/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/A.BAT |
---|
0,0 → 1,6 |
call picpgr stop |
call picpgr erase pic16F84 |
call picpgr program main.hex hex pic16F84 |
call picpgr run |
pause |
call picpgr stop |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MAIN.BAK |
---|
0,0 → 1,170 |
// Prijimac |
#include "main.h" |
#include "..\common.h" |
#DEFINE LCD_RS PIN_B1 // rizeni registru LCD displeje |
#DEFINE LCD_E PIN_B0 // enable LCD displeje |
#DEFINE LCD_DATA_LSB PIN_B2 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou) |
#INCLUDE "MYLCD.C" |
#DEFINE PRIJIMAC PIN_A3 // pin na ktery je pripojen prijimac |
#DEFINE SERVO_X PIN_A0 // pin na ktery je pripojeno servo |
#DEFINE SERVO_Y PIN_A1 |
int8 prijmout(int8* bit) |
{ |
// || | |
// |--|_____ 1 |
// | |
// |-|__|-|_ 0 |
while (!input(PRIJIMAC)) ; // cekej na jednicku |
delay_us(IMPULS/4); // presvec se, jestli je stale 1 po 1/4 impulsu |
if (!input(PRIJIMAC)) return false; // vrat chybu, kdyz neni stale 1 |
delay_us(3*IMPULS); // pockej na rozhodovaci misto |
/// if (input(PRIJIMAC)) *bit=0; else *bit=1; // dekoduj 1 nebo 0 |
*bit=!input(PRIJIMAC); // dekoduj 1 nebo 0 |
delay_us(IMPULS); // pockej na konec znaku |
return true; // vrat, ze se cteni povedlo |
} |
int8 read_nibble(int1* datovy, int8* data) |
{ |
int8 i; |
int8 d; |
int1 tmp; |
d=0; |
// Cekam na dlouhou nulu |
for (i=4; i>0; i--) |
{ |
if (input(PRIJIMAC)) i=4; |
delay_us(IMPULS/2); |
} |
// Cekam na jednicku (start ramce) |
for (; !input(PRIJIMAC); ) |
{ |
delay_us(IMPULS/8); |
} |
// delay_us(IMPULS/2); |
delay_us(2*IMPULS+IMPULS/2); |
*datovy=input(PRIJIMAC); |
// Prenasim bity |
for (i=0; i<4; i++) |
{ |
delay_us(2*IMPULS); |
d >>= 1; |
if (input(PRIJIMAC)) d +=0b1000; |
//output_bit(PIN_A0,tmp); |
//tmp=!tmp; |
} |
// delay_us(2*IMPULS); // cas posledniho datoveho bitu |
*data = d; |
return TRUE; |
} |
int8 x,y; |
int8 xc,yc; // pocitadla aktualizace x a y |
int e1,e2,e3,e4; // pocitadla chyb - ladici |
void main() |
{ |
lcd_init(); // zinicializuj LCD display |
delay_ms(5); |
printf(lcd_putc,"Ahoj..."); |
delay_ms(300); |
x = 0; |
y = 0; |
xc=0; |
yc=0; |
e1=0; |
e2=0; |
e3=0; |
e4=0; |
while (true) |
{ |
int8 kanal, data, suma; |
int1 tmp; |
int8 datovy; |
decoder: |
//output_high(PIN_A1); |
// do // vyhledej synchronizacni jednicky |
// { |
// if (!prijmout(&bit)) goto decoder; // prijmi bit; pri chybe zacni znovu |
// if (1==bit) counter++; else goto decoder; // kdyz je bit 1, tak zvys citac; jinak zacni znovu |
// } while(counter<4); // pockej na 4 jednicky |
///output_bit(PIN_A1,tmp); |
///tmp=!tmp; |
if (!read_nibble(&datovy,&kanal)) goto decoder; |
if (datovy) goto decoder; |
// output_low(PIN_A1); |
//output_low(PIN_A1); |
// if (kanal!=15) {e1++; goto decoder;}; |
if (!read_nibble(&datovy, &kanal)) goto decoder; // nacti identifikator osy |
if (!read_nibble(&datovy, &data)) goto decoder; // nacti 1. nibble; pri chybe zacni znovu |
if (!read_nibble(&datovy, &suma)) goto decoder; // nacti 2. nibble; pri chybe zacni znovu |
if (((kanal+data) & 0b1111) != suma) {e1++; goto decoder;} // zacni znovu, pokud jsou ruzne nibble |
switch (kanal) // rozeskoc se podle adresy osy |
{ |
case OSA_X: |
{ |
x=data; |
xc++; |
break; |
}; |
case OSA_Y: |
{ |
y=data; |
yc++; |
break; |
}; |
case TLs: |
{ |
e4++; |
break; |
}; |
}; |
// ladici vypisy |
lcd_gotoxy(1,1); // vytiskni X a Y |
printf(lcd_putc,"X%2U %3U%3U%3U ", x, xc, e1, e2); |
lcd_gotoxy(1,2); |
printf(lcd_putc,"Y%2U %3U%3U%3U ", y, yc, e3, data); |
// ovladani serv |
output_high(SERVO_X); |
delay_ms(1); |
for (data=x; data--; data>0) |
delay_us(65); |
output_low(SERVO_X); |
output_high(SERVO_Y); |
delay_ms(1); |
