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CCS PCM C Compiler, Version 3.221, 27853 19-VIII-05 18:09
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CCS PCM C Compiler, Version 3.221, 27853 19-VIII-05 18:09
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Filename: D:\KAKLIK\programy\PIC_C\mereni\otmer\16F873\otmer.LST
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Filename: D:\KAKLIK\programy\PIC_C\mereni\otmer\16F873\otmer.LST
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ROM used: 486 words (12%)
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ROM used: 486 words (12%)
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Largest free fragment is 2048
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Largest free fragment is 2048
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RAM used: 10 (5%) at main() level
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RAM used: 10 (5%) at main() level
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27 (14%) worst case
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27 (14%) worst case
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Stack: 5 locations
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Stack: 5 locations
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*
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*
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0000: MOVLW 00
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0000: MOVLW 00
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0001: MOVWF 0A
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0001: MOVWF 0A
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0002: GOTO 158
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0002: GOTO 158
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0003: NOP
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0003: NOP
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.................... #include "D:\KAKLIK\programy\PIC_C\mereni\otmer\16F873\otmer.h"
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.................... #include "D:\KAKLIK\programy\PIC_C\mereni\otmer\16F873\otmer.h"
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.................... #include <16F873.h>
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.................... #include <16F873.h>
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.................... //////// Standard Header file for the PIC16F873 device ////////////////
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.................... //////// Standard Header file for the PIC16F873 device ////////////////
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.................... #device PIC16F873
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.................... #device PIC16F873
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.................... #list
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.................... #list
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....................
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....................
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.................... #device adc=8
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.................... #device adc=8
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.................... #fuses NOWDT,XT, NOPUT, NOPROTECT, BROWNOUT, NOLVP, NOCPD, NOWRT, NODEBUG
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.................... #fuses NOWDT,XT, NOPUT, NOPROTECT, BROWNOUT, NOLVP, NOCPD, NOWRT, NODEBUG
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.................... #use delay(clock=4000000)
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.................... #use delay(clock=4000000)
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*
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*
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0024: MOVLW 32
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0024: MOVLW 32
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0025: MOVWF 04
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0025: MOVWF 04
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0026: MOVF 00,W
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0026: MOVF 00,W
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0027: BTFSC 03.2
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0027: BTFSC 03.2
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0028: GOTO 038
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0028: GOTO 038
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0029: MOVLW 01
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0029: MOVLW 01
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002A: MOVWF 21
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002A: MOVWF 21
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002B: CLRF 20
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002B: CLRF 20
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002C: DECFSZ 20,F
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002C: DECFSZ 20,F
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002D: GOTO 02C
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002D: GOTO 02C
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002E: DECFSZ 21,F
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002E: DECFSZ 21,F
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002F: GOTO 02B
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002F: GOTO 02B
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0030: MOVLW 4A
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0030: MOVLW 4A
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0031: MOVWF 20
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0031: MOVWF 20
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0032: DECFSZ 20,F
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0032: DECFSZ 20,F
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0033: GOTO 032
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0033: GOTO 032
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0034: NOP
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0034: NOP
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0035: NOP
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0035: NOP
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0036: DECFSZ 00,F
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0036: DECFSZ 00,F
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0037: GOTO 029
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0037: GOTO 029
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0038: RETLW 00
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0038: RETLW 00
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....................
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....................
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....................
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....................
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....................
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....................
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.................... //Definice portu: // Datovy port displeje pripojeny na 4 bity za sebou na jeden port
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.................... //Definice portu: // Datovy port displeje pripojeny na 4 bity za sebou na jeden port
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....................
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....................
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.................... #define LCD_RS PIN_B1 // rizeni registru LCD displeje
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.................... #define LCD_RS PIN_B1 // rizeni registru LCD displeje
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.................... #define LCD_E PIN_B0 // enable LCD displeje
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.................... #define LCD_E PIN_B0 // enable LCD displeje
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.................... #define LCD_DATA_LSB PIN_C4 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou)
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.................... #define LCD_DATA_LSB PIN_C4 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou)
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....................
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....................
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.................... #include "LCD.C"
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.................... #include "LCD.C"
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.................... // LCD modul pro ovladani dvouradkoveho LCD modulu se standardnim Hitachi radicem
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.................... // LCD modul pro ovladani dvouradkoveho LCD modulu se standardnim Hitachi radicem
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.................... // (c)miho 2002,2005
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.................... // (c)miho 2002,2005
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.................... //
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.................... //
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.................... // Historie:
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.................... // Historie:
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.................... //
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.................... //
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.................... // 0.00 Uvodni verze se snadnou definici portu LCD displeje
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.................... // 0.00 Uvodni verze se snadnou definici portu LCD displeje
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.................... // 0.01 Oprava portu (zapomenute stare identifikatory)
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.................... // 0.01 Oprava portu (zapomenute stare identifikatory)
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.................... // 0.02 Doplnena moznost pripojeni datoveho portu LCD na libovolne porty
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.................... // 0.02 Doplnena moznost pripojeni datoveho portu LCD na libovolne porty
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.................... // 0.03 Doplnena procedura lcd_clr pro smazani displeje
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.................... // 0.03 Doplnena procedura lcd_clr pro smazani displeje
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.................... //
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.................... //
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.................... //
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.................... //
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.................... // Funkce:
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.................... // Funkce:
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.................... //
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.................... //
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.................... // lcd_init() inicializuje LCD displej a porty, nutno volat jako prvni
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.................... // lcd_init() inicializuje LCD displej a porty, nutno volat jako prvni
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.................... //
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.................... //
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.................... // lcd_putc(c) zapis snaku do lcd displeje, zpracovava nasledujici ridici znaky
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.................... // lcd_putc(c) zapis snaku do lcd displeje, zpracovava nasledujici ridici znaky
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.................... // \f = \x0C - nova stranka - smazani displeje
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.................... // \f = \x0C - nova stranka - smazani displeje
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.................... // \n = \x0A - odradkovani (prechod na druhou radku)
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.................... // \n = \x0A - odradkovani (prechod na druhou radku)
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.................... // \b = \x08 - backspace - posunuti kurzoru o 1 pozici zpet
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.................... // \b = \x08 - backspace - posunuti kurzoru o 1 pozici zpet
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.................... // \r = \x0D - goto home to position 1,1
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.................... // \r = \x0D - goto home to position 1,1
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.................... // \0 .. \7 - definovatelne znaky v pozicich 0 az 7 v CGRAM
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.................... // \0 .. \7 - definovatelne znaky v pozicich 0 az 7 v CGRAM
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.................... // \20 .. \27 - alternativne zapsane znaky (oktalove) v pozicich 0 az 7 CGRAM
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.................... // \20 .. \27 - alternativne zapsane znaky (oktalove) v pozicich 0 az 7 CGRAM
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.................... // Pozor na to, ze funkce printf konci tisk pokud narazi na \0 (konec retezce)
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.................... // Pozor na to, ze funkce printf konci tisk pokud narazi na \0 (konec retezce)
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.................... //
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.................... //
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.................... // lcd_gotoxy(x,y) presune kurzor na uvedenou adresu
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.................... // lcd_gotoxy(x,y) presune kurzor na uvedenou adresu
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.................... // nekontroluje parametry
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.................... // nekontroluje parametry
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.................... //
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.................... //
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.................... // lcd_cursor_on zapne kurzor
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.................... // lcd_cursor_on zapne kurzor
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.................... // lcd_cursor_off vypne kurzor
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.................... // lcd_cursor_off vypne kurzor
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.................... //
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.................... //
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.................... // lcd_clr smaze displej
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.................... // lcd_clr smaze displej
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.................... //
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.................... //
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.................... // lcd_define_char(Index, Def) Makro, ktere definuje znaky od pozice Index obsahem definicniho
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.................... // lcd_define_char(Index, Def) Makro, ktere definuje znaky od pozice Index obsahem definicniho
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.................... // retezce Def. Kazdych 8 znaku retezce Def definuje dalsi znak v CGRAM.
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.................... // retezce Def. Kazdych 8 znaku retezce Def definuje dalsi znak v CGRAM.
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.................... // Kapacita CGRAM je celkem 8 znaku s indexem 0 az 7.
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.................... // Kapacita CGRAM je celkem 8 znaku s indexem 0 az 7.
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.................... // Na konci se provede lcd_gotoxy(1,1).
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.................... // Na konci se provede lcd_gotoxy(1,1).
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.................... // Na konci teto knihovny je priklad pouziti definovanych znaku
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.................... // Na konci teto knihovny je priklad pouziti definovanych znaku
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.................... //
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.................... //
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.................... //
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.................... //
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.................... // Definice portu: // Datovy port displeje pripojeny na 4 bity za sebou na jeden port
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.................... // Definice portu: // Datovy port displeje pripojeny na 4 bity za sebou na jeden port
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.................... //
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.................... //
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.................... // #define LCD_RS PIN_B2 // rizeni registru LCD displeje
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.................... // #define LCD_RS PIN_B2 // rizeni registru LCD displeje
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.................... // #define LCD_E PIN_B1 // enable LCD displeje
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.................... // #define LCD_E PIN_B1 // enable LCD displeje
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.................... // #define LCD_DATA_LSB PIN_C2 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou)
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.................... // #define LCD_DATA_LSB PIN_C2 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou)
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.................... //
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.................... //
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.................... //
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.................... //
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.................... // Alternativni definice: // Datovy port displeje pripojeny na libovolne 4 bitove porty (vede na kod delsi asi o 25 slov)
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.................... // Alternativni definice: // Datovy port displeje pripojeny na libovolne 4 bitove porty (vede na kod delsi asi o 25 slov)
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.................... //
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.................... //
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.................... // #define LCD_RS PIN_B2 // rizeni registru LCD displeje
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.................... // #define LCD_RS PIN_B2 // rizeni registru LCD displeje
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.................... // #define LCD_E PIN_B1 // enable LCD displeje
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.................... // #define LCD_E PIN_B1 // enable LCD displeje
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.................... // #define LCD_D0 PIN_C2 // D0 - datove bity pripojene na libovolne porty
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.................... // #define LCD_D0 PIN_C2 // D0 - datove bity pripojene na libovolne porty
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.................... // #define LCD_D1 PIN_C3 // D1
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.................... // #define LCD_D1 PIN_C3 // D1
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.................... // #define LCD_D2 PIN_C4 // D2
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.................... // #define LCD_D2 PIN_C4 // D2
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.................... // #define LCD_D3 PIN_C5 // D3
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.................... // #define LCD_D3 PIN_C5 // D3
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....................
