1
« en: Lunes 13 de Abril de 2009, 22:45 »
Hola todos,
Tengo problema de hacer la comunicacion entre ADuC831 y DS1307 usando I2C.
Encontre un fuente ejemplo, lo reubique para mis necesidades, pero no escriba en el RTC, se leen solo zeros.
Estoy usando Aspire - Version 1.5 IDE software ( write, edit, debug, compile ) en entorno
MetaLink 8051 Cross-Assembler.
Aca les doy codigo fuente, me gustaria si me digan donde estoy cometiendo el error.
Les agradezco de antemano su colaboracion.
..........................................
; Program DS1307.ASM
;
; This program responds to commands received over the serial
; port to set the date/time as well as RAM data on the DS1307
; using a ADuC831 as a controller
;
$MOD831 ;use ADuC831 predefined symbols
;
; definitions
CR EQU 0DH
LF EQU 0AH
; MCON EQU 0C6H ; mahnati za proba
; TA EQU 0C7H ; mahnati za proba
; TRIG BIT P0.2 ; mahnati za proba
DS1307W EQU 0D0H
DS1307R EQU 0D1H
FLAGS DATA 20H
LASTREAD BIT FLAGS.0
_12_24 BIT FLAGS.1
PM_AM BIT FLAGS.2
OSC BIT FLAGS.3
SQW BIT FLAGS.4
ACK BIT FLAGS.5
BUS_FAULT BIT FLAGS.6
_2W_BUSY BIT FLAGS.7
BITCOUNT DATA 21H
BYTECOUNT DATA 22H
BYTE DATA 23H
;____________________________________________________________________
; DEFINE VARIABLES IN INTERNAL RAM
BITCNT DATA 30h ; bit counter for I2C routines / 110000 /
SLAVEADD DATA 31h ; slave address for I2C routines / 110001 /
INPUT DATA 32h ; data recieved from the slave / 110010 /
OUTPUT DATA 33h ; data to be transmitted to slave / 110011 /
NOACK BIT 00h ; I2C no acknowledge flag
ERR BIT 00h ; I2C error flag
;
;____________________________________________________________________
; BEGINNING OF CODE
CSEG
ORG 0000h
AJMP START
;
;____________________________________________________________________
; INT0 ISR
ORG 0003h
INC OUTPUT
RETI
;
CSEG AT 30H
;*************************************************************
;*** RESET GOES HERE TO START PROGRAM ****
;*************************************************************
ORG 0060h
START:
; configure the UART ADuC831
MOV SCON,#52h ; configure UERT for 9600 baud
MOV TMOD,#20h ; assumihg 11.0592 MHz crystal
MOV TH1,#-3 ;
SETB TR1
; configure & enable interrupts
SETB EX0 ; enable INT0
SETB IT0 ; INT0 edge triggered
SETB EA ; allow all the interrupts
; initialise settings
MOV SLAVEADD,#88H ; clear RW bit / 10001000 /
MOV I2CCON,#0A8h ; sets SDATA & SCLOCK, and / 10101000 /
; selects master mode
MOV OUTPUT,#0 ; TX 0 as default
CLR NOACK
CLR ERR
;-----------------------------------------------------------------------
; THIS IS THE MASTER CONTROLLER LOOP
;-----------------------------------------------------------------------
MASTER_CONTROLLER:
MOV BYTECOUNT,#10H
FORM_FEED: MOV A,#LF ; CLEAR SCREEN FOR MAIN MENU
LCALL WRITE_DATA
DJNZ BYTECOUNT,FORM_FEED
MOV DPTR, #TEXT0 ; PUT MAIN MENU ON SCREEN
LCALL WRITE_TEXT
MOV DPTR,#TEXT3
LCALL WRITE_TEXT
LCALL READ_DATA
CLR ACC.5 ; CONVERT ACC TO UPPER CASE
CJNE A,#'A',NOTA
LCALL SET_CLOCKM ; CALL SET CLOCK FUNCTION
JMP MASTER_CONTROLLER ; RETURN TO MAIN MENU
NOTA: CJNE A,#'B',NOTB
LCALL SET_RAM ; CALL SET RAM FUNCTION AND
LCALL READ_RAM ; CALL READ RAM FUNCTION
JMP MASTER_CONTROLLER ; RETURN TO MAIN MENU
