MLABlibrarysvnkaklikMLAB_E8magsvn

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/programy/PIC_C/mereni/gmetr/gmetr.BAK
0,0 → 1,49
#include "D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.h"
#define LCD_RS PIN_B1 // rizeni registru LCD displeje
#define LCD_E PIN_B0 // enable LCD displeje
#define LCD_DATA_LSB PIN_C4 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou)
#include "C:\library\CCS\lcd.c"
void main()
{
signed int16 stred;
signed int16 hodnota;
setup_adc_ports(ALL_ANALOG);
setup_adc(ADC_CLOCK_DIV_2);
setup_spi(FALSE);
setup_timer_0(RTCC_INTERNAL|RTCC_DIV_1);
setup_timer_1(T1_DISABLED);
setup_timer_2(T2_DISABLED,0,1);
lcd_init();
Delay_ms(100);
set_adc_channel(1);
Delay_ms(500);
stred = read_adc();
while(true)
{
hodnota = stred - read_adc();
Delay_ms(100);
LCD_gotoxy(1,1);
printf(lcd_putc," ");
if (hodnota<0)
{
LCD_gotoxy(5,2);
printf(lcd_putc," %03ld ",hodnota);
LCD_gotoxy(8-hodnota,1);
printf(lcd_putc,"* ",hodnota);
}
else
{
LCD_gotoxy(6,2);
printf(lcd_putc," %03ld ",hodnota);
LCD_gotoxy(8-hodnota,1);
printf(lcd_putc," *",hodnota);
}
}
}

/programy/PIC_C/mereni/gmetr/gmetr.HEX
0,0 → 1,66
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;PIC16F873

/programy/PIC_C/mereni/gmetr/gmetr.LST
0,0 → 1,774
CCS PCM C Compiler, Version 3.221, 27853 18-VI-05 19:21
Filename: D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.LST
ROM used: 497 words (12%)
Largest free fragment is 2048
RAM used: 12 (6%) at main() level
28 (15%) worst case
Stack: 5 locations
*
0000: MOVLW 00
0001: MOVWF 0A
0002: GOTO 134
0003: NOP
.................... #include "D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.h"
.................... #include <16F873.h>
.................... //////// Standard Header file for the PIC16F873 device ////////////////
.................... #device PIC16F873
.................... #list
....................
.................... #device adc=10
.................... #fuses NOWDT,XT, NOPUT, NOPROTECT, NOBROWNOUT, NOLVP, NOCPD, NOWRT, NODEBUG
.................... #use delay(clock=4000000)
*
000C: MOVLW 33
000D: MOVWF 04
000E: MOVF 00,W
000F: BTFSC 03.2
0010: GOTO 020
0011: MOVLW 01
0012: MOVWF 21
0013: CLRF 20
0014: DECFSZ 20,F
0015: GOTO 014
0016: DECFSZ 21,F
0017: GOTO 013
0018: MOVLW 4A
0019: MOVWF 20
001A: DECFSZ 20,F
001B: GOTO 01A
001C: NOP
001D: NOP
001E: DECFSZ 00,F
001F: GOTO 011
0020: RETLW 00
....................
....................
....................
.................... #define LCD_RS PIN_B1 // rizeni registru LCD displeje
.................... #define LCD_E PIN_B0 // enable LCD displeje
.................... #define LCD_DATA_LSB PIN_C4 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou)
....................
.................... #include "C:\library\CCS\lcd.c"
.................... // LCD modul pro ovladani dvouradkoveho LCD modulu se standardnim Hitachi radicem
.................... // (c)miho 2002,2005
.................... //
.................... // Historie:
.................... //
.................... // 0.00 Uvodni verze se snadnou definici portu LCD displeje
.................... // 0.01 Oprava portu (zapomenute stare identifikatory)
.................... // 0.02 Doplnena moznost pripojeni datoveho portu LCD na libovolne porty
.................... // 0.03 Doplnena procedura lcd_clr pro smazani displeje
.................... //
.................... //
.................... // Funkce:
.................... //
.................... // lcd_init() inicializuje LCD displej a porty, nutno volat jako prvni
.................... //
.................... // lcd_putc(c) zapis snaku do lcd displeje, zpracovava nasledujici ridici znaky
.................... // \f = \x0C - nova stranka - smazani displeje
.................... // \n = \x0A - odradkovani (prechod na druhou radku)
.................... // \b = \x08 - backspace - posunuti kurzoru o 1 pozici zpet
.................... // \r = \x0D - goto home to position 1,1
.................... // \0 .. \7 - definovatelne znaky v pozicich 0 az 7 v CGRAM
.................... // \20 .. \27 - alternativne zapsane znaky (oktalove) v pozicich 0 az 7 CGRAM
.................... // Pozor na to, ze funkce printf konci tisk pokud narazi na \0 (konec retezce)
.................... //
.................... // lcd_gotoxy(x,y) presune kurzor na uvedenou adresu
.................... // nekontroluje parametry
.................... //
.................... // lcd_cursor_on zapne kurzor
.................... // lcd_cursor_off vypne kurzor
.................... //
.................... // lcd_clr smaze displej
.................... //
.................... // lcd_define_char(Index, Def) Makro, ktere definuje znaky od pozice Index obsahem definicniho
.................... // retezce Def. Kazdych 8 znaku retezce Def definuje dalsi znak v CGRAM.