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....................
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....................
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....................
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....................
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....................
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....................
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....................
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.................... // Privatni sekce, cist jen v pripade, ze neco nefunguje
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.................... // Privatni sekce, cist jen v pripade, ze neco nefunguje
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....................
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....................
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....................
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....................
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....................
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....................
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....................
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....................
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.................... #ifdef LCD_DATA_LSB
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.................... #ifdef LCD_DATA_LSB
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.................... // Generovane defince portu pro ucely teto knihovny aby kod generoval spravne IO operace a soucasne
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.................... // Generovane defince portu pro ucely teto knihovny aby kod generoval spravne IO operace a soucasne
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.................... // bylo mozne jednoduse deklarovat pripojene piny LCD displeje pri pouziti teto knihovny. Problem spociva
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.................... // bylo mozne jednoduse deklarovat pripojene piny LCD displeje pri pouziti teto knihovny. Problem spociva
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.................... // v tom, ze se musi spravne ridit smery portu a soucasne datovy port zabira jen 4 bity ze zadaneho portu
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.................... // v tom, ze se musi spravne ridit smery portu a soucasne datovy port zabira jen 4 bity ze zadaneho portu
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.................... //
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.................... //
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.................... #define LCD_SHIFT (LCD_DATA_LSB&7) // pocet bitu posuvu datoveho kanalu v datovem portu
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.................... #define LCD_SHIFT (LCD_DATA_LSB&7) // pocet bitu posuvu datoveho kanalu v datovem portu
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.................... #define LCD_PORT (LCD_DATA_LSB>>3) // adresa LCD datoveho portu
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.................... #define LCD_PORT (LCD_DATA_LSB>>3) // adresa LCD datoveho portu
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.................... #define LCD_TRIS (LCD_PORT+0x80) // adresa prislusneho TRIS registru
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.................... #define LCD_TRIS (LCD_PORT+0x80) // adresa prislusneho TRIS registru
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.................... #define LCD_MASK (0xF<<LCD_SHIFT) // maska platnych bitu
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.................... #define LCD_MASK (0xF<<LCD_SHIFT) // maska platnych bitu
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.................... //
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.................... //
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.................... #if LCD_SHIFT>4 // kontrola mezi
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.................... #if LCD_SHIFT>4 // kontrola mezi
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.................... #error LCD data port LSB bit not in range 0..4
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.................... #error LCD data port LSB bit not in range 0..4
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.................... #endif
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.................... #endif
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.................... #endif
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.................... #endif
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....................
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....................
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....................
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....................
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.................... // Definice konstant pro LCD display
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.................... // Definice konstant pro LCD display
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.................... //
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.................... //
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.................... #define LCD_CURSOR_ON_ 0x0E // kurzor jako blikajici radka pod znakem
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.................... #define LCD_CURSOR_ON_ 0x0E // kurzor jako blikajici radka pod znakem
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.................... #define LCD_CURSOR_OFF_ 0x0C // zadny kurzor
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.................... #define LCD_CURSOR_OFF_ 0x0C // zadny kurzor
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.................... #define LCD_LINE_2 0x40 // adresa 1. znaku 2. radky
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.................... #define LCD_LINE_2 0x40 // adresa 1. znaku 2. radky
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....................
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....................
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....................
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....................
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.................... // Definice rezimu LCD displeje
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.................... // Definice rezimu LCD displeje
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.................... //
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.................... //
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.................... BYTE const LCD_INIT_STRING[4] =
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.................... BYTE const LCD_INIT_STRING[4] =
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.................... {
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.................... {
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.................... 0x28, // intrfejs 4 bity, 2 radky, font 5x7
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.................... 0x28, // intrfejs 4 bity, 2 radky, font 5x7
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.................... LCD_CURSOR_OFF_, // display on, kurzor off,
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.................... LCD_CURSOR_OFF_, // display on, kurzor off,
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.................... 0x01, // clear displeje
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.................... 0x01, // clear displeje
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.................... 0x06 // inkrement pozice kurzoru (posun kurzoru doprava)
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.................... 0x06 // inkrement pozice kurzoru (posun kurzoru doprava)
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.................... };
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.................... };
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....................
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....................
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....................
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....................
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.................... // Odesle nibble do displeje (posle data a klikne signalem e)
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.................... // Odesle nibble do displeje (posle data a klikne signalem e)
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.................... //
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.................... //
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.................... void lcd_send_nibble( BYTE n )
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.................... void lcd_send_nibble( BYTE n )
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.................... {
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.................... {
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.................... #ifdef LCD_DATA_LSB
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.................... #ifdef LCD_DATA_LSB
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.................... // data jsou za sebou na 4 bitech jednoho portu
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.................... // data jsou za sebou na 4 bitech jednoho portu
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.................... *LCD_PORT = (*LCD_PORT & ~LCD_MASK) | ((n << LCD_SHIFT) & LCD_MASK); // nastav datove bity portu a ostatni zachovej
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.................... *LCD_PORT = (*LCD_PORT & ~LCD_MASK) | ((n << LCD_SHIFT) & LCD_MASK); // nastav datove bity portu a ostatni zachovej
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161 |
0039: MOVF 07,W
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0039: MOVF 07,W
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003A: ANDLW 0F
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003A: ANDLW 0F
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003B: MOVWF 39
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003B: MOVWF 39
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003C: SWAPF 38,W
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003C: SWAPF 38,W
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003D: MOVWF 20
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003D: MOVWF 20
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003E: MOVLW F0
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003E: MOVLW F0
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003F: ANDWF 20,F
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003F: ANDWF 20,F
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0040: MOVF 20,W
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0040: MOVF 20,W
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0041: ANDLW F0
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0041: ANDLW F0
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0042: IORWF 39,W
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0042: IORWF 39,W
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0043: MOVWF 07
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0043: MOVWF 07
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.................... #else
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.................... #else
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.................... // data jsou na libovolnych 4 bitech libovolnych portu
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.................... // data jsou na libovolnych 4 bitech libovolnych portu
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.................... output_bit(LCD_D0,bit_test(n,0));
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.................... output_bit(LCD_D0,bit_test(n,0));
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.................... output_bit(LCD_D1,bit_test(n,1));
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.................... output_bit(LCD_D1,bit_test(n,1));
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.................... output_bit(LCD_D2,bit_test(n,2));
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.................... output_bit(LCD_D2,bit_test(n,2));
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.................... output_bit(LCD_D3,bit_test(n,3));
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.................... output_bit(LCD_D3,bit_test(n,3));
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.................... #endif
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.................... #endif
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.................... output_bit(LCD_E,1); // vzestupna hrana
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.................... output_bit(LCD_E,1); // vzestupna hrana
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0044: BSF 06.0
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0044: BSF 06.0
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0045: BSF 03.5
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0045: BSF 03.5
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0046: BCF 06.0
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0046: BCF 06.0
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183 |
.................... delay_us(1); // pockej alespon 450ns od e nebo alespon 195ns od dat
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183 |
.................... delay_us(1); // pockej alespon 450ns od e nebo alespon 195ns od dat
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184 |
0047: NOP
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184 |
0047: NOP
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185 |
.................... output_bit(LCD_E,0); // sestupna hrana (minimalni perioda e je 1us)
|
185 |
.................... output_bit(LCD_E,0); // sestupna hrana (minimalni perioda e je 1us)
|
186 |
0048: BCF 03.5
|
186 |
0048: BCF 03.5
|
187 |
0049: BCF 06.0
|
187 |
0049: BCF 06.0
|
188 |
004A: BSF 03.5
|
188 |
004A: BSF 03.5
|
189 |
004B: BCF 06.0
|
189 |
004B: BCF 06.0
|
190 |
.................... }
|
190 |
.................... }
|
191 |
004C: BCF 03.5
|
191 |
004C: BCF 03.5
|
192 |
004D: RETLW 00
|
192 |
004D: RETLW 00
|
193 |
....................
|
193 |
....................
|
194 |
....................
|
194 |
....................