for (data=y; data--; data>0) |
delay_us(65); |
output_low(SERVO_Y); |
for (data=30-x-y; data--; data>0) |
delay_us(65); |
} |
} |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MAIN.C |
---|
0,0 → 1,170 |
// Prijimac |
#include "main.h" |
#include "..\common.h" |
#DEFINE LCD_RS PIN_B1 // rizeni registru LCD displeje |
#DEFINE LCD_E PIN_B0 // enable LCD displeje |
#DEFINE LCD_DATA_LSB PIN_B2 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou) |
#INCLUDE "MYLCD.C" |
#DEFINE PRIJIMAC PIN_A3 // pin na ktery je pripojen prijimac |
#DEFINE SERVO_X PIN_A0 // pin na ktery je pripojeno servo |
#DEFINE SERVO_Y PIN_A1 |
int8 prijmout(int8* bit) |
{ |
// || | |
// |--|_____ 1 |
// | |
// |-|__|-|_ 0 |
while (!input(PRIJIMAC)) ; // cekej na jednicku |
delay_us(IMPULS/4); // presvec se, jestli je stale 1 po 1/4 impulsu |
if (!input(PRIJIMAC)) return false; // vrat chybu, kdyz neni stale 1 |
delay_us(3*IMPULS); // pockej na rozhodovaci misto |
/// if (input(PRIJIMAC)) *bit=0; else *bit=1; // dekoduj 1 nebo 0 |
*bit=!input(PRIJIMAC); // dekoduj 1 nebo 0 |
delay_us(IMPULS); // pockej na konec znaku |
return true; // vrat, ze se cteni povedlo |
} |
int8 read_nibble(int1* datovy, int8* data) |
{ |
int8 i; |
int8 d; |
int1 tmp; |
d=0; |
// Cekam na dlouhou nulu |
for (i=4; i>0; i--) |
{ |
if (input(PRIJIMAC)) i=4; |
delay_us(IMPULS/2); |
} |
// Cekam na jednicku (start ramce) |
for (; !input(PRIJIMAC); ) |
{ |
delay_us(IMPULS/8); |
} |
// delay_us(IMPULS/2); |
delay_us(2*IMPULS+IMPULS/2); |
*datovy=input(PRIJIMAC); |
// Prenasim bity |
for (i=0; i<4; i++) |
{ |
delay_us(2*IMPULS); |
d >>= 1; |
if (input(PRIJIMAC)) d +=0b1000; |
output_bit(PIN_A4,tmp); |
tmp=!tmp; |
} |
// delay_us(2*IMPULS); // cas posledniho datoveho bitu |
*data = d; |
return TRUE; |
} |
int8 x,y; |
int8 xc,yc; // pocitadla aktualizace x a y |
int e1,e2,e3,e4; // pocitadla chyb - ladici |
void main() |
{ |
lcd_init(); // zinicializuj LCD display |
delay_ms(5); |
printf(lcd_putc,"Ahoj..."); |
delay_ms(300); |
x = 0; |
y = 0; |
xc=0; |
yc=0; |
e1=0; |
e2=0; |
e3=0; |
e4=0; |
while (true) |
{ |
int8 kanal, data, suma; |
int1 tmp; |
int8 datovy; |
decoder: |
//output_high(PIN_A1); |
// do // vyhledej synchronizacni jednicky |
// { |
// if (!prijmout(&bit)) goto decoder; // prijmi bit; pri chybe zacni znovu |
// if (1==bit) counter++; else goto decoder; // kdyz je bit 1, tak zvys citac; jinak zacni znovu |
// } while(counter<4); // pockej na 4 jednicky |
///output_bit(PIN_A1,tmp); |
///tmp=!tmp; |
if (!read_nibble(&datovy,&kanal)) goto decoder; |
if (datovy) goto decoder; |
// output_low(PIN_A1); |
//output_low(PIN_A1); |
// if (kanal!=15) {e1++; goto decoder;}; |
if (!read_nibble(&datovy, &kanal)) goto decoder; // nacti identifikator osy |
if (!read_nibble(&datovy, &data)) goto decoder; // nacti 1. nibble; pri chybe zacni znovu |
if (!read_nibble(&datovy, &suma)) goto decoder; // nacti 2. nibble; pri chybe zacni znovu |
if (((kanal+data) & 0b1111) != suma) {e1++; goto decoder;} // zacni znovu, pokud jsou ruzne nibble |
switch (kanal) // rozeskoc se podle adresy osy |
{ |
case OSA_X: |
{ |
x=data; |
xc++; |
break; |
}; |
case OSA_Y: |
{ |
y=data; |
yc++; |
break; |
}; |
case TLs: |
{ |
e4++; |
break; |
}; |
}; |
// ladici vypisy |
lcd_gotoxy(1,1); // vytiskni X a Y |
printf(lcd_putc,"X%2U %3U%3U%3U ", x, xc, e1, e2); |
lcd_gotoxy(1,2); |
printf(lcd_putc,"Y%2U %3U%3U%3U ", y, yc, e3, data); |
// ovladani serv |
output_high(SERVO_X); |
delay_ms(1); |
for (data=x; data--; data>0) |
delay_us(65); |
output_low(SERVO_X); |
output_high(SERVO_Y); |
delay_ms(1); |
for (data=y; data--; data>0) |
delay_us(65); |
output_low(SERVO_Y); |
for (data=30-x-y; data--; data>0) |
delay_us(65); |