.................... // Kapacita CGRAM je celkem 8 znaku s indexem 0 az 7.
.................... // Na konci se provede lcd_gotoxy(1,1).
.................... // Na konci teto knihovny je priklad pouziti definovanych znaku
.................... //
.................... //
.................... // Definice portu: // Datovy port displeje pripojeny na 4 bity za sebou na jeden port
.................... //
.................... // #define LCD_RS PIN_B2 // rizeni registru LCD displeje
.................... // #define LCD_E PIN_B1 // enable LCD displeje
.................... // #define LCD_DATA_LSB PIN_C2 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou)
.................... //
.................... //
.................... // Alternativni definice: // Datovy port displeje pripojeny na libovolne 4 bitove porty (vede na kod delsi asi o 25 slov)
.................... //
.................... // #define LCD_RS PIN_B2 // rizeni registru LCD displeje
.................... // #define LCD_E PIN_B1 // enable LCD displeje
.................... // #define LCD_D0 PIN_C2 // D0 - datove bity pripojene na libovolne porty
.................... // #define LCD_D1 PIN_C3 // D1
.................... // #define LCD_D2 PIN_C4 // D2
.................... // #define LCD_D3 PIN_C5 // D3
....................
....................
....................
....................
.................... // Privatni sekce, cist jen v pripade, ze neco nefunguje
....................
....................
....................
....................
.................... #ifdef LCD_DATA_LSB
.................... // Generovane defince portu pro ucely teto knihovny aby kod generoval spravne IO operace a soucasne
.................... // bylo mozne jednoduse deklarovat pripojene piny LCD displeje pri pouziti teto knihovny. Problem spociva
.................... // v tom, ze se musi spravne ridit smery portu a soucasne datovy port zabira jen 4 bity ze zadaneho portu
.................... //
.................... #define LCD_SHIFT (LCD_DATA_LSB&7) // pocet bitu posuvu datoveho kanalu v datovem portu
.................... #define LCD_PORT (LCD_DATA_LSB>>3) // adresa LCD datoveho portu
.................... #define LCD_TRIS (LCD_PORT+0x80) // adresa prislusneho TRIS registru
.................... #define LCD_MASK (0xF<<LCD_SHIFT) // maska platnych bitu
.................... //
.................... #if LCD_SHIFT>4 // kontrola mezi
.................... #error LCD data port LSB bit not in range 0..4
.................... #endif
.................... #endif
....................
....................
.................... // Definice konstant pro LCD display
.................... //
.................... #define LCD_CURSOR_ON_ 0x0E // kurzor jako blikajici radka pod znakem
.................... #define LCD_CURSOR_OFF_ 0x0C // zadny kurzor
.................... #define LCD_LINE_2 0x40 // adresa 1. znaku 2. radky
....................
....................
.................... // Definice rezimu LCD displeje
.................... //
.................... BYTE const LCD_INIT_STRING[4] =
.................... {
.................... 0x28, // intrfejs 4 bity, 2 radky, font 5x7
.................... LCD_CURSOR_OFF_, // display on, kurzor off,
.................... 0x01, // clear displeje
.................... 0x06 // inkrement pozice kurzoru (posun kurzoru doprava)
.................... };
....................
....................
.................... // Odesle nibble do displeje (posle data a klikne signalem e)
.................... //
.................... void lcd_send_nibble( BYTE n )
.................... {
.................... #ifdef LCD_DATA_LSB
.................... // data jsou za sebou na 4 bitech jednoho portu
.................... *LCD_PORT = (*LCD_PORT & ~LCD_MASK) | ((n << LCD_SHIFT) & LCD_MASK); // nastav datove bity portu a ostatni zachovej
0021: MOVF 07,W
0022: ANDLW 0F
0023: MOVWF 3A
0024: SWAPF 39,W
0025: MOVWF 20
0026: MOVLW F0
0027: ANDWF 20,F
0028: MOVF 20,W
0029: ANDLW F0
002A: IORWF 3A,W
002B: MOVWF 07
.................... #else
.................... // data jsou na libovolnych 4 bitech libovolnych portu
.................... output_bit(LCD_D0,bit_test(n,0));
.................... output_bit(LCD_D1,bit_test(n,1));
.................... output_bit(LCD_D2,bit_test(n,2));
.................... output_bit(LCD_D3,bit_test(n,3));
.................... #endif
.................... output_bit(LCD_E,1); // vzestupna hrana
002C: BSF 06.0
002D: BSF 03.5
002E: BCF 06.0
.................... delay_us(1); // pockej alespon 450ns od e nebo alespon 195ns od dat
002F: NOP
.................... output_bit(LCD_E,0); // sestupna hrana (minimalni perioda e je 1us)
0030: BCF 03.5
0031: BCF 06.0
0032: BSF 03.5
0033: BCF 06.0
.................... }
0034: BCF 03.5
0035: RETLW 00
....................
....................
