I have to create a digital volt meter on the 8051 using assembly. I have one that outputs in hex on the LCD but I can't get it to output in decimal.
lcd_cmd equ 0800h ;Write COMMAND reg address 0800h lcd_st equ 0801h ;Read STATUS reg address 0801h lcd_wr equ 0802h ;Write DATA reg address 0802h lcd_rd equ 0803h ;Read DATA reg address 0803h LEDs equ p1 ;LEDs on port 1 DAC equ 0600h ;DAC mapped at address 0600h ORG 08100h DVM: mov P2, #(lcd_cmd SHR 8) ;load P2 with high address mov R0, #(lcd_cmd AND 255) ;load R0 with command reg addr mov R7,#00h mov dptr, #mesg3 acall wr_string mov R7,#40h mov dptr, #mesg3 acall wr_string mov R7, #01h ;set LCD position, line=1, char=1 mov dptr, #mesg1 ;point to mesg1 acall wr_string ;write mesg1 to LCD mov R7, #41h ;set LCD position, line= 2, char=1 mov dptr, #mesg2 ;point to mesg2 acall wr_string acall start ;repeat acall print_hex3 sjmp DVM Start: mov dptr,#DAC ;load dptr address of DAC mov R7,#10000000b ;initialise Event mov a,#0 ;initialise DAC value nxtbit: xrl a,r7 ;Ex-OR DAC value with Event movx @dptr,A ;Output DAC value acall delay jb P3.5,keep ;if comparator +ve keep set bit xrl a,R7 ;else reset bit keep: xch a,R7 ;R7?A (move R7 to A so we can rotate it) clr c ;make sure we put zero in MSB rrc a ;Rotate R7 right through carry xch a,R7 ;R7?A (mov A back to R7 & restore A) jnc nxtbit ; repeat nxtbit until all bit done cpl a ;invert Dac Value mov LEDs,a ;write Dac Value to LEDs ret wr_string: acall lcd_busy ;wait until LCD not busy mov a, R7 ;get LCD position orl a, #080h ;msb set for LCD RAM address movx @R0, a ;write lcd_cmd to set line & char nxt_char: acall lcd_busy ;wait until LCD not busy clr a movc a, @a+dptr inc dptr ;point to next byte in string jz str_end ;if 0 then end of string mov R1, #(lcd_wr AND 255) ;Load R1 with wr_data address movx @R1, a ;Write char to LCD sjmp nxt_char ;get next char in string str_end: ret lcd_busy: mov R1, #(lcd_st AND 255) ;Load R1 with status address movx a, @R1 ;read LCD status jb acc.7, lcd_busy ;keep checking until busy bit clear ret print_hex3: PUSH ACC SWAP A ANL A,#0FH ADD A,#HEXstring3-mvcoff3a MOVC A,@A+PC mvcoff3a: ACALL char_from_Acc POP ACC ANL A,#0FH ADD A,#HEXstring3-mvcoff3b MOVC A,@A+PC mvcoff3b: AJMP char_from_Acc HEXstring3: DB '0123456789ABCDEF' ;'standard' hex string Char_from_ACC: push acc acall lcd_busy pop acc ;routine to output result to LCD mov R1, #(lcd_wr AND 255) ;Load R1 with wr_data address movx @R1, a ret mesg1: db "DVM Prog ",0 mesg2: db "Voltage = ",0 mesg3: db " ",0 Delay: MOV R0, #05h ;Load R0, R1 with huge number loop1: MOV R1, #08h ; loop2: DJNZ R1, loop2 ;Decrement R1 and jump if not zero to loop2 DJNZ R0, loop1 ;Decrement R0 and jump if not zero to loop1 ret ;return to main prog div16_16: CLR C ;Clear carry initially MOV R4,#00h ;Clear R4 working variable initially MOV R5,#00h ;CLear R5 working variable initially MOV B,#00h ;Clear B since B will count the number of left-shifted bits div1: INC B ;Increment counter for each left shift MOV A,R2 ;Move the current divisor low byte into the accumulator RLC A ;Shift low-byte left, rotate through carry to apply highest bit to high-byte MOV R2,A ;Save the updated divisor low-byte MOV A,R3 ;Move the current divisor high byte into the accumulator RLC A ;Shift high-byte left high, rotating in carry from low-byte MOV R3,A ;Save the updated divisor high-byte JNC div1 ;Repeat until carry flag is set from high-byte div2: ;Shift right the divisor MOV A,R3 ;Move high-byte of divisor into accumulator RRC A ;Rotate high-byte of divisor right and into carry MOV R3,A ;Save updated value of high-byte of divisor MOV A,R2 ;Move low-byte of divisor into accumulator RRC A ;Rotate low-byte of divisor right, with carry from high-byte MOV R2,A ;Save updated value of low-byte of divisor CLR C ;Clear carry, we don't need it anymore MOV 07h,R1 ;Make a safe copy of the dividend high-byte MOV 06h,R0 ;Make a safe copy of the dividend low-byte MOV A,R0 ;Move low-byte of dividend into accumulator SUBB A,R2 ;Dividend - shifted divisor = result bit (no factor, only 0 or 1) MOV R0,A ;Save updated dividend MOV A,R1 ;Move high-byte of dividend into accumulator SUBB A,R3 ;Subtract high-byte of divisor (all together 16-bit substraction) MOV R1,A ;Save updated high-byte back in high-byte of divisor JNC div3 ;If carry flag is NOT set, result is 1 MOV R1,07h ;Otherwise result is 0, save copy of divisor to undo subtraction MOV R0,06h div3: CPL C ;Invert carry, so it can be directly copied into result MOV A,R4 RLC A ;Shift carry flag into temporary result MOV R4,A MOV A,R5 RLC A MOV R5,A DJNZ B,div2 ;Now count backwards and repeat until "B" is zero MOV R3,05h ;Move result to R3/R2 MOV R2,04h ;Move result to R3/R2 RET end
the large part at the bottom is code to use to do a 16 bit devision but I can't link it into the hex. I ma also having issues working out how exactly the code is meant to work. Any help would be greatly appreciated.