} |
} |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MAIN.COD |
---|
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 |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MAIN.ERR |
---|
0,0 → 1,0 |
No Errors |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MAIN.H |
---|
0,0 → 1,4 |
#include <16F84.h> |
#use delay(clock=4000000) |
#fuses XT,NOWDT,PUT |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MAIN.HEX |
---|
0,0 → 1,82 |
:1000000000308A00702900000A108A100A11820745 |
:1000100028340C34013406340A108A100A1182077D |
:10002000413468346F346A3400341E308400000870 |
:100030000319292801308D008C018C0B1D288D0B94 |
:100040001C284A308C008C0B232800000000800BF9 |
:100050001A2800340608C339A500240D8C008C0D25 |
:10006000FC308C050C083C392504860006148316E8 |
:100070000610000083120610831606108312003447 |
:10008000A208031D4528861046288614831686106C |
:100090008312A30E2308A4002A20A30E2308A40081 |
:1000A0002A200D308C008C0B5328003414309E0015 |
:1000B0001520C3308316860583128610831686109A |
:1000C000831206108316061083129B011B08023C44 |
:1000D000031C722802309E0015200330A4002A2041 |
:1000E0009B0A66280D308C008C0B74280230A4000B |
:1000F0002A200D308C008C0B7B289B011B08023CB6 |
:10010000031C8E281B0804209C00A2011C08A300CD |
:10011000402002309E0015209B0A7E287429013061 |
:100120001E02A0001F08023C031D98284030A007B3 |
:1001300020088038A100A2012108A300402000343B |
:100140001D088C000C300C020319B3280A300C0275 |
:100150000319BB280D300C020319C12808300C020A |
:100160000319C628CB28A2010130A3004020023089 |
:100170009E001520D72801309E0002309F008F205E |
:10018000D72801309E009F008F20D728A201103071 |
:10019000A3004020D7281D081F3C031CD12807308E |
:1001A0009D050130A2001D08A3004020D72800347F |
:1001B0009E0104309D009D080319EC2883168515C7 |
:1001C0008312851DE52804309D0029308C008C0B9E |
:1001D000E72800009D03DB28831685158312851907 |
:1001E000F6280A308C008C0BF328EC28D0308C00D9 |
:1001F0008C0BF8281B0884008316851500308312A9 |
:100200008519013080009D011D08033C031C222933 |
:10021000A6308C008C0B0A29000003109E0C83165C |
:1002200085158312851D162908309E071F181A2967 |
:1002300005121B29051683160512013083129F062D |
:100240009D0A04291C0884001E08800001308D00CE |
:1002500000341E088D011D02031831291D088C0071 |
:100260003D298C0108309F009D0D8C0D1E080C024D |
:1002700003188C008D0D9F0B342900340D081B08CA |
:100280009D0064309E0029210C089B000D08303031 |
:10029000031D51291C189C159C1957291C1A203024 |
:1002A00053299C111C128D070D089D00A0201B08CE |
:1002B0009D000A309E0029210C089B000D0830305B |
:1002C000031D66299C196A291C1A20308D070D0808 |
:1002D0009D00A02030309B071B089D00A02000340B |
:1002E00084011F308305562805309E0015209B0190 |
:1002F0001B080C209B0A9D00A02004301B02031D3C |
:10030000782903309C002E309D00A0209C0B83296F |
:1003100002309B0096309E0015209B0B8A298E018F |
:100320008F019001910192019301940195011A307E |
:100330009B0016309C00D8208D08031DA02997290A |
:100340009A080319A42997291A309B0016309C009B |
:10035000D8208D08031DAD2997291A309B0017302E |
:100360009C00D8208D08031DB62997291A309B00C0 |
:1003700018309C00D8208D08031DBF299729170825 |
:1003800016070F3918020319C729920A9729013055 |
:100390001602FD3E0318D829033E702A17088E0066 |
:1003A000900AD82917088F00910AD829950AD829C8 |
:1003B00001309E009F008F2058309D00A0200E0825 |
:1003C0009B0011309C003E2120309D00A020100891 |
:1003D0009B0010309C003E2112089B0010309C00B6 |
:1003E0003E2113089B0010309C003E2120309D00D0 |
:1003F000A02020309D00A02001309E0002309F00F0 |
:100400008F2059309D00A0200F089B0011309C00C8 |
:100410003E2120309D00A02011089B0010309C0040 |
:100420003E2114089B0010309C003E2117089B00C1 |
:1004300010309C003E2120309D00A02020309D00E7 |
:10044000A020831605108312051401309E0015208C |
:100450000E08970017089703003A0319392A153038 |