.................... // Odesle bajt do registru LCD
.................... //
.................... // Pokud je Adr=0 .. instrukcni registr
.................... // Pokud je Adr=1 .. datovy registr
.................... //
.................... void lcd_send_byte( BOOLEAN Adr, BYTE n )
.................... {
.................... output_bit(LCD_RS,Adr); // vyber registr
0036: MOVF 37,F
0037: BTFSS 03.2
0038: GOTO 03B
0039: BCF 06.1
003A: GOTO 03C
003B: BSF 06.1
003C: BSF 03.5
003D: BCF 06.1
.................... swap(n);
003E: BCF 03.5
003F: SWAPF 38,F
.................... lcd_send_nibble(n); // posli horni pulku bajtu
0040: MOVF 38,W
0041: MOVWF 39
0042: CALL 021
.................... swap(n);
0043: SWAPF 38,F
.................... lcd_send_nibble(n); // posli spodni pulku bajtu
0044: MOVF 38,W
0045: MOVWF 39
0046: CALL 021
.................... delay_us(40); // minimalni doba na provedeni prikazu
0047: MOVLW 0D
0048: MOVWF 20
0049: DECFSZ 20,F
004A: GOTO 049
.................... }
004B: RETLW 00
....................
....................
.................... // Provede inicializaci LCD displeje, smaze obsah a nastavi mod displeje
.................... //
.................... // Tato procedura se musi volat pred pouzitim ostatnich lcd_ procedur
.................... //
.................... void lcd_init()
.................... {
....................
.................... int i; // pocitadlo cyklu
....................
.................... delay_ms(20); // spozdeni pro provedeni startu displeje po zapnuti napajeni
004C: MOVLW 14
004D: MOVWF 33
004E: CALL 00C
....................
.................... #ifdef LCD_DATA_LSB
.................... // data jsou na 4 bitech za sebou, nastav smer pro vsechny dalsi prenosy
.................... *LCD_TRIS = *LCD_TRIS & ~LCD_MASK; // nuluj odpovidajici bity tris registru datoveho portu LCD
004F: MOVLW 0F
0050: BSF 03.5
0051: ANDWF 07,F
.................... #endif
....................
.................... output_bit(LCD_RS,0); // nastav jako vystup a nastav klidovy stav
0052: BCF 03.5
0053: BCF 06.1
0054: BSF 03.5
0055: BCF 06.1
.................... output_bit(LCD_E, 0); // nastav jako vystup a nastav klidovy stav
0056: BCF 03.5
0057: BCF 06.0
0058: BSF 03.5
0059: BCF 06.0
....................
.................... for (i=0; i<3; i++) // nastav lcd do rezimu 8 bitu sbernice
005A: BCF 03.5
005B: CLRF 2A
005C: MOVF 2A,W
005D: SUBLW 02
005E: BTFSS 03.0
005F: GOTO 068
.................... {
.................... delay_ms(2); // muze byt rozdelany prenos dat (2x 4 bity) nebo pomaly povel
0060: MOVLW 02
0061: MOVWF 33
0062: CALL 00C
.................... lcd_send_nibble(3); // rezim 8 bitu
0063: MOVLW 03
0064: MOVWF 39
0065: CALL 021
.................... }
0066: INCF 2A,F
0067: GOTO 05C
....................
.................... delay_us(40); // cas na zpracovani
0068: MOVLW 0D
0069: MOVWF 20
006A: DECFSZ 20,F
006B: GOTO 06A
.................... lcd_send_nibble(2); // nastav rezim 4 bitu (plati od nasledujiciho prenosu)
006C: MOVLW 02
006D: MOVWF 39
006E: CALL 021
.................... delay_us(40); // cas na zpracovani
006F: MOVLW 0D
0070: MOVWF 20
0071: DECFSZ 20,F
0072: GOTO 071
....................
.................... for (i=0;i<3;i++) // proved inicializaci (nastaveni modu, smazani apod)
0073: CLRF 2A
0074: MOVF 2A,W
0075: SUBLW 02
0076: BTFSS 03.0
0077: GOTO 084
.................... {
.................... lcd_send_byte(0,LCD_INIT_STRING[i]);
0078: MOVF 2A,W
0079: CALL 004
007A: MOVWF 2B
007B: CLRF 37
007C: MOVF 2B,W
007D: MOVWF 38
007E: CALL 036
.................... delay_ms(2);
007F: MOVLW 02
0080: MOVWF 33
0081: CALL 00C
.................... }
0082: INCF 2A,F
0083: GOTO 074
.................... }
0084: BCF 0A.3
0085: GOTO 16D (RETURN)
....................
....................
.................... // Proved presun kurzoru
.................... //
.................... // Pozice 1.1 je domu
.................... //
.................... void lcd_gotoxy( BYTE x, BYTE y)
.................... {
....................
.................... BYTE Adr;
....................
.................... Adr=x-1;
0086: MOVLW 01
0087: SUBWF 33,W
0088: MOVWF 35
.................... if(y==2)
0089: MOVF 34,W
008A: SUBLW 02
008B: BTFSS 03.2
008C: GOTO 08F
.................... Adr+=LCD_LINE_2;
008D: MOVLW 40
008E: ADDWF 35,F
....................
.................... lcd_send_byte(0,0x80|Adr);
008F: MOVF 35,W
0090: IORLW 80
0091: MOVWF 36
0092: CLRF 37
0093: MOVF 36,W
0094: MOVWF 38
0095: CALL 036
.................... }
0096: RETLW 00
....................