|
195 |
.................... // Odesle bajt do registru LCD
|
195 |
.................... // Odesle bajt do registru LCD
|
196 |
.................... //
|
196 |
.................... //
|
197 |
.................... // Pokud je Adr=0 .. instrukcni registr
|
197 |
.................... // Pokud je Adr=0 .. instrukcni registr
|
198 |
.................... // Pokud je Adr=1 .. datovy registr
|
198 |
.................... // Pokud je Adr=1 .. datovy registr
|
199 |
.................... //
|
199 |
.................... //
|
200 |
.................... void lcd_send_byte( BOOLEAN Adr, BYTE n )
|
200 |
.................... void lcd_send_byte( BOOLEAN Adr, BYTE n )
|
201 |
.................... {
|
201 |
.................... {
|
202 |
.................... output_bit(LCD_RS,Adr); // vyber registr
|
202 |
.................... output_bit(LCD_RS,Adr); // vyber registr
|
203 |
004E: MOVF 36,F
|
203 |
004E: MOVF 36,F
|
204 |
004F: BTFSS 03.2
|
204 |
004F: BTFSS 03.2
|
205 |
0050: GOTO 053
|
205 |
0050: GOTO 053
|
206 |
0051: BCF 06.1
|
206 |
0051: BCF 06.1
|
207 |
0052: GOTO 054
|
207 |
0052: GOTO 054
|
208 |
0053: BSF 06.1
|
208 |
0053: BSF 06.1
|
209 |
0054: BSF 03.5
|
209 |
0054: BSF 03.5
|
210 |
0055: BCF 06.1
|
210 |
0055: BCF 06.1
|
211 |
.................... swap(n);
|
211 |
.................... swap(n);
|
212 |
0056: BCF 03.5
|
212 |
0056: BCF 03.5
|
213 |
0057: SWAPF 37,F
|
213 |
0057: SWAPF 37,F
|
214 |
.................... lcd_send_nibble(n); // posli horni pulku bajtu
|
214 |
.................... lcd_send_nibble(n); // posli horni pulku bajtu
|
215 |
0058: MOVF 37,W
|
215 |
0058: MOVF 37,W
|
216 |
0059: MOVWF 38
|
216 |
0059: MOVWF 38
|
217 |
005A: CALL 039
|
217 |
005A: CALL 039
|
218 |
.................... swap(n);
|
218 |
.................... swap(n);
|
219 |
005B: SWAPF 37,F
|
219 |
005B: SWAPF 37,F
|
220 |
.................... lcd_send_nibble(n); // posli spodni pulku bajtu
|
220 |
.................... lcd_send_nibble(n); // posli spodni pulku bajtu
|
221 |
005C: MOVF 37,W
|
221 |
005C: MOVF 37,W
|
222 |
005D: MOVWF 38
|
222 |
005D: MOVWF 38
|
223 |
005E: CALL 039
|
223 |
005E: CALL 039
|
224 |
.................... delay_us(40); // minimalni doba na provedeni prikazu
|
224 |
.................... delay_us(40); // minimalni doba na provedeni prikazu
|
225 |
005F: MOVLW 0D
|
225 |
005F: MOVLW 0D
|
226 |
0060: MOVWF 20
|
226 |
0060: MOVWF 20
|
227 |
0061: DECFSZ 20,F
|
227 |
0061: DECFSZ 20,F
|
228 |
0062: GOTO 061
|
228 |
0062: GOTO 061
|
229 |
.................... }
|
229 |
.................... }
|
230 |
0063: RETLW 00
|
230 |
0063: RETLW 00
|
231 |
....................
|
231 |
....................
|
232 |
....................
|
232 |
....................
|
233 |
.................... // Provede inicializaci LCD displeje, smaze obsah a nastavi mod displeje
|
233 |
.................... // Provede inicializaci LCD displeje, smaze obsah a nastavi mod displeje
|
234 |
.................... //
|
234 |
.................... //
|
235 |
.................... // Tato procedura se musi volat pred pouzitim ostatnich lcd_ procedur
|
235 |
.................... // Tato procedura se musi volat pred pouzitim ostatnich lcd_ procedur
|
236 |
.................... //
|
236 |
.................... //
|
237 |
.................... void lcd_init()
|
237 |
.................... void lcd_init()
|
238 |
.................... {
|
238 |
.................... {
|
239 |
....................
|
239 |
....................
|
240 |
.................... int i; // pocitadlo cyklu
|
240 |
.................... int i; // pocitadlo cyklu
|
241 |
....................
|
241 |
....................
|
242 |
.................... delay_ms(20); // spozdeni pro provedeni startu displeje po zapnuti napajeni
|
242 |
.................... delay_ms(20); // spozdeni pro provedeni startu displeje po zapnuti napajeni
|
243 |
0064: MOVLW 14
|
243 |
0064: MOVLW 14
|
244 |
0065: MOVWF 32
|
244 |
0065: MOVWF 32
|
245 |
0066: CALL 024
|
245 |
0066: CALL 024
|
246 |
....................
|
246 |
....................
|
247 |
.................... #ifdef LCD_DATA_LSB
|
247 |
.................... #ifdef LCD_DATA_LSB
|
248 |
.................... // data jsou na 4 bitech za sebou, nastav smer pro vsechny dalsi prenosy
|
248 |
.................... // data jsou na 4 bitech za sebou, nastav smer pro vsechny dalsi prenosy
|
249 |
.................... *LCD_TRIS = *LCD_TRIS & ~LCD_MASK; // nuluj odpovidajici bity tris registru datoveho portu LCD
|
249 |
.................... *LCD_TRIS = *LCD_TRIS & ~LCD_MASK; // nuluj odpovidajici bity tris registru datoveho portu LCD
|
250 |
0067: MOVLW 0F
|
250 |
0067: MOVLW 0F
|
251 |
0068: BSF 03.5
|
251 |
0068: BSF 03.5
|
252 |
0069: ANDWF 07,F
|
252 |
0069: ANDWF 07,F
|
253 |
.................... #endif
|
253 |
.................... #endif
|
254 |
....................
|
254 |
....................
|
255 |
.................... output_bit(LCD_RS,0); // nastav jako vystup a nastav klidovy stav
|
255 |
.................... output_bit(LCD_RS,0); // nastav jako vystup a nastav klidovy stav
|
256 |
006A: BCF 03.5
|
256 |
006A: BCF 03.5
|
257 |
006B: BCF 06.1
|
257 |
006B: BCF 06.1
|
258 |
006C: BSF 03.5
|
258 |
006C: BSF 03.5
|
259 |
006D: BCF 06.1
|
259 |
006D: BCF 06.1
|
260 |
.................... output_bit(LCD_E, 0); // nastav jako vystup a nastav klidovy stav
|
260 |
.................... output_bit(LCD_E, 0); // nastav jako vystup a nastav klidovy stav
|
261 |
006E: BCF 03.5
|
261 |
006E: BCF 03.5
|
262 |
006F: BCF 06.0
|
262 |
006F: BCF 06.0
|
263 |
0070: BSF 03.5
|
263 |
0070: BSF 03.5
|
264 |
0071: BCF 06.0
|
264 |
0071: BCF 06.0
|
265 |
....................
|
265 |
....................
|
266 |
.................... for (i=0; i<3; i++) // nastav lcd do rezimu 8 bitu sbernice
|
266 |
.................... for (i=0; i<3; i++) // nastav lcd do rezimu 8 bitu sbernice
|
267 |
0072: BCF 03.5
|
267 |
0072: BCF 03.5
|
268 |
0073: CLRF 28
|
268 |
0073: CLRF 28
|
269 |
0074: MOVF 28,W
|
269 |
0074: MOVF 28,W
|
270 |
0075: SUBLW 02
|
270 |
0075: SUBLW 02
|
271 |
0076: BTFSS 03.0
|
271 |
0076: BTFSS 03.0
|
272 |
0077: GOTO 080
|
272 |
0077: GOTO 080
|
273 |
.................... {
|
273 |
.................... {
|
274 |
.................... delay_ms(2); // muze byt rozdelany prenos dat (2x 4 bity) nebo pomaly povel
|
274 |
.................... delay_ms(2); // muze byt rozdelany prenos dat (2x 4 bity) nebo pomaly povel
|
275 |
0078: MOVLW 02
|
275 |
0078: MOVLW 02
|
276 |
0079: MOVWF 32
|
276 |
0079: MOVWF 32
|
277 |
007A: CALL 024
|
277 |
007A: CALL 024
|
278 |
.................... lcd_send_nibble(3); // rezim 8 bitu
|
278 |
.................... lcd_send_nibble(3); // rezim 8 bitu
|
279 |
007B: MOVLW 03
|
279 |
007B: MOVLW 03
|
280 |
007C: MOVWF 38
|
280 |
007C: MOVWF 38
|
281 |
007D: CALL 039
|
281 |
007D: CALL 039
|
282 |
.................... }
|
282 |
.................... }
|
283 |
007E: INCF 28,F
|
283 |
007E: INCF 28,F
|
284 |
007F: GOTO 074
|
284 |
007F: GOTO 074
|
285 |
....................
|
285 |
....................
|
286 |
.................... delay_us(40); // cas na zpracovani
|
286 |
.................... delay_us(40); // cas na zpracovani
|
287 |
0080: MOVLW 0D
|
287 |
0080: MOVLW 0D
|
288 |
0081: MOVWF 20
|
288 |
0081: MOVWF 20
|
289 |
0082: DECFSZ 20,F
|
289 |
0082: DECFSZ 20,F
|
290 |
0083: GOTO 082
|
290 |
0083: GOTO 082
|
291 |
.................... lcd_send_nibble(2); // nastav rezim 4 bitu (plati od nasledujiciho prenosu)
|
291 |
.................... lcd_send_nibble(2); // nastav rezim 4 bitu (plati od nasledujiciho prenosu)
|
292 |
0084: MOVLW 02
|
292 |
0084: MOVLW 02
|
293 |
0085: MOVWF 38
|
293 |
0085: MOVWF 38
|
294 |
0086: CALL 039
|
294 |
0086: CALL 039
|
295 |
.................... delay_us(40); // cas na zpracovani
|
295 |
.................... delay_us(40); // cas na zpracovani
|
296 |
0087: MOVLW 0D
|
296 |
0087: MOVLW 0D
|
297 |
0088: MOVWF 20
|
297 |
0088: MOVWF 20
|
298 |
0089: DECFSZ 20,F
|
298 |
0089: DECFSZ 20,F
|
299 |
008A: GOTO 089
|
299 |
008A: GOTO 089
|
300 |
....................
|
300 |
....................