:100460008C008C0B312A00009708031D382A0030BD |
:100470002A2A83160510831205108316851083120D |
:10048000851401309E0015200F0897001708970368 |
:10049000003A0319552A15308C008C0B4D2A0000A8 |
:1004A0009708031D542A0030462A831685108312AC |
:1004B00085100E081E3C8D000F080D0297001708CE |
:1004C0009703003A03196E2A15308C008C0B662AAC |
:1004D00000009708031D6D2A00305F2A97296300EA |
:0E04E0000A108A140A118207CE29D229D629C1 |
:02400E00F13F80 |
:00000001FF |
;PIC16F84 |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MAIN.LST |
---|
0,0 → 1,1088 |
CCS PCW C Compiler, Version 3.110, 15448 |
Filename: d:\@kaklik\programy\pic_c\prenos\letadlo\prijimac\main.LST |
ROM used: 631 (62%) |
Largest free fragment is 393 |
RAM used: 12 (18%) at main() level |
27 (40%) worst case |
Stack: 5 locations |
* |
0000: MOVLW 00 |
0001: MOVWF 0A |
0002: GOTO 170 |
0003: NOP |
.................... // Prijimac |
.................... |
.................... #include "main.h" |
.................... #include <16F84.h> |
.................... //////// Standard Header file for the PIC16F84 device //////////////// |
.................... #device PIC16F84 |
.................... #list |
.................... |
.................... #use delay(clock=4000000) |
* |
0015: MOVLW 1E |
0016: MOVWF 04 |
0017: MOVF 00,W |
0018: BTFSC 03.2 |
0019: GOTO 029 |
001A: MOVLW 01 |
001B: MOVWF 0D |
001C: CLRF 0C |
001D: DECFSZ 0C,F |
001E: GOTO 01D |
001F: DECFSZ 0D,F |
0020: GOTO 01C |
0021: MOVLW 4A |
0022: MOVWF 0C |
0023: DECFSZ 0C,F |
0024: GOTO 023 |
0025: NOP |
0026: NOP |
0027: DECFSZ 00,F |
0028: GOTO 01A |
0029: RETLW 00 |
.................... #fuses XT,NOWDT,PUT |
.................... |
.................... |
.................... #include "..\common.h" |
.................... #DEFINE OSA_X 1 // adresy os |
.................... #DEFINE OSA_Y 2 |
.................... #DEFINE TLs 3 |
.................... #DEFINE IMPULS 250 // sirka impulsu |
.................... |
.................... |
.................... #DEFINE LCD_RS PIN_B1 // rizeni registru LCD displeje |
.................... #DEFINE LCD_E PIN_B0 // enable LCD displeje |
.................... #DEFINE LCD_DATA_LSB PIN_B2 // pripojeni LSB bitu datoveho portu LCD displeje (celkem 4 bity vzestupne za sebou) |
.................... #INCLUDE "MYLCD.C" |
.................... // LCD modul pro ovladani dvouradkoveho LCD modulu se standardnim Hitachi radicem |
.................... // (c)miho 2002 |
.................... // |
.................... // Historie: |
.................... // |
.................... // 0.0 Uvodni verze se snadnou definici portu LCD 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_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: |
.................... // |
.................... // #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) |
.................... |
.................... |
.................... |
.................... |
.................... // Privatni sekce, cist jen v pripade, ze neco nefunguje |
.................... |
.................... |
.................... |
.................... |
.................... // 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 dataoveho 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 |
.................... |
.................... |
.................... // 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) |
.................... }; |
* |
0004: BCF 0A.0 |
0005: BCF 0A.1 |
0006: BCF 0A.2 |
0007: ADDWF 02,F |
0008: RETLW 28 |
0009: RETLW 0C |
000A: RETLW 01 |
000B: RETLW 06 |
.................... |
.................... |
.................... // Odesle nibble do displeje (posle data a klikne signalem e) |
.................... // |
.................... void lcd_send_nibble( BYTE n ) |