....................
.................... // Zapis znaku na displej, zpracovani ridicich znaku
.................... //
.................... void lcd_putc( char c)
.................... {
....................
.................... switch (c)
.................... {
0097: MOVF 32,W
0098: XORLW 0C
0099: BTFSC 03.2
009A: GOTO 0A5
009B: XORLW 06
009C: BTFSC 03.2
009D: GOTO 0AD
009E: XORLW 07
009F: BTFSC 03.2
00A0: GOTO 0B3
00A1: XORLW 05
00A2: BTFSC 03.2
00A3: GOTO 0B8
00A4: GOTO 0BD
.................... case '\f' : lcd_send_byte(0,1); // smaz displej
00A5: CLRF 37
00A6: MOVLW 01
00A7: MOVWF 38
00A8: CALL 036
.................... delay_ms(2);
00A9: MOVLW 02
00AA: MOVWF 33
00AB: CALL 00C
.................... break;
00AC: GOTO 0C9
.................... case '\n' : lcd_gotoxy(1,2); break; // presun se na 1. znak 2. radky
00AD: MOVLW 01
00AE: MOVWF 33
00AF: MOVLW 02
00B0: MOVWF 34
00B1: CALL 086
00B2: GOTO 0C9
.................... case '\r' : lcd_gotoxy(1,1); break; // presun home
00B3: MOVLW 01
00B4: MOVWF 33
00B5: MOVWF 34
00B6: CALL 086
00B7: GOTO 0C9
.................... case '\b' : lcd_send_byte(0,0x10); break; // posun kurzor o 1 zpet
00B8: CLRF 37
00B9: MOVLW 10
00BA: MOVWF 38
00BB: CALL 036
00BC: GOTO 0C9
.................... default : if (c<0x20) c&=0x7; // preklopeni definovatelnych znaku na rozsah 0 az 0x1F
00BD: MOVF 32,W
00BE: SUBLW 1F
00BF: BTFSS 03.0
00C0: GOTO 0C3
00C1: MOVLW 07
00C2: ANDWF 32,F
.................... lcd_send_byte(1,c); break; // zapis znak
00C3: MOVLW 01
00C4: MOVWF 37
00C5: MOVF 32,W
00C6: MOVWF 38
00C7: CALL 036
00C8: GOTO 0C9
.................... }
.................... }
00C9: RETLW 00
....................
....................
.................... // Zapni kurzor
.................... //
.................... void lcd_cursor_on()
.................... {
.................... lcd_send_byte(0,LCD_CURSOR_ON_);
.................... }
....................
....................
.................... // Vypni kurzor
.................... //
.................... void lcd_cursor_off()
.................... {
.................... lcd_send_byte(0,LCD_CURSOR_OFF_);
.................... }
....................
....................
.................... // Smaz displej
.................... //
.................... void lcd_clr()
.................... {
.................... lcd_putc('\f');
.................... }
....................
....................
.................... // Definice vlastnich fontu
.................... //
.................... // Vlastnich definic muze byt jen 8 do pozic 0 az 7 pameti CGRAM radice lcd displeje
.................... // Pro snadne definovani jsou pripraveny nasledujici definice a na konci souboru je uveden
.................... // priklad pouziti definovanych znaku.
....................
....................
.................... // Pomocna procedura pro posilani ridicich dat do radice displeje
.................... //
.................... void lcd_putc2(int Data)
.................... {
.................... lcd_send_byte(1,Data);
.................... }
....................
....................
.................... // Pomocne definice pro programovani obsahu CGRAM
.................... //
.................... #define lcd_define_start(Code) lcd_send_byte(0,0x40+(Code<<3)); delay_ms(2)
.................... #define lcd_define_def(String) printf(lcd_putc2,String);
.................... #define lcd_define_end() lcd_send_byte(0,3); delay_ms(2)
....................
....................
.................... // Vlastni vykonne makro pro definovani fontu do pozice Index CGRAM s definicnim retezcem Def
.................... //
.................... #define lcd_define_char(Index, Def) lcd_define_start(Index); lcd_define_def(Def); lcd_define_end();
....................
....................