NOTB: CJNE A,#'C',NOTC
LCALL READ_CLOCK ; CALL READ CLOCK FUNCTION
JMP MASTER_CONTROLLER ; RETURN TO MAIN MENU
NOTC: CJNE A,#'D',NOTD
LCALL READ_RAM ; CALL READ RAM FUNCTION
JMP MASTER_CONTROLLER ; RETURN TO MAIN MENU
NOTD: CJNE A,#'E',NOTE
CLR OSC ; CLR OSC FLAG - ON
LCALL OSC_CONTROL ; CALL OSC CONTROL FUNCTION
JMP MASTER_CONTROLLER ; RETURN TO MAIN MENU
NOTE: CJNE A,#'F',NOTF
SETB OSC ; SET OSC FLAG - OFF
LCALL OSC_CONTROL ; CALL OSC CONTROL FUNCTION
JMP MASTER_CONTROLLER ; RETURN TO MAIN MENU
NOTF: CJNE A,#'G',NOTG
CLR SQW ; CLR SQW FLAG - ON
LCALL SQW_CONTROL_1HZ ; CALL SWQ CONTROL FUNCTION
JMP MASTER_CONTROLLER ; RETURN TO MAIN MENU
NOTG: CJNE A,#'H',NOTH
CLR SQW ; CLR SQW FLAG - ON
LCALL SQW_CONTROL_4KHZ ; CALL SWQ CONTROL FUNCTION
JMP MASTER_CONTROLLER ; RETURN TO MAIN MENU
NOTH: CJNE A,#'I',NOTI
CLR SQW ; CLR SQW FLAG - ON
LCALL SQW_CONTROL_8KHZ ; CALL SWQ CONTROL FUNCTION
JMP MASTER_CONTROLLER ; RETURN TO MAIN MENU
NOTI: CJNE A,#'J',NOTJ
CLR SQW ; CLR SQW FLAG - ON
LCALL SQW_CONTROL_32KHZ ; CALL SWQ CONTROL FUNCTION
JMP MASTER_CONTROLLER ; RETURN TO MAIN MENU
NOTJ: CJNE A,#'K',NOTK
SETB SQW ; SET SQW FLAG - OFF
LCALL SQW_CONTROL_1HZ ; CALL SWQ CONTROL FUNCTION
JMP MASTER_CONTROLLER
NOTK: CJNE A,#'L',NOTL
LCALL SET_RAM_UNQ
LCALL READ_RAM
NOTL: JMP MASTER_CONTROLLER ; RETURN TO MAIN MENU
;-----------------------------------------------------------------------
; THIS SUB SENDS THE START CONDITION
;-----------------------------------------------------------------------
SEND_START: ; Sends the start bit to initiate an I2C
; communication
SETB MDE ; enable SDATA pin as an output
CLR NOACK
CLR MDO ; low O/P on SDATA
CLR MCO ; start bit
RET
;
;-----------------------------------------------------------------------
; THIS SUB SENDS THE STOP CONDITION
;-----------------------------------------------------------------------
SEND_STOP: ; Sends the stop bit to end an I2C
; transmission
SETB MDE ; to enable SDATA pin as an output
CLR MDO ; get SDATA ready for stop
SETB MCO ; set clock for stop
SETB MDO ; this is the stop bit
RET
;
;-----------------------------------------------------------------------
; THIS SUB SENDS ONE BYTE OF DATA TO THE DS1307
;-----------------------------------------------------------------------
SEND_BYTE: ; Send 8-bits in ACC to the slave
MOV BITCNT,#8 ; 8 bits in a byte
SETB MDE ; to enable SDATA pin as an output
CLR MCO ; make sure that the clock line is low
SENDBIT:
RLC A ; put data bit to be sent into carry
MOV MDO,C ; put data bit on SDATA line
SETB MCO ; clock to send bit
CLR MCO ; clear clock
DJNZ BITCNT,SENDBIT ; jump back and send all eight bits
CLR MDE ; release data line for acknowledge
SETB MCO ; send clock for acknowledge
JNB MDI,NEXT ; this is a check for acknowledge
SETB NOACK ; no acknowledge, set flag
NEXT: CLR MCO ; clear clock
RET
;
;-----------------------------------------------------------------------
; THIS SUB READS ONE BYTE OF DATA FROM THE DS1307
;-----------------------------------------------------------------------
READ_BYTE: ; receives one byte of data from an I2C
; slave device. Returns it in A
MOV BITCNT,#8 ; Set bit count.