|
301 |
.................... for (i=0;i<3;i++) // proved inicializaci (nastaveni modu, smazani apod)
|
301 |
.................... for (i=0;i<3;i++) // proved inicializaci (nastaveni modu, smazani apod)
|
302 |
008B: CLRF 28
|
302 |
008B: CLRF 28
|
303 |
008C: MOVF 28,W
|
303 |
008C: MOVF 28,W
|
304 |
008D: SUBLW 02
|
304 |
008D: SUBLW 02
|
305 |
008E: BTFSS 03.0
|
305 |
008E: BTFSS 03.0
|
306 |
008F: GOTO 09C
|
306 |
008F: GOTO 09C
|
307 |
.................... {
|
307 |
.................... {
|
308 |
.................... lcd_send_byte(0,LCD_INIT_STRING[i]);
|
308 |
.................... lcd_send_byte(0,LCD_INIT_STRING[i]);
|
309 |
0090: MOVF 28,W
|
309 |
0090: MOVF 28,W
|
310 |
0091: CALL 004
|
310 |
0091: CALL 004
|
311 |
0092: MOVWF 29
|
311 |
0092: MOVWF 29
|
312 |
0093: CLRF 36
|
312 |
0093: CLRF 36
|
313 |
0094: MOVF 29,W
|
313 |
0094: MOVF 29,W
|
314 |
0095: MOVWF 37
|
314 |
0095: MOVWF 37
|
315 |
0096: CALL 04E
|
315 |
0096: CALL 04E
|
316 |
.................... delay_ms(2);
|
316 |
.................... delay_ms(2);
|
317 |
0097: MOVLW 02
|
317 |
0097: MOVLW 02
|
318 |
0098: MOVWF 32
|
318 |
0098: MOVWF 32
|
319 |
0099: CALL 024
|
319 |
0099: CALL 024
|
320 |
.................... }
|
320 |
.................... }
|
321 |
009A: INCF 28,F
|
321 |
009A: INCF 28,F
|
322 |
009B: GOTO 08C
|
322 |
009B: GOTO 08C
|
323 |
.................... }
|
323 |
.................... }
|
324 |
009C: BCF 0A.3
|
324 |
009C: BCF 0A.3
|
325 |
009D: GOTO 19C (RETURN)
|
325 |
009D: GOTO 19C (RETURN)
|
326 |
....................
|
326 |
....................
|
327 |
....................
|
327 |
....................
|
328 |
.................... // Proved presun kurzoru
|
328 |
.................... // Proved presun kurzoru
|
329 |
.................... //
|
329 |
.................... //
|
330 |
.................... // Pozice 1.1 je domu
|
330 |
.................... // Pozice 1.1 je domu
|
331 |
.................... //
|
331 |
.................... //
|
332 |
.................... void lcd_gotoxy( BYTE x, BYTE y)
|
332 |
.................... void lcd_gotoxy( BYTE x, BYTE y)
|
333 |
.................... {
|
333 |
.................... {
|
334 |
....................
|
334 |
....................
|
335 |
.................... BYTE Adr;
|
335 |
.................... BYTE Adr;
|
336 |
....................
|
336 |
....................
|
337 |
.................... Adr=x-1;
|
337 |
.................... Adr=x-1;
|
338 |
*
|
338 |
*
|
339 |
00B4: MOVLW 01
|
339 |
00B4: MOVLW 01
|
340 |
00B5: SUBWF 32,W
|
340 |
00B5: SUBWF 32,W
|
341 |
00B6: MOVWF 34
|
341 |
00B6: MOVWF 34
|
342 |
.................... if(y==2)
|
342 |
.................... if(y==2)
|
343 |
00B7: MOVF 33,W
|
343 |
00B7: MOVF 33,W
|
344 |
00B8: SUBLW 02
|
344 |
00B8: SUBLW 02
|
345 |
00B9: BTFSS 03.2
|
345 |
00B9: BTFSS 03.2
|
346 |
00BA: GOTO 0BD
|
346 |
00BA: GOTO 0BD
|
347 |
.................... Adr+=LCD_LINE_2;
|
347 |
.................... Adr+=LCD_LINE_2;
|
348 |
00BB: MOVLW 40
|
348 |
00BB: MOVLW 40
|
349 |
00BC: ADDWF 34,F
|
349 |
00BC: ADDWF 34,F
|
350 |
....................
|
350 |
....................
|
351 |
.................... lcd_send_byte(0,0x80|Adr);
|
351 |
.................... lcd_send_byte(0,0x80|Adr);
|
352 |
00BD: MOVF 34,W
|
352 |
00BD: MOVF 34,W
|
353 |
00BE: IORLW 80
|
353 |
00BE: IORLW 80
|
354 |
00BF: MOVWF 35
|
354 |
00BF: MOVWF 35
|
355 |
00C0: CLRF 36
|
355 |
00C0: CLRF 36
|
356 |
00C1: MOVF 35,W
|
356 |
00C1: MOVF 35,W
|
357 |
00C2: MOVWF 37
|
357 |
00C2: MOVWF 37
|
358 |
00C3: CALL 04E
|
358 |
00C3: CALL 04E
|
359 |
.................... }
|
359 |
.................... }
|
360 |
00C4: RETLW 00
|
360 |
00C4: RETLW 00
|
361 |
....................
|
361 |
....................
|
362 |
....................
|
362 |
....................
|
363 |
.................... // Zapis znaku na displej, zpracovani ridicich znaku
|
363 |
.................... // Zapis znaku na displej, zpracovani ridicich znaku
|
364 |
.................... //
|
364 |
.................... //
|
365 |
.................... void lcd_putc( char c)
|
365 |
.................... void lcd_putc( char c)
|
366 |
.................... {
|
366 |
.................... {
|
367 |
....................
|
367 |
....................
|
368 |
.................... switch (c)
|
368 |
.................... switch (c)
|
369 |
.................... {
|
369 |
.................... {
|
370 |
00C5: MOVF 31,W
|
370 |
00C5: MOVF 31,W
|
371 |
00C6: XORLW 0C
|
371 |
00C6: XORLW 0C
|
372 |
00C7: BTFSC 03.2
|
372 |
00C7: BTFSC 03.2
|
373 |
00C8: GOTO 0D3
|
373 |
00C8: GOTO 0D3
|
374 |
00C9: XORLW 06
|
374 |
00C9: XORLW 06
|
375 |
00CA: BTFSC 03.2
|
375 |
00CA: BTFSC 03.2
|
376 |
00CB: GOTO 0DB
|
376 |
00CB: GOTO 0DB
|
377 |
00CC: XORLW 07
|
377 |
00CC: XORLW 07
|
378 |
00CD: BTFSC 03.2
|
378 |
00CD: BTFSC 03.2
|
379 |
00CE: GOTO 0E1
|
379 |
00CE: GOTO 0E1
|
380 |
00CF: XORLW 05
|
380 |
00CF: XORLW 05
|
381 |
00D0: BTFSC 03.2
|
381 |
00D0: BTFSC 03.2
|
382 |
00D1: GOTO 0E6
|
382 |
00D1: GOTO 0E6
|
383 |
00D2: GOTO 0EB
|
383 |
00D2: GOTO 0EB
|
384 |
.................... case '\f' : lcd_send_byte(0,1); // smaz displej
|
384 |
.................... case '\f' : lcd_send_byte(0,1); // smaz displej
|
385 |
00D3: CLRF 36
|
385 |
00D3: CLRF 36
|
386 |
00D4: MOVLW 01
|
386 |
00D4: MOVLW 01
|
387 |
00D5: MOVWF 37
|
387 |
00D5: MOVWF 37
|
388 |
00D6: CALL 04E
|
388 |
00D6: CALL 04E
|
389 |
.................... delay_ms(2);
|
389 |
.................... delay_ms(2);
|
390 |
00D7: MOVLW 02
|
390 |
00D7: MOVLW 02
|
391 |
00D8: MOVWF 32
|
391 |
00D8: MOVWF 32
|
392 |
00D9: CALL 024
|
392 |
00D9: CALL 024
|
393 |
.................... break;
|
393 |
.................... break;
|
394 |
00DA: GOTO 0F7
|
394 |
00DA: GOTO 0F7
|
395 |
.................... case '\n' : lcd_gotoxy(1,2); break; // presun se na 1. znak 2. radky
|
395 |
.................... case '\n' : lcd_gotoxy(1,2); break; // presun se na 1. znak 2. radky
|
396 |
00DB: MOVLW 01
|
396 |
00DB: MOVLW 01
|
397 |
00DC: MOVWF 32
|
397 |
00DC: MOVWF 32
|
398 |
00DD: MOVLW 02
|
398 |
00DD: MOVLW 02
|
399 |
00DE: MOVWF 33
|
399 |
00DE: MOVWF 33
|
400 |
00DF: CALL 0B4
|
400 |
00DF: CALL 0B4
|
401 |
00E0: GOTO 0F7
|
401 |
00E0: GOTO 0F7
|
402 |
.................... case '\r' : lcd_gotoxy(1,1); break; // presun home
|
402 |
.................... case '\r' : lcd_gotoxy(1,1); break; // presun home
|
403 |
00E1: MOVLW 01
|
403 |
00E1: MOVLW 01
|
404 |
00E2: MOVWF 32
|
404 |
00E2: MOVWF 32
|
405 |
00E3: MOVWF 33
|
405 |
00E3: MOVWF 33
|
406 |
00E4: CALL 0B4
|
406 |
00E4: CALL 0B4
|
407 |
00E5: GOTO 0F7
|
407 |
00E5: GOTO 0F7
|
408 |
.................... case '\b' : lcd_send_byte(0,0x10); break; // posun kurzor o 1 zpet
|
408 |
.................... case '\b' : lcd_send_byte(0,0x10); break; // posun kurzor o 1 zpet
|
409 |
00E6: CLRF 36
|
409 |
00E6: CLRF 36
|
410 |
00E7: MOVLW 10
|
410 |
00E7: MOVLW 10
|
411 |
00E8: MOVWF 37
|
411 |
00E8: MOVWF 37
|
412 |
00E9: CALL 04E
|
412 |
00E9: CALL 04E
|
413 |
00EA: GOTO 0F7
|
413 |
00EA: GOTO 0F7
|
414 |
.................... default : if (c<0x20) c&=0x7; // preklopeni definovatelnych znaku na rozsah 0 az 0x1F
|
414 |
.................... default : if (c<0x20) c&=0x7; // preklopeni definovatelnych znaku na rozsah 0 az 0x1F
|
415 |
00EB: MOVF 31,W
|
415 |
00EB: MOVF 31,W
|
416 |
00EC: SUBLW 1F
|
416 |
00EC: SUBLW 1F
|
417 |
00ED: BTFSS 03.0
|
417 |
00ED: BTFSS 03.0
|
418 |
00EE: GOTO 0F1
|
418 |
00EE: GOTO 0F1
|
419 |
00EF: MOVLW 07
|
419 |
00EF: MOVLW 07
|
420 |
00F0: ANDWF 31,F
|
420 |
00F0: ANDWF 31,F
|
421 |
.................... lcd_send_byte(1,c); break; // zapis znak
|
421 |
.................... lcd_send_byte(1,c); break; // zapis znak
|
422 |
00F1: MOVLW 01
|
422 |
00F1: MOVLW 01
|
423 |
00F2: MOVWF 36
|
423 |
00F2: MOVWF 36
|
424 |
00F3: MOVF 31,W
|
424 |
00F3: MOVF 31,W
|
425 |
00F4: MOVWF 37
|
425 |
00F4: MOVWF 37
|
426 |
00F5: CALL 04E
|
426 |
00F5: CALL 04E
|
427 |
00F6: GOTO 0F7
|
427 |
00F6: GOTO 0F7
|
428 |
.................... }
|
428 |
.................... }
|
429 |
.................... }
|
429 |
.................... }
|
430 |
00F7: RETLW 00
|
430 |
00F7: RETLW 00
|
431 |
....................