.................... // Pripravene definice fontu vybranych znaku
.................... // V tabulce nesmi byt 00 (konec retezce v printf()), misto toho davame 80
.................... //
.................... #define LCD_CHAR_BAT100 "\x0E\x1F\x1F\x1F\x1F\x1F\x1F\x1F" /* symbol plne baterie */
.................... #define LCD_CHAR_BAT50 "\x0E\x1F\x11\x11\x13\x17\x1F\x1F" /* symbol polovicni baterie */
.................... #define LCD_CHAR_BAT0 "\x0E\x1F\x11\x11\x11\x11\x11\x1F" /* symbol vybite baterie */
.................... #define LCD_CHAR_UP "\x80\x04\x0E\x15\x04\x04\x04\x80" /* symbol sipka nahoru */
.................... #define LCD_CHAR_DOWN "\x80\x04\x04\x04\x15\x0E\x04\x80" /* symbol Sipka dolu */
.................... #define LCD_CHAR_LUA "\x04\x0E\x11\x11\x1F\x11\x11\x80" /* A s carkou */
.................... #define LCD_CHAR_LLA "\x01\x02\x0E\x01\x1F\x11\x0F\x80" /* a s carkou */
.................... #define LCD_CHAR_HUC "\x0A\x0E\x11\x10\x10\x11\x0E\x80" /* C s hackem */
.................... #define LCD_CHAR_HLC "\x0A\x04\x0E\x10\x10\x11\x0E\x80" /* c s hackem */
.................... #define LCD_CHAR_HUD "\x0A\x1C\x12\x11\x11\x12\x1C\x80" /* D s hackem */
.................... #define LCD_CHAR_HLD "\x05\x03\x0D\x13\x11\x11\x0F\x80" /* d s hackem */
.................... #define LCD_CHAR_LUE "\x04\x1F\x10\x10\x1E\x10\x1F\x80" /* E s carkou */
.................... #define LCD_CHAR_LLE "\x01\x02\x0E\x11\x1F\x10\x0E\x80" /* e s carkou */
.................... #define LCD_CHAR_HUE "\x0A\x1F\x10\x1E\x10\x10\x1F\x80" /* E s hackem */
.................... #define LCD_CHAR_HLE "\x0A\x04\x0E\x11\x1F\x10\x0E\x80" /* e s hackem */
.................... #define LCD_CHAR_LUI "\x04\x0E\x04\x04\x04\x04\x0E\x80" /* I s carkou */
.................... #define LCD_CHAR_LLI "\x02\x04\x80\x0C\x04\x04\x0E\x80" /* i s carkou */
.................... #define LCD_CHAR_HUN "\x0A\x15\x11\x19\x15\x13\x11\x80" /* N s hackem */
.................... #define LCD_CHAR_HLN "\x0A\x04\x16\x19\x11\x11\x11\x80" /* n s hackem */
.................... #define LCD_CHAR_LUO "\x04\x0E\x11\x11\x11\x11\x0E\x80" /* O s carkou */
.................... #define LCD_CHAR_LLO "\x02\x04\x0E\x11\x11\x11\x0E\x80" /* o s carkou */
.................... #define LCD_CHAR_HUR "\x0A\x1E\x11\x1E\x14\x12\x11\x80" /* R s hackem */
.................... #define LCD_CHAR_HLR "\x0A\x04\x16\x19\x10\x10\x10\x80" /* r s hackem */
.................... #define LCD_CHAR_HUS "\x0A\x0F\x10\x0E\x01\x01\x1E\x80" /* S s hackem */
.................... #define LCD_CHAR_HLS "\x0A\x04\x0E\x10\x0E\x01\x1E\x80" /* s s hackem */
.................... #define LCD_CHAR_HUT "\x0A\x1F\x04\x04\x04\x04\x04\x80" /* T s hackem */
.................... #define LCD_CHAR_HLT "\x0A\x0C\x1C\x08\x08\x09\x06\x80" /* t s hackem */
.................... #define LCD_CHAR_LUU "\x02\x15\x11\x11\x11\x11\x0E\x80" /* U s carkou */
.................... #define LCD_CHAR_LLU "\x02\x04\x11\x11\x11\x13\x0D\x80" /* u s carkou */
.................... #define LCD_CHAR_CUU "\x06\x17\x11\x11\x11\x11\x0E\x80" /* U s krouzkem */
.................... #define LCD_CHAR_CLU "\x06\x06\x11\x11\x11\x11\x0E\x80" /* u s krouzkem */
.................... #define LCD_CHAR_LUY "\x02\x15\x11\x0A\x04\x04\x04\x80" /* Y s carkou */
.................... #define LCD_CHAR_LLY "\x02\x04\x11\x11\x0F\x01\x0E\x80" /* y s carkou */
.................... #define LCD_CHAR_HUZ "\x0A\x1F\x01\x02\x04\x08\x1F\x80" /* Z s hackem */
.................... #define LCD_CHAR_HLZ "\x0A\x04\x1F\x02\x04\x08\x1F\x80" /* z s hackem */
....................
....................
.................... // Priklad pouziti definovanych znaku
.................... //
.................... //
.................... //void lcd_sample()
.................... //{
.................... // lcd_define_char(0,LCD_CHAR_BAT50); // Priklad definice znaku baterie do pozice 0
.................... // lcd_define_char(2,LCD_CHAR_HLE LCD_CHAR_LUI); // Priklad definice znaku e s hackem a I s carkou od pozice 2
.................... // // vsimnete si, ze neni carka mezi retezci s definici (oba retezce definuji
.................... // // jediny definicni retezec)
.................... // printf(lcd_putc,"\fZnaky:\20\22\23"); // priklad vypisu znaku z pozice 0, 2 a 3
.................... // delay_ms(1000);
.................... // lcd_define_char(0,LCD_CHAR_BAT0); // Predefinovani tvaru znaku v pozici 0
.................... // delay_ms(1000);
.................... //}
....................
....................
....................
.................... void main()
.................... {
*
0134: CLRF 04
0135: MOVLW 1F
0136: ANDWF 03,F
0137: BSF 03.5
0138: BSF 1F.0
0139: BSF 1F.1
013A: BSF 1F.2
013B: BCF 1F.3
.................... signed int16 stred;
.................... signed int16 hodnota;
....................