.................... { |
.................... *LCD_PORT = (*LCD_PORT & ~LCD_MASK) | ((n << LCD_SHIFT) & LCD_MASK); // nastav datove bity portu a ostatni zachovej |
* |
002A: MOVF 06,W |
002B: ANDLW C3 |
002C: MOVWF 25 |
002D: RLF 24,W |
002E: MOVWF 0C |
002F: RLF 0C,F |
0030: MOVLW FC |
0031: ANDWF 0C,F |
0032: MOVF 0C,W |
0033: ANDLW 3C |
0034: IORWF 25,W |
0035: MOVWF 06 |
.................... output_bit(LCD_E,1); // vzestupna hrana |
0036: BSF 06.0 |
0037: BSF 03.5 |
0038: BCF 06.0 |
.................... delay_us(1); // pockej alespon 450ns od e nebo alespon 195ns od dat |
0039: NOP |
.................... output_bit(LCD_E,0); // sestupna hrana (minimalni perioda e je 1us) |
003A: BCF 03.5 |
003B: BCF 06.0 |
003C: BSF 03.5 |
003D: BCF 06.0 |
003E: BCF 03.5 |
003F: 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 |
0040: MOVF 22,F |
0041: BTFSS 03.2 |
0042: GOTO 045 |
0043: BCF 06.1 |
0044: GOTO 046 |
0045: BSF 06.1 |
0046: BSF 03.5 |
0047: BCF 06.1 |
.................... swap(n); |
0048: BCF 03.5 |
0049: SWAPF 23,F |
.................... lcd_send_nibble(n); // posli horni pulku bajtu |
004A: MOVF 23,W |
004B: MOVWF 24 |
004C: CALL 02A |
.................... swap(n); |
004D: SWAPF 23,F |
.................... lcd_send_nibble(n); // posli spodni pulku bajtu |
004E: MOVF 23,W |
004F: MOVWF 24 |
0050: CALL 02A |
.................... delay_us(40); // minimalni doba na provedeni prikazu |
0051: MOVLW 0D |
0052: MOVWF 0C |
0053: DECFSZ 0C,F |
0054: GOTO 053 |
0055: 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 |
0056: MOVLW 14 |
0057: MOVWF 1E |
0058: CALL 015 |
.................... |
.................... *LCD_TRIS = *LCD_TRIS & ~LCD_MASK; // nuluj odpovidajici bity tris registru datoveho portu LCD |
0059: MOVLW C3 |
005A: BSF 03.5 |
005B: ANDWF 06,F |
.................... |
.................... output_bit(LCD_RS,0); // nastav jako vystup a nastav klidovy stav |
005C: BCF 03.5 |
005D: BCF 06.1 |
005E: BSF 03.5 |
005F: BCF 06.1 |
.................... output_bit(LCD_E,0); // nastav jako vystup a nastav klidovy stav |
0060: BCF 03.5 |
0061: BCF 06.0 |
0062: BSF 03.5 |
0063: BCF 06.0 |
.................... |
.................... for (i=0; i<3; i++) // nastav lcd do rezimu 8 bitu sbernice |
0064: BCF 03.5 |
0065: CLRF 1B |
0066: MOVF 1B,W |
0067: SUBLW 02 |
0068: BTFSS 03.0 |
0069: GOTO 072 |
.................... { |
.................... delay_ms(2); // muze byt rozdelany prenos dat (2x 4 bity) nebo pomaly povel |
006A: MOVLW 02 |
006B: MOVWF 1E |
006C: CALL 015 |
.................... lcd_send_nibble(3); // rezim 8 bitu |
006D: MOVLW 03 |
006E: MOVWF 24 |
006F: CALL 02A |
.................... } |
0070: INCF 1B,F |
0071: GOTO 066 |
.................... |
.................... delay_us(40); // cas na zpracovani |
0072: MOVLW 0D |
0073: MOVWF 0C |
0074: DECFSZ 0C,F |
0075: GOTO 074 |
.................... lcd_send_nibble(2); // nastav rezim 4 bitu (plati od nasledujiciho prenosu) |
0076: MOVLW 02 |
0077: MOVWF 24 |
0078: CALL 02A |
.................... delay_us(40); // cas na zpracovani |
0079: MOVLW 0D |
007A: MOVWF 0C |
007B: DECFSZ 0C,F |
007C: GOTO 07B |
.................... |
.................... for (i=0;i<3;i++) // proved inicializaci (nastaveni modu, smazani apod) |
007D: CLRF 1B |
007E: MOVF 1B,W |
007F: SUBLW 02 |
0080: BTFSS 03.0 |
0081: GOTO 08E |
.................... { |
.................... lcd_send_byte(0,LCD_INIT_STRING[i]); |
0082: MOVF 1B,W |
0083: CALL 004 |
0084: MOVWF 1C |
0085: CLRF 22 |
0086: MOVF 1C,W |
0087: MOVWF 23 |
0088: CALL 040 |
.................... delay_ms(2); |
0089: MOVLW 02 |
008A: MOVWF 1E |
008B: CALL 015 |
.................... } |
008C: INCF 1B,F |