|
431 |
....................
|
432 |
....................
|
432 |
....................
|
433 |
.................... // Zapni kurzor
|
433 |
.................... // Zapni kurzor
|
434 |
.................... //
|
434 |
.................... //
|
435 |
.................... void lcd_cursor_on()
|
435 |
.................... void lcd_cursor_on()
|
436 |
.................... {
|
436 |
.................... {
|
437 |
.................... lcd_send_byte(0,LCD_CURSOR_ON_);
|
437 |
.................... lcd_send_byte(0,LCD_CURSOR_ON_);
|
438 |
.................... }
|
438 |
.................... }
|
439 |
....................
|
439 |
....................
|
440 |
....................
|
440 |
....................
|
441 |
.................... // Vypni kurzor
|
441 |
.................... // Vypni kurzor
|
442 |
.................... //
|
442 |
.................... //
|
443 |
.................... void lcd_cursor_off()
|
443 |
.................... void lcd_cursor_off()
|
444 |
.................... {
|
444 |
.................... {
|
445 |
.................... lcd_send_byte(0,LCD_CURSOR_OFF_);
|
445 |
.................... lcd_send_byte(0,LCD_CURSOR_OFF_);
|
446 |
.................... }
|
446 |
.................... }
|
447 |
....................
|
447 |
....................
|
448 |
....................
|
448 |
....................
|
449 |
.................... // Smaz displej
|
449 |
.................... // Smaz displej
|
450 |
.................... //
|
450 |
.................... //
|
451 |
.................... void lcd_clr()
|
451 |
.................... void lcd_clr()
|
452 |
.................... {
|
452 |
.................... {
|
453 |
.................... lcd_putc('\f');
|
453 |
.................... lcd_putc('\f');
|
454 |
.................... }
|
454 |
.................... }
|
455 |
....................
|
455 |
....................
|
456 |
....................
|
456 |
....................
|
457 |
.................... // Definice vlastnich fontu
|
457 |
.................... // Definice vlastnich fontu
|
458 |
.................... //
|
458 |
.................... //
|
459 |
.................... // Vlastnich definic muze byt jen 8 do pozic 0 az 7 pameti CGRAM radice lcd displeje
|
459 |
.................... // Vlastnich definic muze byt jen 8 do pozic 0 az 7 pameti CGRAM radice lcd displeje
|
460 |
.................... // Pro snadne definovani jsou pripraveny nasledujici definice a na konci souboru je uveden
|
460 |
.................... // Pro snadne definovani jsou pripraveny nasledujici definice a na konci souboru je uveden
|
461 |
.................... // priklad pouziti definovanych znaku.
|
461 |
.................... // priklad pouziti definovanych znaku.
|
462 |
....................
|
462 |
....................
|
463 |
....................
|
463 |
....................
|
464 |
.................... // Pomocna procedura pro posilani ridicich dat do radice displeje
|
464 |
.................... // Pomocna procedura pro posilani ridicich dat do radice displeje
|
465 |
.................... //
|
465 |
.................... //
|
466 |
.................... void lcd_putc2(int Data)
|
466 |
.................... void lcd_putc2(int Data)
|
467 |
.................... {
|
467 |
.................... {
|
468 |
.................... lcd_send_byte(1,Data);
|
468 |
.................... lcd_send_byte(1,Data);
|
469 |
.................... }
|
469 |
.................... }
|
470 |
....................
|
470 |
....................
|
471 |
....................
|
471 |
....................
|
472 |
.................... // Pomocne definice pro programovani obsahu CGRAM
|
472 |
.................... // Pomocne definice pro programovani obsahu CGRAM
|
473 |
.................... //
|
473 |
.................... //
|
474 |
.................... #define lcd_define_start(Code) lcd_send_byte(0,0x40+(Code<<3)); delay_ms(2)
|
474 |
.................... #define lcd_define_start(Code) lcd_send_byte(0,0x40+(Code<<3)); delay_ms(2)
|
475 |
.................... #define lcd_define_def(String) printf(lcd_putc2,String);
|
475 |
.................... #define lcd_define_def(String) printf(lcd_putc2,String);
|
476 |
.................... #define lcd_define_end() lcd_send_byte(0,3); delay_ms(2)
|
476 |
.................... #define lcd_define_end() lcd_send_byte(0,3); delay_ms(2)
|
477 |
....................
|
477 |
....................
|
478 |
....................
|
478 |
....................
|
479 |
.................... // Vlastni vykonne makro pro definovani fontu do pozice Index CGRAM s definicnim retezcem Def
|
479 |
.................... // Vlastni vykonne makro pro definovani fontu do pozice Index CGRAM s definicnim retezcem Def
|
480 |
.................... //
|
480 |
.................... //
|
481 |
.................... #define lcd_define_char(Index, Def) lcd_define_start(Index); lcd_define_def(Def); lcd_define_end();
|
481 |
.................... #define lcd_define_char(Index, Def) lcd_define_start(Index); lcd_define_def(Def); lcd_define_end();
|
482 |
....................
|
482 |
....................
|
483 |
....................
|
483 |
....................
|
484 |
.................... // Pripravene definice fontu vybranych znaku
|
484 |
.................... // Pripravene definice fontu vybranych znaku
|
485 |
.................... // V tabulce nesmi byt 00 (konec retezce v printf()), misto toho davame 80
|
485 |
.................... // V tabulce nesmi byt 00 (konec retezce v printf()), misto toho davame 80
|
486 |
.................... //
|
486 |
.................... //
|
487 |
.................... #define LCD_CHAR_BAT100 "\x0E\x1F\x1F\x1F\x1F\x1F\x1F\x1F" /* symbol plne baterie */
|
487 |
.................... #define LCD_CHAR_BAT100 "\x0E\x1F\x1F\x1F\x1F\x1F\x1F\x1F" /* symbol plne baterie */
|
488 |
.................... #define LCD_CHAR_BAT50 "\x0E\x1F\x11\x11\x13\x17\x1F\x1F" /* symbol polovicni baterie */
|
488 |
.................... #define LCD_CHAR_BAT50 "\x0E\x1F\x11\x11\x13\x17\x1F\x1F" /* symbol polovicni baterie */
|
489 |
.................... #define LCD_CHAR_BAT0 "\x0E\x1F\x11\x11\x11\x11\x11\x1F" /* symbol vybite baterie */
|
489 |
.................... #define LCD_CHAR_BAT0 "\x0E\x1F\x11\x11\x11\x11\x11\x1F" /* symbol vybite baterie */
|
490 |
.................... #define LCD_CHAR_UP "\x80\x04\x0E\x15\x04\x04\x04\x80" /* symbol sipka nahoru */
|
490 |
.................... #define LCD_CHAR_UP "\x80\x04\x0E\x15\x04\x04\x04\x80" /* symbol sipka nahoru */
|
491 |
.................... #define LCD_CHAR_DOWN "\x80\x04\x04\x04\x15\x0E\x04\x80" /* symbol Sipka dolu */
|
491 |
.................... #define LCD_CHAR_DOWN "\x80\x04\x04\x04\x15\x0E\x04\x80" /* symbol Sipka dolu */
|
492 |
.................... #define LCD_CHAR_LUA "\x04\x0E\x11\x11\x1F\x11\x11\x80" /* A s carkou */
|
492 |
.................... #define LCD_CHAR_LUA "\x04\x0E\x11\x11\x1F\x11\x11\x80" /* A s carkou */
|
493 |
.................... #define LCD_CHAR_LLA "\x01\x02\x0E\x01\x1F\x11\x0F\x80" /* a s carkou */
|
493 |
.................... #define LCD_CHAR_LLA "\x01\x02\x0E\x01\x1F\x11\x0F\x80" /* a s carkou */
|
494 |
.................... #define LCD_CHAR_HUC "\x0A\x0E\x11\x10\x10\x11\x0E\x80" /* C s hackem */
|
494 |
.................... #define LCD_CHAR_HUC "\x0A\x0E\x11\x10\x10\x11\x0E\x80" /* C s hackem */
|
495 |
.................... #define LCD_CHAR_HLC "\x0A\x04\x0E\x10\x10\x11\x0E\x80" /* c s hackem */
|
495 |
.................... #define LCD_CHAR_HLC "\x0A\x04\x0E\x10\x10\x11\x0E\x80" /* c s hackem */