.................... setup_adc_ports(ALL_ANALOG);
*
013F: BSF 03.5
0140: BCF 1F.0
0141: BCF 1F.1
0142: BCF 1F.2
0143: BCF 1F.3
.................... setup_adc(ADC_CLOCK_DIV_2);
0144: BCF 03.5
0145: BCF 1F.6
0146: BCF 1F.7
0147: BSF 03.5
0148: BSF 1F.7
0149: BCF 03.5
014A: BSF 1F.0
.................... setup_spi(FALSE);
*
013C: MOVLW FF
013D: BCF 03.5
013E: MOVWF 25
*
014B: BCF 14.5
014C: BCF 25.5
014D: MOVF 25,W
014E: BSF 03.5
014F: MOVWF 07
0150: BCF 03.5
0151: BSF 25.4
0152: MOVF 25,W
0153: BSF 03.5
0154: MOVWF 07
0155: BCF 03.5
0156: BCF 25.3
0157: MOVF 25,W
0158: BSF 03.5
0159: MOVWF 07
015A: MOVLW 00
015B: BCF 03.5
015C: MOVWF 14
015D: BSF 03.5
015E: MOVWF 14
.................... setup_timer_0(RTCC_INTERNAL|RTCC_DIV_1);
015F: MOVF 01,W
0160: ANDLW C7
0161: IORLW 08
0162: MOVWF 01
.................... setup_timer_1(T1_DISABLED);
0163: BCF 03.5
0164: CLRF 10
.................... setup_timer_2(T2_DISABLED,0,1);
0165: MOVLW 00
0166: MOVWF 21
0167: MOVWF 12
0168: MOVLW 00
0169: BSF 03.5
016A: MOVWF 12
....................
.................... lcd_init();
016B: BCF 03.5
016C: GOTO 04C
.................... Delay_ms(100);
016D: MOVLW 64
016E: MOVWF 33
016F: CALL 00C
.................... set_adc_channel(1);
0170: MOVLW 08
0171: MOVWF 21
0172: MOVF 1F,W
0173: ANDLW C7
0174: IORWF 21,W
0175: MOVWF 1F
.................... Delay_ms(500);
0176: MOVLW 02
0177: MOVWF 2A
0178: MOVLW FA
0179: MOVWF 33
017A: CALL 00C
017B: DECFSZ 2A,F
017C: GOTO 178
.................... stred = read_adc();
017D: BSF 1F.2
017E: BTFSC 1F.2
017F: GOTO 17E
0180: BSF 03.5
0181: MOVF 1E,W
0182: BCF 03.5
0183: MOVWF 26
0184: MOVF 1E,W
0185: MOVWF 27
....................
.................... while(true)
.................... {
.................... hodnota = stred - read_adc();
0186: BSF 1F.2
0187: BTFSC 1F.2
0188: GOTO 187
0189: BSF 03.5
018A: MOVF 1E,W
018B: BCF 03.5
018C: SUBWF 26,W
018D: MOVWF 28
018E: MOVF 27,W
018F: MOVWF 29
0190: MOVF 1E,W
0191: BTFSS 03.0
0192: INCFSZ 1E,W
0193: SUBWF 29,F
.................... Delay_ms(100);
0194: MOVLW 64
0195: MOVWF 33
0196: CALL 00C
.................... LCD_gotoxy(1,1);
0197: MOVLW 01
0198: MOVWF 33
0199: MOVWF 34
019A: CALL 086
.................... printf(lcd_putc," ");
019B: MOVLW 10
019C: MOVWF 2A
019D: MOVLW 20
019E: MOVWF 32
019F: CALL 097
01A0: DECFSZ 2A,F
01A1: GOTO 19D
.................... if (hodnota<0)
01A2: BTFSS 29.7
01A3: GOTO 1CA
.................... {
.................... LCD_gotoxy(5,2);
01A4: MOVLW 05
01A5: MOVWF 33
01A6: MOVLW 02
01A7: MOVWF 34
01A8: CALL 086
.................... printf(lcd_putc," %03ld ",hodnota);
01A9: MOVLW 20
01AA: MOVWF 32
01AB: CALL 097
01AC: MOVLW 0A
01AD: MOVWF 04
01AE: MOVF 29,W
01AF: MOVWF 2B
01B0: MOVF 28,W
01B1: MOVWF 2A
01B2: CALL 0CA
01B3: MOVLW 20
01B4: MOVWF 32
01B5: CALL 097
01B6: MOVLW 20
01B7: MOVWF 32
01B8: CALL 097
.................... LCD_gotoxy(8-hodnota,1);
01B9: MOVF 28,W
01BA: SUBLW 08
01BB: MOVWF 2A
01BC: CLRF 2B
01BD: MOVF 29,W
01BE: BTFSS 03.0
01BF: INCFSZ 29,W
01C0: SUBWF 2B,F
01C1: MOVF 2A,W
01C2: MOVWF 33
01C3: MOVLW 01
01C4: MOVWF 34
01C5: CALL 086
.................... printf(lcd_putc,"*",hodnota);
01C6: MOVLW 2A
01C7: MOVWF 32
01C8: CALL 097
.................... }
.................... else
01C9: GOTO 1EF
.................... {
.................... LCD_gotoxy(6,2);
01CA: MOVLW 06
01CB: MOVWF 33
01CC: MOVLW 02
01CD: MOVWF 34
01CE: CALL 086
.................... printf(lcd_putc," %03ld ",hodnota);
01CF: MOVLW 20
01D0: MOVWF 32
01D1: CALL 097
01D2: MOVLW 0A
01D3: MOVWF 04
01D4: MOVF 29,W
01D5: MOVWF 2B
01D6: MOVF 28,W
01D7: MOVWF 2A
01D8: CALL 0CA
01D9: MOVLW 20
01DA: MOVWF 32
01DB: CALL 097
01DC: MOVLW 20
01DD: MOVWF 32
01DE: CALL 097
.................... LCD_gotoxy(8-hodnota,1);
01DF: MOVF 28,W
01E0: SUBLW 08
01E1: MOVWF 2A
01E2: CLRF 2B
01E3: MOVF 29,W
01E4: BTFSS 03.0
01E5: INCFSZ 29,W
01E6: SUBWF 2B,F
01E7: MOVF 2A,W
01E8: MOVWF 33
01E9: MOVLW 01
01EA: MOVWF 34
01EB: CALL 086
.................... printf(lcd_putc,"*",hodnota);
01EC: MOVLW 2A
01ED: MOVWF 32
01EE: CALL 097
.................... }
.................... }
01EF: GOTO 186
.................... }
....................
