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Microchip Cntdn CNTDWN_16F628NO4511_V3.ASM

  
;-------------------------------------------------------------------------;
;         	     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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