CLR MDE ; to enable SDATA pin as an input
CLR MCO ; make sure the clock line is low
RCVBIT:
SETB MCO ; clock to recieve bit
CLR MCO ; clear clock
MOV C,MDI ; read data bit into carry.
RLC A ; Rotate bit into result byte.
DJNZ BITCNT,RCVBIT ; Repeat until all bits received.
; recieved byte is in the accumulator
SETB MDE ; Data pin =Output for NACK
SETB MDO ; Send NACK (always send NACK for
; last byte in transmission)
SETB MCO ; Send NACK clock.
CLR MCO
RET
;
;----------------------------------------------------------------------- ;
; THIS SUB SETS THE CLOCK LINE HIGH / izkliuchena sub za rezultat /
;-----------------------------------------------------------------------
;SCL_HIGH:
;SETB SCL ; SET SCL HIGH
;JNB SCL,$ ; LOOP UNTIL STRONG 1 ON SCL
;RET
;----------------------------------------------------------------------- ;
; THIS SUB DELAY THE BUS
;-----------------------------------------------------------------------
; DELAY
; DELAY ROUTINE FOR THE ADuC812/ADuC816/ADuC824
DELAY: ; Delays by 100ms * A
; ADuC812 100ms based on 11.0592MHz Core Clock
; ADuC824 100ms based on 1.573MHz Core Clock
MOV R2,A ; Acc holds delay variable
DLY0: MOV R3,#200 ; Set up delay loop0
DLY1: MOV R4,#229 ; Set up delay loop1
DJNZ R4,$ ; Dec R4 & Jump here until R4 is 0
; wait here for 131*15.3us=2ms
DJNZ R3,DLY1 ; Dec R3 & Jump DLY1 until R3 is 0
; Wait for 50*2ms
DJNZ R2,DLY0 ; Dec R2 & Jump DLY0 until R2 is 0
; wait for ACC*100ms
RET ; Return from subroutine
;
;-----------------------------------------------------------------------
; THIS SUB DELAYS 4 CYCLES
;-----------------------------------------------------------------------
DELAY_4:
NOP ; DELAY FOR BUS TIMING
NOP
NOP
NOP
RET
;-----------------------------------------------------------------------
; THIS SUB SETS THE CLOCK (MANUAL)
;-----------------------------------------------------------------------
SET_CLOCKM:
MOV R1,#2EH ; SET R1 TO SCRATCHPAD MEMORY FOR DATE/TIME
MOV DPTR, #GODINA ; GET THE DATE/TIME INFORMATION FROM THE
LCALL WRITE_TEXT ; USER. WRITE THE DATE/TIME TO SCRATCHPAD
LCALL READ_BCD ; MEMORY
MOV @R1,A
DEC R1
MOV DPTR, #MESEC
LCALL WRITE_TEXT
LCALL READ_BCD
MOV @R1,A
DEC R1
MOV DPTR, #DATATA
LCALL WRITE_TEXT
LCALL READ_BCD
MOV @R1,A
DEC R1
MOV DPTR, #DEN
LCALL WRITE_TEXT
LCALL READ_BCD
ANL A, #7
MOV @R1,A
DEC R1
MOV DPTR, #CHAS
LCALL WRITE_TEXT
LCALL READ_BCD
MOV @R1,A
DEC R1
MOV DPTR, #MINUTI
LCALL WRITE_TEXT
LCALL READ_BCD
MOV @R1,A
DEC R1
MOV DPTR, #SEKUNDI
LCALL WRITE_TEXT
LCALL READ_BCD
MOV @R1,A
MOV R1,#28H ; POINT TO BEGINNING OF CLOCK DATA IN
; SCRATCHPAD MEMORY
LCALL SEND_START ; SEND 2WIRE START CONDITION
MOV A,#DS1307W ; SEND DS1307 WRITE COMMAND
LCALL SEND_BYTE
MOV A,#00H ; SET DATA POINTER TO REGISTER 00H ON