01F0: SLEEP
Configuration Fuses:
Word 1: 3F39 XT NOWDT NOPUT NOPROTECT NOBROWNOUT NOLVP NOCPD NOWRT NODEBUG

/programy/PIC_C/mereni/gmetr/gmetr.PJT
0,0 → 1,38
[PROJECT]
Target=gmetr.HEX
Development_Mode=
Processor=0x873F
ToolSuite=CCS
[Directories]
Include=C:\Program Files\PICC\devices\;C:\Program Files\PICC\dr
Library=
LinkerScript=
[Target Data]
FileList=gmetr.c;
BuildTool=C-COMPILER
OptionString=+FM
AdditionalOptionString=
BuildRequired=1
[gmetr.c]
Type=4
Path=
FileList=
BuildTool=
OptionString=
AdditionalOptionString=
[mru-list]
1=gmetr.c
[Windows]
0=0000 gmetr.c 0 0 796 451 3 0
[Opened Files]
1=D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.c
2=C:\library\CCS\lcd.c
3=D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.h
4=C:\Program Files\PICC\devices\16F873.h
5=

/programy/PIC_C/mereni/gmetr/gmetr.SYM
0,0 → 1,70
015-016 CCP_1
015 CCP_1_LOW
016 CCP_1_HIGH
01B CCP_2_LOW
01B-01C CCP_2
01C CCP_2_HIGH
020 @SCRATCH
021 @SCRATCH
021 _RETURN_
022 @SCRATCH
023 @SCRATCH
024 @SCRATCH
025 @TRIS_C
026-027 main.stred
028-029 main.hodnota
02A lcd_init.i
02A-02B @PRINTF_LD_263.P1
02A main.@SCRATCH
02B lcd_init.@SCRATCH
02B main.@SCRATCH
02C @PRINTF_LD_263.@SCRATCH
02D @PRINTF_LD_263.@SCRATCH
02E @PRINTF_LD_263.@SCRATCH
02F @PRINTF_LD_263.@SCRATCH
030 @PRINTF_LD_263.@SCRATCH
031 @PRINTF_LD_263.@SCRATCH
032 lcd_putc.c
033 @delay_ms1.P1
033 lcd_gotoxy.x
034 lcd_gotoxy.y
035 lcd_gotoxy.Adr
036 lcd_gotoxy.@SCRATCH
037 lcd_send_byte.Adr
038 lcd_send_byte.n
039 lcd_send_nibble.n
03A lcd_send_nibble.@SCRATCH
03B lcd_send_nibble.@SCRATCH
000C @delay_ms1
0004 @const28
0021 lcd_send_nibble
0036 lcd_send_byte
004C lcd_init
0086 lcd_gotoxy
0097 lcd_putc
0134 main
00CA @PRINTF_LD_263
0134 @cinit
Project Files:
D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.c
D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.h
C:\Program Files\PICC\devices\16F873.h
C:\library\CCS\lcd.c
Compiler Settings:
Processor: PIC16F873
Pointer Size: 8
ADC Range: 0-1023
Opt Level: 9
Short,Int,Long: 1,8,16
Output Files:
Errors: D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.err
INHX8: D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.HEX
Symbols: D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.SYM
List: D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.LST
Debug/COFF: D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.cof
Call Tree: D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.tre
Statistics: D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.sta

/programy/PIC_C/mereni/gmetr/gmetr.c
0,0 → 1,49
#include "D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.h"
#define LCD_RS PIN_B1 // rizeni registru LCD displeje
#define LCD_E PIN_B0 // enable LCD displeje
#define LCD_DATA_LSB PIN_C4 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou)
#include "C:\library\CCS\lcd.c"
void main()
{
signed int16 stred;
signed int16 hodnota;
setup_adc_ports(ALL_ANALOG);
setup_adc(ADC_CLOCK_DIV_2);
setup_spi(FALSE);
setup_timer_0(RTCC_INTERNAL|RTCC_DIV_1);
setup_timer_1(T1_DISABLED);
setup_timer_2(T2_DISABLED,0,1);
lcd_init();
Delay_ms(100);
set_adc_channel(1);
Delay_ms(500);
stred = read_adc();
while(true)
{
hodnota = stred - read_adc();
Delay_ms(100);
LCD_gotoxy(1,1);
printf(lcd_putc," ");
if (hodnota<0)
{
LCD_gotoxy(5,2);
printf(lcd_putc," %03ld ",hodnota);
LCD_gotoxy(8-hodnota,1);
printf(lcd_putc,"*",hodnota);
}
else
{
LCD_gotoxy(6,2);
printf(lcd_putc," %03ld ",hodnota);
LCD_gotoxy(8-hodnota,1);
printf(lcd_putc,"*",hodnota);
}
}
}

/programy/PIC_C/mereni/gmetr/gmetr.cof
Cannot display: file marked as a binary type.