008D: GOTO 07E |
008E: GOTO 174 (RETURN) |
.................... } |
.................... |
.................... |
.................... // Proved presun kurzoru |
.................... // |
.................... // Pozice 1.1 je domu |
.................... // |
.................... void lcd_gotoxy( BYTE x, BYTE y) |
.................... { |
.................... |
.................... BYTE Adr; |
.................... |
.................... Adr=x-1; |
008F: MOVLW 01 |
0090: SUBWF 1E,W |
0091: MOVWF 20 |
.................... if(y==2) |
0092: MOVF 1F,W |
0093: SUBLW 02 |
0094: BTFSS 03.2 |
0095: GOTO 098 |
.................... Adr+=LCD_LINE_2; |
0096: MOVLW 40 |
0097: ADDWF 20,F |
.................... |
.................... lcd_send_byte(0,0x80|Adr); |
0098: MOVF 20,W |
0099: IORLW 80 |
009A: MOVWF 21 |
009B: CLRF 22 |
009C: MOVF 21,W |
009D: MOVWF 23 |
009E: CALL 040 |
009F: RETLW 00 |
.................... } |
.................... |
.................... |
.................... // Zapis znaku na displej, zpracovani ridicich znaku |
.................... // |
.................... void lcd_putc( char c) |
.................... { |
.................... |
.................... switch (c) |
00A0: MOVF 1D,W |
00A1: MOVWF 0C |
00A2: MOVLW 0C |
00A3: SUBWF 0C,W |
00A4: BTFSC 03.2 |
00A5: GOTO 0B3 |
00A6: MOVLW 0A |
00A7: SUBWF 0C,W |
00A8: BTFSC 03.2 |
00A9: GOTO 0BB |
00AA: MOVLW 0D |
00AB: SUBWF 0C,W |
00AC: BTFSC 03.2 |
00AD: GOTO 0C1 |
00AE: MOVLW 08 |
00AF: SUBWF 0C,W |
00B0: BTFSC 03.2 |
00B1: GOTO 0C6 |
00B2: GOTO 0CB |
.................... { |
.................... case '\f' : lcd_send_byte(0,1); // smaz displej |
00B3: CLRF 22 |
00B4: MOVLW 01 |
00B5: MOVWF 23 |
00B6: CALL 040 |
.................... delay_ms(2); |
00B7: MOVLW 02 |
00B8: MOVWF 1E |
00B9: CALL 015 |
.................... break; |
00BA: GOTO 0D7 |
.................... case '\n' : lcd_gotoxy(1,2); break; // presun se na 1. znak 2. radky |
00BB: MOVLW 01 |
00BC: MOVWF 1E |
00BD: MOVLW 02 |
00BE: MOVWF 1F |
00BF: CALL 08F |
00C0: GOTO 0D7 |
.................... case '\r' : lcd_gotoxy(1,1); break; // presun home |
00C1: MOVLW 01 |
00C2: MOVWF 1E |
00C3: MOVWF 1F |
00C4: CALL 08F |
00C5: GOTO 0D7 |
.................... case '\b' : lcd_send_byte(0,0x10); break; // posun kurzor o 1 zpet |
00C6: CLRF 22 |
00C7: MOVLW 10 |
00C8: MOVWF 23 |
00C9: CALL 040 |
00CA: GOTO 0D7 |
.................... default : if (c<0x20) c&=0x7; // preklopeni definovatelnych znaku na rozsah 0 az 0x1F |
00CB: MOVF 1D,W |
00CC: SUBLW 1F |
00CD: BTFSS 03.0 |
00CE: GOTO 0D1 |
00CF: MOVLW 07 |
00D0: ANDWF 1D,F |
.................... lcd_send_byte(1,c); break; // zapis znak |
00D1: MOVLW 01 |
00D2: MOVWF 22 |
00D3: MOVF 1D,W |
00D4: MOVWF 23 |
00D5: CALL 040 |
00D6: GOTO 0D7 |
.................... } |
00D7: 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_); |
.................... } |
.................... |
.................... |
.................... // 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_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); |
.................... //} |
.................... |
.................... |
.................... #DEFINE PRIJIMAC PIN_A3 // pin na ktery je pripojen prijimac |
.................... #DEFINE SERVO_X PIN_A0 // pin na ktery je pripojeno servo |
.................... #DEFINE SERVO_Y PIN_A1 |
.................... |
.................... |
.................... int8 prijmout(int8* bit) |
.................... { |
.................... // || | |
.................... // |--|_____ 1 |
.................... // | |
.................... // |-|__|-|_ 0 |
.................... |
.................... while (!input(PRIJIMAC)) ; // cekej na jednicku |