LCALL SEND_BYTE ; THE DS1307
SEND_LOOP:
MOV A,@R1 ; MOVE THE FIRST BYTE OF DATA TO ACC
LCALL SEND_BYTE ; SEND DATA ON 2WIRE BUT
INC R1
CJNE R1,#2FH,SEND_LOOP ; LOOP UNTIL CLOCK DATA SENT TO DS1307
LCALL SEND_STOP ; SEND 2WIRE STOP CONDITION
RET
;-----------------------------------------------------------------------
; THIS SUB SETS THE DS1307 USER RAM TO THE VALUE IN 'BYTE'
;-----------------------------------------------------------------------
SET_RAM:
MOV R1,#08H ; POINTER TO BEGINNING OF DS1307 USER RAM
MOV DPTR, #TEXT5 ; MESSAGE TO ENTER DATA BYTE
LCALL WRITE_TEXT ;
LCALL READ_BCD ; READ BYTE FROM KEYBOARD
MOV BYTE,A ; AND STORE IN 'BYTE'
LCALL SEND_START ; SEND 2WIRE START CONDITION
MOV A,#DS1307W ; LOAD DS1307 WRITE COMMAND
LCALL SEND_BYTE ; SEND WRITE COMMAND
MOV A,#08H ; SET DS1307 DATA POINTER TO BEGINNING
LCALL SEND_BYTE ; OF USER RAM - 08H
SEND_LOOP2:
MOV A,BYTE ; WRITE BYTE TO ENTIRE RAM SPACE
LCALL SEND_BYTE ; WHICH IS 08H TO 37H
INC R1
CJNE R1,#040H,SEND_LOOP2 ; LOOP UNTIL RAM FILLED
LCALL SEND_STOP ; SEND 2WIRE STOP CONTION
RET
;-----------------------------------------------------------------------
; THIS SUB SETS THE DS1307 USER RAM TO THE UNIQUE PATTERN
;-----------------------------------------------------------------------
SET_RAM_UNQ:
MOV R1,#08H ; POINTER TO BEGINNING OF DS1307 USER RAM
LCALL SEND_START ; SEND 2WIRE START CONDITION
MOV A,#DS1307W ; LOAD DS1307 WRITE COMMAND
LCALL SEND_BYTE ; SEND WRITE COMMAND
MOV A,#08H ; SET DS1307 DATA POINTER TO BEGINNING
LCALL SEND_BYTE ; OF USER RAM - 08H
SEND_LOOP3:
LCALL SEND_BYTE ; WHICH IS 08H TO 37H
INC R1
INC A
CJNE R1,#040H,SEND_LOOP3 ; LOOP UNTIL RAM FILLED
LCALL SEND_STOP ; SEND 2WIRE STOP CONTION
RET
;-----------------------------------------------------------------------
; THIS SUB READS THE DS1307 RAM AND WRITES IT TO THE SCRATCH PAD MEMORY
;-----------------------------------------------------------------------
READ_RAM:
MOV DPTR,#TEXT4 ; SEND KEY PRESS MSG
LCALL WRITE_TEXT
MOV R1,#30H ; START OF RAM REGS IN SCRATCH PAD
MOV BYTECOUNT,#00H ; COUNTER FOR 56 RAM BYTES
CLR LASTREAD ; FLAG TO CHECK FOR LAST READ
LCALL SEND_START ; SEND 2WIRE START CONDITION
MOV A,#DS1307W ; SEND DS1307 WRITE COMMAND
LCALL SEND_BYTE
MOV A,#08H ; SET POINTER TO REG 08H ON
; DS1307
LCALL SEND_BYTE
LCALL SEND_STOP ; SEND STOP CONDITION
LCALL SEND_START ; SEND START CONDITION
MOV A,#DS1307R ; SEND DS1307 READ COMMAND
LCALL SEND_BYTE
READ_LOOP2:
MOV A,BYTECOUNT ; CHECK TO SEE OF DOING LAST READ
CJNE A,#37H,NOT_LAST2
SETB LASTREAD ; IF LAST READ SET LASTREAD FLAG
NOT_LAST2:
LCALL READ_BYTE ; READ A BYTE OF DATA
MOV @R1,A ; MOVE DATA INTO SCRATCHPAD MEMORY
INC R1 ; INC POINTERS
INC BYTECOUNT
MOV A,BYTECOUNT