svn:mime-type = application/octet-stream
Property changes:
Added: svn:mime-type
+application/octet-stream
\ No newline at end of property

/programy/PIC_C/mereni/gmetr/gmetr.err
0,0 → 1,0
No Errors

/programy/PIC_C/mereni/gmetr/gmetr.h
0,0 → 1,5
#include <16F873.h>
#device adc=10
#fuses NOWDT,XT, NOPUT, NOPROTECT, NOBROWNOUT, NOLVP, NOCPD, NOWRT, NODEBUG
#use delay(clock=4000000)

/programy/PIC_C/mereni/gmetr/gmetr.sta
0,0 → 1,37
ROM used: 497 (12%)
497 (12%) including unused fragments
1 Average locations per line
7 Average locations per statement
RAM used: 12 (6%) at main() level
28 (15%) worst case
Lines Stmts % Files
----- ----- --- -----
50 28 37 D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.c
6 0 0 D:\KAKLIK\programy\PIC_C\mereni\gmetr\gmetr.h
240 0 0 C:\Program Files\PICC\devices\16F873.h
312 47 46 C:\library\CCS\lcd.c
----- -----
1216 150 Total
Page ROM % RAM Functions:
---- --- --- --- ----------
0 21 4 1 @delay_ms1
0 8 2 0 @const28
0 21 4 3 lcd_send_nibble
0 22 4 2 lcd_send_byte
0 58 12 2 lcd_init
0 17 3 4 lcd_gotoxy
0 51 10 1 lcd_putc
0 189 38 6 main
0 106 21 8 @PRINTF_LD_263
Segment Used Free
--------- ---- ----
00000-00003 4 0
00004-007FF 493 1551
00800-00FFF 0 2048

/programy/PIC_C/mereni/gmetr/gmetr.tre
0,0 → 1,323
ÀÄgmetr
ÀÄmain 0/189 Ram=6
ÃÄ??0??
ÃÄlcd_init 0/58 Ram=2
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÃÄ@const28 0/8 Ram=0
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄ@delay_ms1 0/21 Ram=1
ÃÄ@delay_ms1 0/21 Ram=1
ÃÄ@delay_ms1 0/21 Ram=1
ÃÄ@delay_ms1 0/21 Ram=1
ÃÄlcd_gotoxy 0/17 Ram=4
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_putc 0/51 Ram=1
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_gotoxy 0/17 Ram=4
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_putc 0/51 Ram=1
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄ@PRINTF_LD_263 0/106 Ram=8
³ ÃÄlcd_putc 0/51 Ram=1
³ ³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄ@delay_ms1 0/21 Ram=1
³ ³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_putc 0/51 Ram=1
³ ³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄ@delay_ms1 0/21 Ram=1
³ ³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_putc 0/51 Ram=1
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_putc 0/51 Ram=1
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_putc 0/51 Ram=1
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_gotoxy 0/17 Ram=4
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_putc 0/51 Ram=1
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_gotoxy 0/17 Ram=4
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_putc 0/51 Ram=1
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄ@PRINTF_LD_263 0/106 Ram=8
³ ÃÄlcd_putc 0/51 Ram=1
³ ³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄ@delay_ms1 0/21 Ram=1
³ ³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_putc 0/51 Ram=1
³ ³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄ@delay_ms1 0/21 Ram=1
³ ³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_putc 0/51 Ram=1
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_putc 0/51 Ram=1
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_putc 0/51 Ram=1
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄ@delay_ms1 0/21 Ram=1
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_gotoxy 0/17 Ram=4
³ ³ ÀÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÃÄlcd_send_byte 0/22 Ram=2
³ ³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ³ ÀÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_gotoxy 0/17 Ram=4
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÀÄlcd_putc 0/51 Ram=1
ÃÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄ@delay_ms1 0/21 Ram=1
ÃÄlcd_gotoxy 0/17 Ram=4
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_gotoxy 0/17 Ram=4
³ ÀÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÃÄlcd_send_byte 0/22 Ram=2
³ ÃÄlcd_send_nibble 0/21 Ram=3
³ ÀÄlcd_send_nibble 0/21 Ram=3
ÀÄlcd_send_byte 0/22 Ram=2
ÃÄlcd_send_nibble 0/21 Ram=3
ÀÄlcd_send_nibble 0/21 Ram=3

/programy/PIC_C/mereni/gmetr/vssver.scc
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