.................... delay_us(IMPULS/4); // presvec se, jestli je stale 1 po 1/4 impulsu |
.................... if (!input(PRIJIMAC)) return false; // vrat chybu, kdyz neni stale 1 |
.................... delay_us(3*IMPULS); // pockej na rozhodovaci misto |
.................... /// if (input(PRIJIMAC)) *bit=0; else *bit=1; // dekoduj 1 nebo 0 |
.................... *bit=!input(PRIJIMAC); // dekoduj 1 nebo 0 |
.................... delay_us(IMPULS); // pockej na konec znaku |
.................... |
.................... return true; // vrat, ze se cteni povedlo |
.................... } |
.................... |
.................... int8 read_nibble(int1* datovy, int8* data) |
.................... { |
.................... int8 i; |
.................... int8 d; |
.................... int1 tmp; |
.................... |
.................... d=0; |
00D8: CLRF 1E |
.................... |
.................... // Cekam na dlouhou nulu |
.................... for (i=4; i>0; i--) |
00D9: MOVLW 04 |
00DA: MOVWF 1D |
00DB: MOVF 1D,F |
00DC: BTFSC 03.2 |
00DD: GOTO 0EC |
.................... { |
.................... if (input(PRIJIMAC)) i=4; |
00DE: BSF 03.5 |
00DF: BSF 05.3 |
00E0: BCF 03.5 |
00E1: BTFSS 05.3 |
00E2: GOTO 0E5 |
00E3: MOVLW 04 |
00E4: MOVWF 1D |
.................... delay_us(IMPULS/2); |
00E5: MOVLW 29 |
00E6: MOVWF 0C |
00E7: DECFSZ 0C,F |
00E8: GOTO 0E7 |
00E9: NOP |
.................... } |
00EA: DECF 1D,F |
00EB: GOTO 0DB |
.................... |
.................... // Cekam na jednicku (start ramce) |
.................... for (; !input(PRIJIMAC); ) |
00EC: BSF 03.5 |
00ED: BSF 05.3 |
00EE: BCF 03.5 |
00EF: BTFSC 05.3 |
00F0: GOTO 0F6 |
.................... { |
.................... delay_us(IMPULS/8); |
00F1: MOVLW 0A |
00F2: MOVWF 0C |
00F3: DECFSZ 0C,F |
00F4: GOTO 0F3 |
.................... } |
00F5: GOTO 0EC |
.................... |
.................... // delay_us(IMPULS/2); |
.................... delay_us(2*IMPULS+IMPULS/2); |
00F6: MOVLW D0 |
00F7: MOVWF 0C |
00F8: DECFSZ 0C,F |
00F9: GOTO 0F8 |
.................... *datovy=input(PRIJIMAC); |
00FA: MOVF 1B,W |
00FB: MOVWF 04 |
00FC: BSF 03.5 |
00FD: BSF 05.3 |
00FE: MOVLW 00 |
00FF: BCF 03.5 |
0100: BTFSC 05.3 |
0101: MOVLW 01 |
0102: MOVWF 00 |
.................... |
.................... // Prenasim bity |
.................... for (i=0; i<4; i++) |
0103: CLRF 1D |
0104: MOVF 1D,W |
0105: SUBLW 03 |
0106: BTFSS 03.0 |
0107: GOTO 122 |
.................... { |
.................... delay_us(2*IMPULS); |
0108: MOVLW A6 |
0109: MOVWF 0C |
010A: DECFSZ 0C,F |
010B: GOTO 10A |
010C: NOP |
.................... d >>= 1; |
010D: BCF 03.0 |
010E: RRF 1E,F |
.................... if (input(PRIJIMAC)) d +=0b1000; |
010F: BSF 03.5 |
0110: BSF 05.3 |
0111: BCF 03.5 |
0112: BTFSS 05.3 |
0113: GOTO 116 |
0114: MOVLW 08 |
0115: ADDWF 1E,F |
.................... output_bit(PIN_A4,tmp); |
0116: BTFSC 1F.0 |
0117: GOTO 11A |
0118: BCF 05.4 |
0119: GOTO 11B |
011A: BSF 05.4 |
011B: BSF 03.5 |
011C: BCF 05.4 |
.................... tmp=!tmp; |
011D: MOVLW 01 |
011E: BCF 03.5 |
011F: XORWF 1F,F |
.................... } |
0120: INCF 1D,F |
0121: GOTO 104 |
.................... // delay_us(2*IMPULS); // cas posledniho datoveho bitu |
.................... |
.................... *data = d; |
0122: MOVF 1C,W |
0123: MOVWF 04 |
0124: MOVF 1E,W |
0125: MOVWF 00 |
.................... return TRUE; |
0126: MOVLW 01 |
0127: MOVWF 0D |
0128: RETLW 00 |
.................... } |
.................... |
.................... |
.................... int8 x,y; |
.................... int8 xc,yc; // pocitadla aktualizace x a y |
.................... int e1,e2,e3,e4; // pocitadla chyb - ladici |
.................... |