CJNE A,#38H,READ_LOOP2 ; LOOP FOR ENTIRE DS1307 RAM
LCALL SEND_STOP ; SEND 2WIRE STOP CONDITION
LCALL DISP_RAM ; DISPLAY DATA IN SCRATCHPAD MEMORY
JNB RI,$ ; WAIT UNTIL A KEY IS PRESSED
CLR RI
RET
;-----------------------------------------------------------------------
; THIS SUB DISPLAYS THE RAM DATA SAVED IN SCRATCHPAD MEMORY
;-----------------------------------------------------------------------
DISP_RAM:
MOV R1,#30H ; START OF RAM IN SCRATCHPAD
; MEMORY
MOV BITCOUNT,#00H
MOV DPTR,#TEXT6 ;DISPLAY TABLE HEADING
LCALL WRITE_TEXT
DISP_ADDR:
LCALL DISP_LOC ; DISPLAY VALUE OF CURRENT RAM LOCATION
DIS_LOOP:
MOV A,@R1 ; DISPLAY RAM DATA SAVED IN SCRATCHPAD
LCALL WRITE_BCD ; CONVERT TO BCD FORMAT AND DISPLAY
INC R1
INC BITCOUNT
MOV A,#20H ; SPACE BETWEEN DATA BYTES
LCALL WRITE_DATA
MOV A,BITCOUNT
CJNE A,#08H,DIS_LOOP ; LINE FEED AFTER 8 BYTES OF DATA
MOV BITCOUNT,#00H
MOV DPTR,#TEXT3 ; 'CR,LF'
LCALL WRITE_TEXT
CJNE R1,#68H,DISP_ADDR ; DISPLAY DATA FOR 56 BYTES OF RAM
RET
;----------------------------------------------------------------------- ;
; THIS SUB WRITES THE RAM LOCATION OF THE DATA
;-----------------------------------------------------------------------
DISP_LOC:
MOV A,R1 ; DISPLAY THE HEX VALUE FOR THE DATA
ADD A,#-28H ; IN THE DS1307 RAM SPACE
LCALL WRITE_BCD ; CONVERTS SCRATCHPAD ADDRESS
MOV A,#20H ; INTO DS1307 RAM ADDRESS
LCALL WRITE_DATA
MOV A,#20H
LCALL WRITE_DATA
MOV A,#20H
LCALL WRITE_DATA
RET
;-----------------------------------------------------------------------
; THIS SUB READS THE CLOCK AND WRITES IT TO THE SCRATCH PAD MEMORY
;-----------------------------------------------------------------------
READ_CLOCK:
MOV DPTR,#TEXT4 ; KEY PRESS MSG
LCALL WRITE_TEXT
READ_AGAIN:
MOV R1,#28H ; START OF CLOCK REG IN SCRATCHPAD
MOV BYTECOUNT,#00H ; COUNTER UP TO 8 BYTES FOR CLOCK
CLR LASTREAD ; FLAG TO CHECK FOR LAST READ
; LCALL SEND_START ; SEND START CONDITION
; MOV A,#DS1307W ; SET POINTER TO REG 00H ON DS1307
; LCALL SEND_BYTE
; MOV A,#00H
; LCALL SEND_BYTE
; LCALL SEND_STOP ; SEND STOP CONDITION
LCALL SEND_START ; SEND START CONDITION
MOV A,#DS1307R ; SEND READ COMMAND TO DS1307
LCALL SEND_BYTE
READ_LOOP:
MOV A,BYTECOUNT ; CHECK TO SEE OF DOING LAST READ
CJNE A,#07H,NOT_LAST
SETB LASTREAD ; SET LASTREAD FLAG
NOT_LAST:
LCALL READ_BYTE ; READ A BYTE OF DATA
MOV @R1,A ; MOVE DATA IN SCRATCHPAD MEMORY
MOV A,BYTECOUNT ; CHECK TO SEE IF READING SECONDS REG
CJNE A,#00H,NOT_FIRST
CLR OSC ; CLR OSC FLAG
MOV A,@R1 ; MOVE SECONDS REG INTO ACC
JNB ACC.7,NO_OSC ; JUMP IF BIT 7 OF IS A 0
SETB OSC ; SET OSC FLAG, BIT 7 IS A 1
CLR ACC.7 ; CLEAR BIT 7 FOR DISPLAY
; PURPOSES
MOV @R1,A ; MOVE DATA BACK TO SCRATCHPAD
NO_OSC:
NOT_FIRST:
INC R1 ; INC COUNTERS
INC BYTECOUNT
MOV A,BYTECOUNT
