFSC STATUS,Z ; Z set if reached 6 GOTO STARTSEC10 ; put zero in if Z set GOTO WAIT3 ; Check buttons again SETSEC CALL SHORTBEEP ;* Make a small noise STARTSEC CLRF SEC CALL WAITSELECT ;-------------------------------------------------------------------------; ; Subroutine to avoid a set time of 0000 ; ;-------------------------------------------------------------------------; MOVF MIN10,f ; check MIN10 for zero BTFSS STATUS,Z GOTO WAIT4 ; Zero SEC reg and continue increment MOVF MIN,f ; check MIN for zero BTFSS STATUS,Z GOTO WAIT4 ; Zero SEC reg and continue increment MOVF SEC10,f ; check SEC10 for zero BTFSS STATUS,Z GOTO WAIT4 ; Zero SEC reg and continue increment INCF SEC,f ; Put 1 in SEC reg and continue increment WAIT4 BTFSS PORTB,START_PB ;* GOTO MORESEC ;* yes finished setting digits BTFSS PORTA,SELECT_PB ;* GOTO FINSET ;* yes finished setting digits GOTO WAIT4 ; continue wait MORESEC CALL SHORTBEEP ;* Make a small noise CALL WAITSTARTUP ;* INCF SEC,f ;* increment SEC MOVLW H'0A' ; reached 10? SUBWF SEC,W BTFSC STATUS,Z ; Z set if reached 10 GOTO STARTSEC ; Return to STARTSEC and start again GOTO WAIT4 ; Not 10 continue to increment FINSET CALL SHORTBEEP ;* Make a small noise MOVLW D'100' CALL NMSEC CALL SHORTBEEP ;* Make a small noise CALL WAITSELECT ;* CALL PUTEE ; put new digits into EEPROM BCF DISPSET, 0 ;* CLEAR the DISPSET flag - Enable bitblanking GOTO KEYCHKLOOP ; start checking buttons again ;-------------------------------------------------------------------------; ; Selects starting count by incrementing OFFSET ; ;-------------------------------------------------------------------------; SELLONG MOVLW H'23' ;* 700msec delay MOVWF SECNT ;* SELLOOP CALL DLY20 ;* BTFSC PORTA,SELECT_PB ;* wait for release GOTO SETSELECT ;* is released - (short press) DECFSZ SECNT,f ;* not released, decrement SECNT check if 0 GOTO SELLOOP ;* not 0 do it again GOTO SETDISP2 ;* is 0 (long press) SETSELECT CALL SHORTBEEP MOVLW D'4' ; offset up 4 ADDWF OFFSET,F ; next offset position MOVLW D'60' ; reached 16th yet? SUBWF OFFSET,W ; will give zero if yes BTFSC STATUS,Z ; skip if not 64 CLRF OFFSET ; reset position to zero ;MOVLW 0 ; EEPROM location (LEFT ALL THIS OUT) ;MOVWF EEADR ; set up address (BECAUSE IT DIDNT WORK) ;MOVF OFFSET,W ; offset # into W (AND I FIGURED, OFFSET) ;MOVWF EEDATA ; set up data (WASNT CHANGED AFTER POWER UP) ;BCF INTCON,GIE ; clear GIE, disable interrupts (AND IT WOULD WEAR) ;CALL WRITEEE ; save # in location 0 (OUT EEPROM, AS I) ;BSF INTCON,GIE ; re-enable interrupts (WAS HAPPY TO HAVE) CALL GETEE ; get new start count into display (LAST SETTING) CALL WAITSELECT ; make sure select switch is up (TO LEAVE IT OUT) GOTO KEYCHKLOOP ; start checking buttons again ;-------------------------------------------------------------------------; ; The following are various delay routines based on instruction length. ; ; The instruction length is assumed to be 1 microsecond (4Mhz crystal). ; ;-------------------------------------------------------------------------; DLY20 MOVLW D'20' ; delay for 20 milliseconds ;*** N millisecond delay routine *** NMSEC MOVWF CNTMSEC ; delay for N (in W) milliseconds MSECLOOP MOVLW D'248' ; load takes 1 microsec CALL MICRO4 ; by itself CALL takes ... ; 2 + 247 X 4 + 3 + 2 = 995 NOP ; 1 more microsec DECFSZ CNTMSEC,f ; 1 when skip not taken, else 2 GOTO MSECLOOP ; 2 here: total 1000 per msecloop RETURN ; final time through takes 999 to here ; overhead in and out ignored ;*** 1 millisecond delay routine *** ONEMSEC MOVLW D'249' ; 1 microsec for load W ; loops below take 248 X 4 + 3 = 995 MICRO4 ADDLW H'FF' ; subtract 1 from 'W' BTFSS STATUS,Z ; skip when you reach zero GOTO MICRO4 ; loops takes 4 microsec, 3 for last RETURN ; takes 2 microsec ; call + load W + loops + return = ; 2 + 1 + 995 + 2 = 1000 microsec ;*** N 10 microsecond delay routine *** N10USEC MOVWF CNTMSEC ;* delay for N (in W) milliseconds USECLOOP MOVLW D'1' ;* load takes 1 microsec CALL MICRO4 ;* by itself CALL takes ... ;* 1 + 4 + 3 + 2 = 10 DECFSZ CNTMSEC,f ;* 1 when skip not taken, else 2 GOTO USECLOOP ;* 2 here: total 10 per usecloop RETURN ;* final time through takes 9 to here ;* overhead in and out ignored ;-------------------------------------------------------------------------; ; Here we set up the initial values of the digits in data EEPROM ; ;-------------------------------------------------------------------------; ORG H'2100' DE 0, 0, 0, 1, 0 ; 1st starting # (Should be 1 minute) DE 0, 0, 2, 0 ; 2nd starting # (Should be 2 minutes) DE 0, 0, 3, 0 ; 3rd starting # (Should be 3 minutes) DE 0, 0, 4, 0 ; 4th starting # (Should be 4 minutes) DE 0, 0, 5, 0 ; 5th starting # (Should be 5 minutes) DE 0, 0, 6, 0 ; 6th starting # 6 min DE 0, 0, 7, 0 ; 7th starting # 7 min DE 0, 0, 8, 0 ; 8th starting # 8 min DE 0, 0, 9, 0 ; 9th starting # 9 min DE 0, 0, 0, 1 ; 10th starting # 10 min DE 0, 0, 0, 2 ; 11th starting # 20 min DE 0, 0, 0, 3 ; 12th starting # 30 min DE 0, 0, 0, 4 ; 13th starting # 40 min DE 0, 0, 0, 5 ; 14th starting # 50 min DE 0, 0, 0, 6 ; 15th starting # 60 min END
file: /Techref/microchip/cntdn/cntdwn_16F628no4511_V3.asm, 39KB, , updated: 2007/4/3 17:55, local time: 2024/11/15 04:38,
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