|
496 |
.................... #define LCD_CHAR_HUD "\x0A\x1C\x12\x11\x11\x12\x1C\x80" /* D s hackem */
|
496 |
.................... #define LCD_CHAR_HUD "\x0A\x1C\x12\x11\x11\x12\x1C\x80" /* D s hackem */
|
497 |
.................... #define LCD_CHAR_HLD "\x05\x03\x0D\x13\x11\x11\x0F\x80" /* d s hackem */
|
497 |
.................... #define LCD_CHAR_HLD "\x05\x03\x0D\x13\x11\x11\x0F\x80" /* d s hackem */
|
498 |
.................... #define LCD_CHAR_LUE "\x04\x1F\x10\x10\x1E\x10\x1F\x80" /* E s carkou */
|
498 |
.................... #define LCD_CHAR_LUE "\x04\x1F\x10\x10\x1E\x10\x1F\x80" /* E s carkou */
|
499 |
.................... #define LCD_CHAR_LLE "\x01\x02\x0E\x11\x1F\x10\x0E\x80" /* e s carkou */
|
499 |
.................... #define LCD_CHAR_LLE "\x01\x02\x0E\x11\x1F\x10\x0E\x80" /* e s carkou */
|
500 |
.................... #define LCD_CHAR_HUE "\x0A\x1F\x10\x1E\x10\x10\x1F\x80" /* E s hackem */
|
500 |
.................... #define LCD_CHAR_HUE "\x0A\x1F\x10\x1E\x10\x10\x1F\x80" /* E s hackem */
|
501 |
.................... #define LCD_CHAR_HLE "\x0A\x04\x0E\x11\x1F\x10\x0E\x80" /* e s hackem */
|
501 |
.................... #define LCD_CHAR_HLE "\x0A\x04\x0E\x11\x1F\x10\x0E\x80" /* e s hackem */
|
502 |
.................... #define LCD_CHAR_LUI "\x04\x0E\x04\x04\x04\x04\x0E\x80" /* I s carkou */
|
502 |
.................... #define LCD_CHAR_LUI "\x04\x0E\x04\x04\x04\x04\x0E\x80" /* I s carkou */
|
503 |
.................... #define LCD_CHAR_LLI "\x02\x04\x80\x0C\x04\x04\x0E\x80" /* i s carkou */
|
503 |
.................... #define LCD_CHAR_LLI "\x02\x04\x80\x0C\x04\x04\x0E\x80" /* i s carkou */
|
504 |
.................... #define LCD_CHAR_HUN "\x0A\x15\x11\x19\x15\x13\x11\x80" /* N s hackem */
|
504 |
.................... #define LCD_CHAR_HUN "\x0A\x15\x11\x19\x15\x13\x11\x80" /* N s hackem */
|
505 |
.................... #define LCD_CHAR_HLN "\x0A\x04\x16\x19\x11\x11\x11\x80" /* n s hackem */
|
505 |
.................... #define LCD_CHAR_HLN "\x0A\x04\x16\x19\x11\x11\x11\x80" /* n s hackem */
|
506 |
.................... #define LCD_CHAR_LUO "\x04\x0E\x11\x11\x11\x11\x0E\x80" /* O s carkou */
|
506 |
.................... #define LCD_CHAR_LUO "\x04\x0E\x11\x11\x11\x11\x0E\x80" /* O s carkou */
|
507 |
.................... #define LCD_CHAR_LLO "\x02\x04\x0E\x11\x11\x11\x0E\x80" /* o s carkou */
|
507 |
.................... #define LCD_CHAR_LLO "\x02\x04\x0E\x11\x11\x11\x0E\x80" /* o s carkou */
|
508 |
.................... #define LCD_CHAR_HUR "\x0A\x1E\x11\x1E\x14\x12\x11\x80" /* R s hackem */
|
508 |
.................... #define LCD_CHAR_HUR "\x0A\x1E\x11\x1E\x14\x12\x11\x80" /* R s hackem */
|
509 |
.................... #define LCD_CHAR_HLR "\x0A\x04\x16\x19\x10\x10\x10\x80" /* r s hackem */
|
509 |
.................... #define LCD_CHAR_HLR "\x0A\x04\x16\x19\x10\x10\x10\x80" /* r s hackem */
|
510 |
.................... #define LCD_CHAR_HUS "\x0A\x0F\x10\x0E\x01\x01\x1E\x80" /* S s hackem */
|
510 |
.................... #define LCD_CHAR_HUS "\x0A\x0F\x10\x0E\x01\x01\x1E\x80" /* S s hackem */
|
511 |
.................... #define LCD_CHAR_HLS "\x0A\x04\x0E\x10\x0E\x01\x1E\x80" /* s s hackem */
|
511 |
.................... #define LCD_CHAR_HLS "\x0A\x04\x0E\x10\x0E\x01\x1E\x80" /* s s hackem */
|
512 |
.................... #define LCD_CHAR_HUT "\x0A\x1F\x04\x04\x04\x04\x04\x80" /* T s hackem */
|
512 |
.................... #define LCD_CHAR_HUT "\x0A\x1F\x04\x04\x04\x04\x04\x80" /* T s hackem */
|
513 |
.................... #define LCD_CHAR_HLT "\x0A\x0C\x1C\x08\x08\x09\x06\x80" /* t s hackem */
|
513 |
.................... #define LCD_CHAR_HLT "\x0A\x0C\x1C\x08\x08\x09\x06\x80" /* t s hackem */
|
514 |
.................... #define LCD_CHAR_LUU "\x02\x15\x11\x11\x11\x11\x0E\x80" /* U s carkou */
|
514 |
.................... #define LCD_CHAR_LUU "\x02\x15\x11\x11\x11\x11\x0E\x80" /* U s carkou */
|
515 |
.................... #define LCD_CHAR_LLU "\x02\x04\x11\x11\x11\x13\x0D\x80" /* u s carkou */
|
515 |
.................... #define LCD_CHAR_LLU "\x02\x04\x11\x11\x11\x13\x0D\x80" /* u s carkou */
|
516 |
.................... #define LCD_CHAR_CUU "\x06\x17\x11\x11\x11\x11\x0E\x80" /* U s krouzkem */
|
516 |
.................... #define LCD_CHAR_CUU "\x06\x17\x11\x11\x11\x11\x0E\x80" /* U s krouzkem */
|
517 |
.................... #define LCD_CHAR_CLU "\x06\x06\x11\x11\x11\x11\x0E\x80" /* u s krouzkem */
|
517 |
.................... #define LCD_CHAR_CLU "\x06\x06\x11\x11\x11\x11\x0E\x80" /* u s krouzkem */
|
518 |
.................... #define LCD_CHAR_LUY "\x02\x15\x11\x0A\x04\x04\x04\x80" /* Y s carkou */
|
518 |
.................... #define LCD_CHAR_LUY "\x02\x15\x11\x0A\x04\x04\x04\x80" /* Y s carkou */
|
519 |
.................... #define LCD_CHAR_LLY "\x02\x04\x11\x11\x0F\x01\x0E\x80" /* y s carkou */
|
519 |
.................... #define LCD_CHAR_LLY "\x02\x04\x11\x11\x0F\x01\x0E\x80" /* y s carkou */
|
520 |
.................... #define LCD_CHAR_HUZ "\x0A\x1F\x01\x02\x04\x08\x1F\x80" /* Z s hackem */
|
520 |
.................... #define LCD_CHAR_HUZ "\x0A\x1F\x01\x02\x04\x08\x1F\x80" /* Z s hackem */
|
521 |
.................... #define LCD_CHAR_HLZ "\x0A\x04\x1F\x02\x04\x08\x1F\x80" /* z s hackem */
|
521 |
.................... #define LCD_CHAR_HLZ "\x0A\x04\x1F\x02\x04\x08\x1F\x80" /* z s hackem */
|
522 |
....................
|
522 |
....................
|
523 |
....................
|
523 |
....................
|
524 |
.................... // Priklad pouziti definovanych znaku
|
524 |
.................... // Priklad pouziti definovanych znaku
|
525 |
.................... //
|
525 |
.................... //
|
526 |
.................... //
|
526 |
.................... //
|
527 |
.................... //void lcd_sample()
|
527 |
.................... //void lcd_sample()
|
528 |
.................... //{
|
528 |
.................... //{
|
529 |
.................... // lcd_define_char(0,LCD_CHAR_BAT50); // Priklad definice znaku baterie do pozice 0
|
529 |
.................... // lcd_define_char(0,LCD_CHAR_BAT50); // Priklad definice znaku baterie do pozice 0
|
530 |
.................... // lcd_define_char(2,LCD_CHAR_HLE LCD_CHAR_LUI); // Priklad definice znaku e s hackem a I s carkou od pozice 2
|
530 |
.................... // lcd_define_char(2,LCD_CHAR_HLE LCD_CHAR_LUI); // Priklad definice znaku e s hackem a I s carkou od pozice 2
|
531 |
.................... // // vsimnete si, ze neni carka mezi retezci s definici (oba retezce definuji
|
531 |
.................... // // vsimnete si, ze neni carka mezi retezci s definici (oba retezce definuji
|
532 |
.................... // // jediny definicni retezec)
|
532 |
.................... // // jediny definicni retezec)
|
533 |
.................... // printf(lcd_putc,"\fZnaky:\20\22\23"); // priklad vypisu znaku z pozice 0, 2 a 3
|
533 |
.................... // printf(lcd_putc,"\fZnaky:\20\22\23"); // priklad vypisu znaku z pozice 0, 2 a 3
|
534 |
.................... // delay_ms(1000);
|
534 |
.................... // delay_ms(1000);
|
535 |
.................... // lcd_define_char(0,LCD_CHAR_BAT0); // Predefinovani tvaru znaku v pozici 0
|
535 |
.................... // lcd_define_char(0,LCD_CHAR_BAT0); // Predefinovani tvaru znaku v pozici 0
|
536 |
.................... // delay_ms(1000);
|
536 |
.................... // delay_ms(1000);
|
537 |
.................... //}
|
537 |
.................... //}
|
538 |
....................