CJNE A,#08H,READ_LOOP ; LOOP FOR ENTIRE CLOCK REGISTERS
LCALL SEND_STOP ; SEND 2WIRE STOP CONDITION
LCALL DISP_CLOCK ; DISPLAY DATE/TIME FROM SCRATCHPAD
JNB RI,READ_AGAIN ; READ AND DISPLAY UNTIL A KEY IS PRESSED
CLR RI
RET
;-----------------------------------------------------------------------
; THIS SUB DISPLAYS THE DATE AND TIME SAVED IN SCRATCHPAD MEMORY
;-----------------------------------------------------------------------
DISP_CLOCK:
MOV DPTR,#TEXT1 ; DATE:
LCALL WRITE_TEXT
MOV R1,#2DH ; MONTH
MOV A,@R1
LCALL WRITE_BCD
MOV A,#'/'
LCALL WRITE_DATA
MOV R1,#2CH ; DATE
MOV A,@R1
LCALL WRITE_BCD
MOV A,#'/'
LCALL WRITE_DATA
MOV R1,#2EH ; YEAR
MOV A,@R1
LCALL WRITE_BCD
MOV A,#09H ; TAB
LCALL WRITE_DATA
MOV DPTR,#TEXT2 ; TIME:
LCALL WRITE_TEXT
MOV R1,#2AH ; HOURS
MOV A,@R1
LCALL WRITE_BCD
MOV A,#3AH ; COLON
LCALL WRITE_DATA
MOV R1,#29H ; MINUTES
MOV A,@R1
LCALL WRITE_BCD
MOV A,#3AH ; COLON
LCALL WRITE_DATA
MOV R1,#28H ; SECONDS
MOV A,@R1
LCALL WRITE_BCD
RET
;-----------------------------------------------------------------------
; THIS SUB SETS THE OSCILLATOR ACCORDING TO THE OSC BIT
;-----------------------------------------------------------------------
OSC_CONTROL:
LCALL SEND_START ; SEND START CONDITION
MOV A,#DS1307W ; SET POINTER TO REG 00H ON DS1307
LCALL SEND_BYTE
MOV A,#00H
LCALL SEND_BYTE
SETB LASTREAD ; SET LAST READ FOR SINGLE READ
LCALL SEND_STOP ; SEND STOP CONDITION
LCALL SEND_START ; SEND START CONDITION
MOV A,#DS1307R ; SEND READ COMMAND TO DS1307
LCALL SEND_BYTE
LCALL READ_BYTE ; READ SECONDS REGISTER
CLR ACC.7 ; TURN OSC ON
JNB OSC,OSC_SET
SETB ACC.7 ; TURN OSC OFF IF OSC BIT IS SET IN
OSC_SET: ; SECONDS REGISTER
PUSH ACC ; SAVE SECONDS DATA ON STACK
LCALL SEND_STOP ; SEND STOP CONDITION
LCALL SEND_START ; SEND START CONDITION
MOV A,#DS1307W ; SET POINTER TO REG 00H ON DS1307
LCALL SEND_BYTE
MOV A,#00H
LCALL SEND_BYTE
POP ACC ; SEND SECONDS REGISTER TO CONTROL
LCALL SEND_BYTE ; OSCILLATOR ON DS1307
LCALL SEND_STOP
RET
;-----------------------------------------------------------------------
; THIS SUB CONTROLS THE SQW OUTPUT 1HZ
;-----------------------------------------------------------------------
SQW_CONTROL_1HZ:
LCALL SEND_START ; SEND START CONDITION
MOV A,#DS1307W ; SET POINTER TO REG 07H ON DS1307
LCALL SEND_BYTE
MOV A,#07H
LCALL SEND_BYTE
MOV A,#90H ; SQW/OUT ON AT 1HZ
JNB SQW,SQW_SET ; JUMP IF SQW BIT IS ACTIVE
MOV A,#80H ; TURN SQW/OUT OFF - OFF HIGH
SQW_SET:
LCALL SEND_BYTE
LCALL SEND_STOP
RET
;-----------------------------------------------------------------------
; THIS SUB CONTROLS THE SQW OUTPUT 4KHZ
;-----------------------------------------------------------------------
SQW_CONTROL_4KHZ:
LCALL SEND_START ; SEND START CONDITION
MOV A,#DS1307W ; SET POINTER TO REG 07H ON DS1307
LCALL SEND_BYTE
MOV A,#07H
LCALL SEND_BYTE
MOV A,#91H ; SQW/OUT ON AT 1HZ
JNB SQW,SQW_SET1 ; JUMP IF SQW BIT IS ACTIVE
MOV A,#80H ; TURN SQW/OUT OFF - OFF HIGH
SQW_SET1:
LCALL SEND_BYTE
LCALL SEND_STOP
RET
;-----------------------------------------------------------------------
; THIS SUB CONTROLS THE SQW OUTPUT 8KHZ
;-----------------------------------------------------------------------
SQW_CONTROL_8KHZ:
LCALL SEND_START ; SEND START CONDITION
MOV A,#DS1307W ; SET POINTER TO REG 07H ON DS1307
LCALL SEND_BYTE
MOV A,#07H
LCALL SEND_BYTE
MOV A,#92H ; SQW/OUT ON AT 1HZ
JNB SQW,SQW_SET2 ; JUMP IF SQW BIT IS ACTIVE
MOV A,#80H ; TURN SQW/OUT OFF - OFF HIGH
SQW_SET2:
LCALL SEND_BYTE
LCALL SEND_STOP
RET
;-----------------------------------------------------------------------
; THIS SUB CONTROLS THE SQW OUTPUT 32KHZ
;-----------------------------------------------------------------------
SQW_CONTROL_32KHZ:
LCALL SEND_START ; SEND START CONDITION
MOV A,#DS1307W ; SET POINTER TO REG 07H ON DS1307
LCALL SEND_BYTE
MOV A,#07H
LCALL SEND_BYTE
MOV A,#93H ; SQW/OUT ON AT 1HZ
JNB SQW,SQW_SET3 ; JUMP IF SQW BIT IS ACTIVE
MOV A,#80H ; TURN SQW/OUT OFF - OFF HIGH
SQW_SET3:
LCALL SEND_BYTE
LCALL SEND_STOP
RET
;-----------------------------------------------------------------------
; THIS SUB IS A SCOPE TRIGGER BIT - izkliucheno za proba
;-----------------------------------------------------------------------
; TRIGGER:
; CLR TRIG
; SETB TRIG
; LCALL DELAY_4
; CLR TRIG
; RET
;-----------------------------------------------------------------------
; THIS SUB READS DATA FROM THE SCREEN AND CONVERTS IT TO BCD FORM
; DATA SHOULD BE HEX DIGITS: 1,2,3...9,A,B,C,D,E,F
;-----------------------------------------------------------------------
READ_BCD:
MOV R0,#0 ; CLEAR R0
BCD_LOOP:
LCALL READ_DATA ; READ BYTE FROM KEYBOARD
CJNE A, #0DH, BCD ; CHECK FOR CR
MOV A,R0 ; MOVE R0 TO ACC AND RETURN
RET
BCD:
ADD A,#-30H ; BEGIN TO CONVERT TO ACTUAL VALUE
JNB ACC.4,DIGIT ; JUMP IF NOT A-F
ADD A,#-07H ; IF A-F SUBTRACT 7
DIGIT:
ANL A,#0FH ; ENSURE BITS 4-7 ARE CLEARED
ANL 0,#0FH ; ENSURE BITS 4-7 ARE CLEARED
XCH A,R0 ; EXCHANGE R0 AND ACC
SWAP A ; NIBBLE SWAP ACC
ORL A,R0 ; INSERT BITS 0-3 OF R0 INTO ACC
MOV R0,A ; MOVE ACC INTO R0
SJMP BCD_LOOP ; LOOP UNTIL CR ENCOUNTERED
;-----------------------------------------------------------------------
; THIS SUB WRITES THE BYTE TO THE SCREEN
;-----------------------------------------------------------------------
WRITE_BCD:
PUSH ACC ; SAVE ACC ON STACK
SWAP A ; NIBBLE SWAP ACC
ANL A,#0FH ; CLEAR BITS 4-7 OF ACC
ADD A,#07H ; ADD 7 TO ACC TO CONVERT TO ASCII HEX
JNB ACC.4,LESSNINE ; CHECK TO SEE IF LESS THAN NINE 0-8