|
538 |
....................
|
539 |
....................
|
539 |
....................
|
540 |
.................... #define DATA PIN_A1
|
540 |
.................... #define DATA PIN_A1
|
541 |
.................... #define CP PIN_A0
|
541 |
.................... #define CP PIN_A0
|
542 |
.................... #define STROBE PIN_A2
|
542 |
.................... #define STROBE PIN_A2
|
543 |
....................
|
543 |
....................
|
544 |
.................... #include "C:\library\kaklik\ccs\shift_reg.c"
|
544 |
.................... #include "C:\library\kaklik\ccs\shift_reg.c"
|
545 |
.................... ////////////////////////////////////////////////////////////////////////////////
|
545 |
.................... ////////////////////////////////////////////////////////////////////////////////
|
546 |
.................... // KNIHOVNA PRO OVLADANI POSUVNEHO REGISTRU
|
546 |
.................... // KNIHOVNA PRO OVLADANI POSUVNEHO REGISTRU
|
547 |
.................... //
|
547 |
.................... //
|
548 |
.................... ////////////////////////////////////////////////////////////////////////////////
|
548 |
.................... ////////////////////////////////////////////////////////////////////////////////
|
549 |
.................... // definice:
|
549 |
.................... // definice:
|
550 |
.................... //#define DATA PIN_A1
|
550 |
.................... //#define DATA PIN_A1
|
551 |
.................... //#define CP PIN_A0
|
551 |
.................... //#define CP PIN_A0
|
552 |
.................... //#define STROBE PIN_A2
|
552 |
.................... //#define STROBE PIN_A2
|
553 |
....................
|
553 |
....................
|
554 |
.................... void putreg(unsigned int8 out) // zapise do registru 8bitovou promenou.
|
554 |
.................... void putreg(unsigned int8 out) // zapise do registru 8bitovou promenou.
|
555 |
.................... {
|
555 |
.................... {
|
556 |
.................... int8 i;
|
556 |
.................... int8 i;
|
557 |
.................... output_low(STROBE);
|
557 |
.................... output_low(STROBE);
|
558 |
....................
|
558 |
....................
|
559 |
.................... for(i=0;i<=7;i++)
|
559 |
.................... for(i=0;i<=7;i++)
|
560 |
.................... {
|
560 |
.................... {
|
561 |
.................... output_bit(DATA,bit_test(out,7-i));
|
561 |
.................... output_bit(DATA,bit_test(out,7-i));
|
562 |
.................... output_low(CP);
|
562 |
.................... output_low(CP);
|
563 |
.................... output_high(CP);
|
563 |
.................... output_high(CP);
|
564 |
.................... }
|
564 |
.................... }
|
565 |
.................... output_high(STROBE);
|
565 |
.................... output_high(STROBE);
|
566 |
.................... }
|
566 |
.................... }
|
567 |
....................
|
567 |
....................
|
568 |
.................... void reg_shift_left()
|
568 |
.................... void reg_shift_left()
|
569 |
.................... {
|
569 |
.................... {
|
570 |
.................... output_low(CP);
|
570 |
.................... output_low(CP);
|
571 |
.................... output_high(CP);
|
571 |
.................... output_high(CP);
|
572 |
....................
|
572 |
....................
|
573 |
.................... }
|
573 |
.................... }
|
574 |
....................
|
574 |
....................
|
575 |
.................... void reg_shift_right()
|
575 |
.................... void reg_shift_right()
|
576 |
.................... {
|
576 |
.................... {
|
577 |
.................... }
|
577 |
.................... }
|
578 |
....................
|
578 |
....................
|
579 |
....................
|
579 |
....................
|
580 |
.................... void main()
|
580 |
.................... void main()
|
581 |
.................... {
|
581 |
.................... {
|
582 |
*
|
582 |
*
|
583 |
0158: CLRF 04
|
583 |
0158: CLRF 04
|
584 |
0159: MOVLW 1F
|
584 |
0159: MOVLW 1F
|
585 |
015A: ANDWF 03,F
|
585 |
015A: ANDWF 03,F
|
586 |
015B: BSF 03.5
|
586 |
015B: BSF 03.5
|
587 |
015C: BSF 1F.0
|
587 |
015C: BSF 1F.0
|
588 |
015D: BSF 1F.1
|
588 |
015D: BSF 1F.1
|
589 |
015E: BSF 1F.2
|
589 |
015E: BSF 1F.2
|
590 |
015F: BCF 1F.3
|
590 |
015F: BCF 1F.3
|
591 |
.................... unsigned int16 otacky;
|
591 |
.................... unsigned int16 otacky;
|
592 |
....................
|
592 |
....................
|
593 |
.................... setup_adc_ports(NO_ANALOGS);
|
593 |
.................... setup_adc_ports(NO_ANALOGS);
|
594 |
*
|
594 |
*
|
595 |
0163: BSF 03.5
|
595 |
0163: BSF 03.5
|
596 |
0164: BSF 1F.0
|
596 |
0164: BSF 1F.0
|
597 |
0165: BSF 1F.1
|
597 |
0165: BSF 1F.1
|
598 |
0166: BSF 1F.2
|
598 |
0166: BSF 1F.2
|
599 |
0167: BCF 1F.3
|
599 |
0167: BCF 1F.3
|
600 |
.................... setup_adc(ADC_OFF);
|
600 |
.................... setup_adc(ADC_OFF);
|
601 |
0168: BCF 03.5
|
601 |
0168: BCF 03.5
|
602 |
0169: BCF 1F.0
|
602 |
0169: BCF 1F.0
|
603 |
.................... setup_spi(FALSE);
|
603 |
.................... setup_spi(FALSE);
|
604 |
*
|
604 |
*
|
605 |
0160: MOVLW FF
|
605 |
0160: MOVLW FF
|
606 |
0161: BCF 03.5
|
606 |
0161: BCF 03.5
|
607 |
0162: MOVWF 25
|
607 |
0162: MOVWF 25
|
608 |
*
|
608 |
*
|
609 |
016A: BCF 14.5
|
609 |
016A: BCF 14.5
|
610 |
016B: BCF 25.5
|
610 |
016B: BCF 25.5
|
611 |
016C: MOVF 25,W
|
611 |
016C: MOVF 25,W
|
612 |
016D: BSF 03.5
|
612 |
016D: BSF 03.5
|
613 |
016E: MOVWF 07
|
613 |
016E: MOVWF 07
|
614 |
016F: BCF 03.5
|
614 |
016F: BCF 03.5
|
615 |
0170: BSF 25.4
|
615 |
0170: BSF 25.4
|
616 |
0171: MOVF 25,W
|
616 |
0171: MOVF 25,W
|
617 |
0172: BSF 03.5
|
617 |
0172: BSF 03.5
|
618 |
0173: MOVWF 07
|
618 |
0173: MOVWF 07
|
619 |
0174: BCF 03.5
|
619 |
0174: BCF 03.5
|
620 |
0175: BCF 25.3
|
620 |
0175: BCF 25.3
|
621 |
0176: MOVF 25,W
|
621 |
0176: MOVF 25,W
|
622 |
0177: BSF 03.5
|
622 |
0177: BSF 03.5
|
623 |
0178: MOVWF 07
|
623 |
0178: MOVWF 07
|
624 |
0179: MOVLW 00
|
624 |
0179: MOVLW 00
|
625 |
017A: BCF 03.5
|
625 |
017A: BCF 03.5
|
626 |
017B: MOVWF 14
|
626 |
017B: MOVWF 14
|
627 |
017C: BSF 03.5
|
627 |
017C: BSF 03.5
|
628 |
017D: MOVWF 14
|
628 |
017D: MOVWF 14
|
629 |
.................... setup_timer_0(RTCC_EXT_H_TO_L|RTCC_DIV_1);
|
629 |
.................... setup_timer_0(RTCC_EXT_H_TO_L|RTCC_DIV_1);
|
630 |
017E: MOVF 01,W
|
630 |
017E: MOVF 01,W
|
631 |
017F: ANDLW C7
|
631 |
017F: ANDLW C7
|
632 |
0180: IORLW 38
|
632 |
0180: IORLW 38
|
633 |
0181: MOVWF 01
|
633 |
0181: MOVWF 01
|
634 |
.................... setup_timer_1(T1_EXTERNAL|T1_DIV_BY_2);
|
634 |
.................... setup_timer_1(T1_EXTERNAL|T1_DIV_BY_2);
|
635 |
0182: MOVLW 97
|
635 |
0182: MOVLW 97
|
636 |
0183: BCF 03.5
|
636 |
0183: BCF 03.5
|
637 |
0184: MOVWF 10
|
637 |
0184: MOVWF 10
|
638 |
.................... setup_timer_2(T2_DISABLED,0,1);
|
638 |
.................... setup_timer_2(T2_DISABLED,0,1);
|
639 |
0185: MOVLW 00
|
639 |
0185: MOVLW 00
|
640 |
0186: MOVWF 21
|
640 |
0186: MOVWF 21
|
641 |
0187: MOVWF 12
|
641 |
0187: MOVWF 12
|
642 |
0188: MOVLW 00
|
642 |
0188: MOVLW 00
|
643 |
0189: BSF 03.5
|
643 |
0189: BSF 03.5
|
644 |
018A: MOVWF 12
|
644 |
018A: MOVWF 12
|
645 |
.................... setup_ccp1(CCP_PWM);
|
645 |
.................... setup_ccp1(CCP_PWM);
|
646 |
018B: BCF 03.5
|
646 |
018B: BCF 03.5
|
647 |
018C: BCF 25.2
|
647 |
018C: BCF 25.2
|
648 |
018D: MOVF 25,W
|
648 |
018D: MOVF 25,W
|
649 |
018E: BSF 03.5
|
649 |
018E: BSF 03.5
|
650 |
018F: MOVWF 07
|
650 |
018F: MOVWF 07
|
651 |
0190: BCF 03.5
|
651 |
0190: BCF 03.5
|
652 |
0191: BCF 07.2
|
652 |
0191: BCF 07.2
|
653 |
0192: MOVLW 0C
|
653 |
0192: MOVLW 0C
|
654 |
0193: MOVWF 17
|
654 |
0193: MOVWF 17
|
655 |
.................... setup_ccp2(CCP_OFF);
|
655 |
.................... setup_ccp2(CCP_OFF);
|
656 |
0194: BSF 25.1
|
656 |
0194: BSF 25.1
|
657 |
0195: MOVF 25,W
|
657 |
0195: MOVF 25,W
|
658 |
0196: BSF 03.5
|
658 |
0196: BSF 03.5
|
659 |
0197: MOVWF 07
|
659 |
0197: MOVWF 07
|
660 |
0198: BCF 03.5
|
660 |
0198: BCF 03.5
|
661 |
0199: CLRF 1D
|
661 |
0199: CLRF 1D
|
662 |
019A: CLRF 1D
|
662 |
019A: CLRF 1D
|
663 |
....................
|
663 |
....................
|
664 |
.................... lcd_init();
|
664 |
.................... lcd_init();
|
665 |
019B: GOTO 064
|
665 |
019B: GOTO 064
|
666 |
....................
|
666 |
....................
|
667 |
.................... while (true)
|
667 |
.................... while (true)
|
668 |
.................... {
|
668 |
.................... {
|
669 |
.................... set_timer1(0);
|
669 |
.................... set_timer1(0);
|
670 |
019C: CLRF 0F
|
670 |
019C: CLRF 0F
|
671 |
019D: CLRF 0E
|
671 |
019D: CLRF 0E
|
672 |
....................
|
672 |
....................
|
673 |
.................... Delay_ms(500);
|
673 |
.................... Delay_ms(500);
|
674 |
019E: MOVLW 02
|
674 |
019E: MOVLW 02
|
675 |
019F: MOVWF 28
|
675 |
019F: MOVWF 28
|
676 |
01A0: MOVLW FA
|
676 |
01A0: MOVLW FA
|
677 |
01A1: MOVWF 32
|
677 |
01A1: MOVWF 32
|
678 |
01A2: CALL 024
|
678 |
01A2: CALL 024
|
679 |
01A3: DECFSZ 28,F
|
679 |
01A3: DECFSZ 28,F
|
680 |
01A4: GOTO 1A0
|
680 |
01A4: GOTO 1A0
|
681 |
.................... otacky=get_timer1();
|
681 |
.................... otacky=get_timer1();
|
682 |
01A5: MOVF 0F,W
|
682 |
01A5: MOVF 0F,W
|
683 |
01A6: MOVWF 23
|
683 |
01A6: MOVWF 23
|
684 |
01A7: MOVF 0E,W
|
684 |
01A7: MOVF 0E,W
|
685 |
01A8: MOVWF 20
|
685 |
01A8: MOVWF 20
|
686 |
01A9: MOVF 0F,W
|
686 |
01A9: MOVF 0F,W
|
687 |
01AA: SUBWF 23,W
|
687 |
01AA: SUBWF 23,W
|
688 |
01AB: BTFSS 03.2
|
688 |
01AB: BTFSS 03.2
|
689 |
01AC: GOTO 1A5
|
689 |
01AC: GOTO 1A5
|
690 |
01AD: MOVF 20,W
|
690 |
01AD: MOVF 20,W
|
691 |
01AE: MOVWF 26
|
691 |
01AE: MOVWF 26
|
692 |
01AF: MOVF 23,W
|
692 |
01AF: MOVF 23,W
|
693 |
01B0: MOVWF 27
|
693 |
01B0: MOVWF 27
|
694 |
.................... otacky=otacky*40;
|
694 |
.................... otacky=otacky*40;
|
695 |
01B1: MOVF 27,W
|
695 |
01B1: MOVF 27,W
|
696 |
01B2: MOVWF 29
|
696 |
01B2: MOVWF 29
|
697 |
01B3: MOVF 26,W
|
697 |
01B3: MOVF 26,W
|
698 |
01B4: MOVWF 28
|
698 |
01B4: MOVWF 28
|
699 |
01B5: CLRF 2B
|
699 |
01B5: CLRF 2B
|
700 |
01B6: MOVLW 28
|
700 |
01B6: MOVLW 28
|
701 |
01B7: MOVWF 2A
|
701 |
01B7: MOVWF 2A
|
702 |
01B8: GOTO 09E
|
702 |
01B8: GOTO 09E
|
703 |
01B9: MOVF 22,W
|
703 |
01B9: MOVF 22,W
|
704 |
01BA: MOVWF 27
|
704 |
01BA: MOVWF 27
|
705 |
01BB: MOVF 21,W
|
705 |
01BB: MOVF 21,W
|
706 |
01BC: MOVWF 26
|
706 |
01BC: MOVWF 26
|
707 |
....................
|
707 |
....................
|
708 |
.................... switch(otacky)
|
708 |
.................... switch(otacky)
|
709 |
.................... {
|
709 |
.................... {
|
710 |
01BD: MOVF 26,W
|
710 |
01BD: MOVF 26,W
|
711 |
01BE: MOVWF 20
|
711 |
01BE: MOVWF 20
|
712 |
01BF: MOVF 27,W
|
712 |
01BF: MOVF 27,W
|
713 |
01C0: MOVWF 23
|
713 |
01C0: MOVWF 23
|
714 |
01C1: GOTO 1C2
|
714 |
01C1: GOTO 1C2
|
715 |
....................
|
715 |
....................
|
716 |
.................... }
|
716 |
.................... }
|
717 |
....................
|
717 |
....................
|
718 |
.................... LCD_gotoxy(2,2);
|
718 |
.................... LCD_gotoxy(2,2);
|
719 |
01C2: MOVLW 02
|
719 |
01C2: MOVLW 02
|
720 |
01C3: MOVWF 32
|
720 |
01C3: MOVWF 32
|
721 |
01C4: MOVWF 33
|
721 |
01C4: MOVWF 33
|
722 |
01C5: CALL 0B4
|
722 |
01C5: CALL 0B4
|
723 |
.................... printf(lcd_putc,"otacky:%lu ot/min ",otacky);
|
723 |
.................... printf(lcd_putc,"otacky:%lu ot/min ",otacky);
|
724 |
01C6: CLRF 28
|
724 |
01C6: CLRF 28
|
725 |
01C7: MOVF 28,W
|
725 |
01C7: MOVF 28,W
|
726 |
01C8: CALL 00C
|
726 |
01C8: CALL 00C
|
727 |
01C9: INCF 28,F
|
727 |
01C9: INCF 28,F
|
728 |
01CA: MOVWF 20
|
728 |
01CA: MOVWF 20
|
729 |
01CB: MOVWF 31
|
729 |
01CB: MOVWF 31
|
730 |
01CC: CALL 0C5
|
730 |
01CC: CALL 0C5
|
731 |
01CD: MOVLW 07
|
731 |
01CD: MOVLW 07
|
732 |
01CE: SUBWF 28,W
|
732 |
01CE: SUBWF 28,W
|
733 |
01CF: BTFSS 03.2
|
733 |
01CF: BTFSS 03.2
|
734 |
01D0: GOTO 1C7
|
734 |
01D0: GOTO 1C7
|
735 |
01D1: MOVLW 10
|
735 |
01D1: MOVLW 10
|
736 |
01D2: MOVWF 04
|
736 |
01D2: MOVWF 04
|
737 |
01D3: MOVF 27,W
|
737 |
01D3: MOVF 27,W
|
738 |
01D4: MOVWF 2A
|
738 |
01D4: MOVWF 2A
|
739 |
01D5: MOVF 26,W
|
739 |
01D5: MOVF 26,W
|
740 |
01D6: MOVWF 29
|
740 |
01D6: MOVWF 29
|
741 |
01D7: GOTO 0F8
|
741 |
01D7: GOTO 0F8
|
742 |
01D8: MOVLW 0A
|
742 |
01D8: MOVLW 0A
|
743 |
01D9: MOVWF 29
|
743 |
01D9: MOVWF 29
|
744 |
01DA: MOVF 29,W
|
744 |
01DA: MOVF 29,W
|
745 |
01DB: CALL 00C
|
745 |
01DB: CALL 00C
|
746 |
01DC: INCF 29,F
|
746 |
01DC: INCF 29,F
|
747 |
01DD: MOVWF 20
|
747 |
01DD: MOVWF 20
|
748 |
01DE: MOVWF 31
|
748 |
01DE: MOVWF 31
|
749 |
01DF: CALL 0C5
|
749 |
01DF: CALL 0C5
|
750 |
01E0: MOVLW 13
|
750 |
01E0: MOVLW 13
|
751 |
01E1: SUBWF 29,W
|
751 |
01E1: SUBWF 29,W
|
752 |
01E2: BTFSS 03.2
|
752 |
01E2: BTFSS 03.2
|
753 |
01E3: GOTO 1DA
|
753 |
01E3: GOTO 1DA
|
754 |
.................... }
|
754 |
.................... }
|
755 |
01E4: GOTO 19C
|
755 |
01E4: GOTO 19C
|
756 |
....................
|
756 |
....................
|
757 |
.................... }
|
757 |
.................... }
|
758 |
....................
|
758 |
....................
|
759 |
01E5: SLEEP
|
759 |
01E5: SLEEP
|
760 |
|
760 |
|
761 |
Configuration Fuses:
|
761 |
Configuration Fuses:
|
762 |
Word 1: 3F79 XT NOWDT NOPUT NOPROTECT BROWNOUT NOLVP NOCPD NOWRT NODEBUG
|
762 |
Word 1: 3F79 XT NOWDT NOPUT NOPROTECT BROWNOUT NOLVP NOCPD NOWRT NODEBUG
|