CJNE A,#10H,NOTNINE ; JUMP IS GREATER THAN NINE A-F
LESSNINE:
ADD A,#-07H ; SUBTRACT 7 FOR 0-9
NOTNINE:
ADD A,#30H ; ADD 30 TO CONVERT TO ASCII EQUIVALENT
LCALL WRITE_DATA ; WRITE BYTE TO SCREEN
POP ACC ; RECALL ACC FROM STACK
ANL A,#0FH ; PERFORM CONVERSION ON OTHER HALF OF BYTE
ADD A,#07H
JNB ACC.4,NINE2
CJNE A,#10H,NOTNINE2
NINE2:
ADD A,#-07H
NOTNINE2:
ADD A,#30H
LCALL WRITE_DATA
RET
;-----------------------------------------------------------------------
READ_DATA:
JNB RI,READ_DATA ; LOOP WHILE RI BIT IS LOW
CLR RI ;
MOV A,SBUF ; GET DATA BYTE FROM SERIAL BUFFER
RET
;-----------------------------------------------------------------------
WRITE_DATA:
JNB TI,WRITE_DATA ; LOOP WHILE TI BIT IS LOW
CLR TI ;
MOV SBUF,A ; SEND DATA BYTE TO SERIAL
; BUFFER
RET
;-----------------------------------------------------------------------
WRITE_TEXT:
PUSH ACC ; SAVE ACC BYTE ON STACK
WT1:
CLR A ; CLEAR ACC
MOVC A,@A+DPTR ; MOVE FIRST BYTE OF STRING
; TO ACC
INC DPTR ; INC DATA POINTER
CJNE A,#0,WT2 ; CHECK FOR STRING
; TERMINATOR - 0
POP ACC ; RESTORE ACC
RET ; RETURN WHEN STRING IS SENT
WT2:
LCALL WRITE_DATA ; SEND BYTE OF STRING OVER SERIAL PORT
SJMP WT1
;-----------------------------------------------------------------------
; TEXT STRINGS USED FOR USER INTERFACE OVER SERIAL PORT
;-----------------------------------------------------------------------
GODINA:
DB CR,LF,'GODINA (0 - 99) : ',0
MESEC:
DB CR,LF,'MESEC (1 - 12) : ',0
DATATA:
DB CR,LF,'DATA OT MESECA : ',0
DEN:
DB CR,LF,'DEN OT SEDMICATA : ',0
CHAS:
DB CR,LF,'CHAS (0 - 24) : ',0
MINUTI:
DB CR,LF,'MINUTI (0 - 59) : ',0
SEKUNDI:
DB CR,LF,'SEKUNDI (0 - 59) : ',0
TRIER:
DB CR,LF,'NATISNI NIAKOI BUTON ZA DA ZAPISHESH TEZI DANNI ',CR,LF,0
TEXT0:
DB CR,LF,'******** DALLAS SEMICONDUCTOR ********* '
DB CR,LF,'******** DS1307 TEST PROGRAMM ********* ',CR,LF
DB CR,LF,'*MOLIA IZBERETE OPCIA ZA DA PRODALZITE* '
DB CR,LF,'--------------------------------------- '
DB CR,LF,'A. SET TIME(MANUAL) B. SET RAM '
DB CR,LF,'C. READ DATE/TIME D. READ RAM '
DB CR,LF,'E. OSC ON F. OSC OFF '
DB CR,LF
DB CR,LF,'G. SQW/OUT ON-1HZ H. SQW/OUT ON-4KHZ'
DB CR,LF,'I. SQW/OUT ON-8KHZ J. SQW/OUT ON-32KHZ'
DB CR,LF
DB CR,LF,'K. SQW/OUT OFF'
DB CR,LF,'L. WRITE RAM UNIQUE PATTERN '
DB CR,LF,'ESC. TO QUIT ',0
TEXT1:
DB CR,'DATE: ',0
TEXT2:
DB 'TIME: ',0
TEXT3:
DB CR,LF,0
TEXT4:
DB CR,LF,'natisni niakoi klavish za vrashtane'
DB CR,LF,0
TEXT5:
DB CR,LF,'ENTER THE BYTE VALUE WHICH WILL FILL THE RAM'
DB CR,LF,0
TEXT6:
DB CR,LF,'RAM RAM'
DB CR,LF,'ADDR DATA'
DB CR,LF,'-----------------------------'
DB CR,LF,0
;******************************************
;**** END OF PROGRAM ************
;******************************************
END
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