.................... void main() |
.................... { |
* |
0170: CLRF 04 |
0171: MOVLW 1F |
0172: ANDWF 03,F |
.................... lcd_init(); // zinicializuj LCD display |
0173: GOTO 056 |
.................... delay_ms(5); |
0174: MOVLW 05 |
0175: MOVWF 1E |
0176: CALL 015 |
.................... printf(lcd_putc,"Ahoj..."); |
* |
000C: BCF 0A.0 |
000D: BCF 0A.1 |
000E: BCF 0A.2 |
000F: ADDWF 02,F |
0010: RETLW 41 |
0011: RETLW 68 |
0012: RETLW 6F |
0013: RETLW 6A |
0014: RETLW 00 |
* |
0177: CLRF 1B |
0178: MOVF 1B,W |
0179: CALL 00C |
017A: INCF 1B,F |
017B: MOVWF 1D |
017C: CALL 0A0 |
017D: MOVLW 04 |
017E: SUBWF 1B,W |
017F: BTFSS 03.2 |
0180: GOTO 178 |
0181: MOVLW 03 |
0182: MOVWF 1C |
0183: MOVLW 2E |
0184: MOVWF 1D |
0185: CALL 0A0 |
0186: DECFSZ 1C,F |
0187: GOTO 183 |
.................... delay_ms(300); |
0188: MOVLW 02 |
0189: MOVWF 1B |
018A: MOVLW 96 |
018B: MOVWF 1E |
018C: CALL 015 |
018D: DECFSZ 1B,F |
018E: GOTO 18A |
.................... |
.................... x = 0; |
018F: CLRF 0E |
.................... y = 0; |
0190: CLRF 0F |
.................... xc=0; |
0191: CLRF 10 |
.................... yc=0; |
0192: CLRF 11 |
.................... e1=0; |
0193: CLRF 12 |
.................... e2=0; |
0194: CLRF 13 |
.................... e3=0; |
0195: CLRF 14 |
.................... e4=0; |
0196: CLRF 15 |
.................... |
.................... while (true) |
.................... { |
.................... int8 kanal, data, suma; |
.................... int1 tmp; |
.................... int8 datovy; |
.................... |
.................... decoder: |
.................... //output_high(PIN_A1); |
.................... |
.................... // do // vyhledej synchronizacni jednicky |
.................... // { |
.................... // if (!prijmout(&bit)) goto decoder; // prijmi bit; pri chybe zacni znovu |
.................... // if (1==bit) counter++; else goto decoder; // kdyz je bit 1, tak zvys citac; jinak zacni znovu |
.................... // } while(counter<4); // pockej na 4 jednicky |
.................... ///output_bit(PIN_A1,tmp); |
.................... ///tmp=!tmp; |
.................... if (!read_nibble(&datovy,&kanal)) goto decoder; |
0197: MOVLW 1A |
0198: MOVWF 1B |
0199: MOVLW 16 |
019A: MOVWF 1C |
019B: CALL 0D8 |
019C: MOVF 0D,F |
019D: BTFSS 03.2 |
019E: GOTO 1A0 |
019F: GOTO 197 |
.................... if (datovy) goto decoder; |
01A0: MOVF 1A,F |
01A1: BTFSC 03.2 |
01A2: GOTO 1A4 |
01A3: GOTO 197 |
.................... // output_low(PIN_A1); |
.................... //output_low(PIN_A1); |
.................... |
.................... // if (kanal!=15) {e1++; goto decoder;}; |
.................... if (!read_nibble(&datovy, &kanal)) goto decoder; // nacti identifikator osy |
01A4: MOVLW 1A |
01A5: MOVWF 1B |
01A6: MOVLW 16 |
01A7: MOVWF 1C |
01A8: CALL 0D8 |
01A9: MOVF 0D,F |
01AA: BTFSS 03.2 |
01AB: GOTO 1AD |
01AC: GOTO 197 |
.................... |
.................... if (!read_nibble(&datovy, &data)) goto decoder; // nacti 1. nibble; pri chybe zacni znovu |
01AD: MOVLW 1A |
01AE: MOVWF 1B |
01AF: MOVLW 17 |
01B0: MOVWF 1C |
01B1: CALL 0D8 |
01B2: MOVF 0D,F |
01B3: BTFSS 03.2 |
01B4: GOTO 1B6 |
01B5: GOTO 197 |
.................... if (!read_nibble(&datovy, &suma)) goto decoder; // nacti 2. nibble; pri chybe zacni znovu |
01B6: MOVLW 1A |
01B7: MOVWF 1B |
01B8: MOVLW 18 |
01B9: MOVWF 1C |
01BA: CALL 0D8 |
01BB: MOVF 0D,F |
01BC: BTFSS 03.2 |
01BD: GOTO 1BF |
01BE: GOTO 197 |
.................... if (((kanal+data) & 0b1111) != suma) {e1++; goto decoder;} // zacni znovu, pokud jsou ruzne nibble |
01BF: MOVF 17,W |
01C0: ADDWF 16,W |
01C1: ANDLW 0F |
01C2: SUBWF 18,W |
01C3: BTFSC 03.2 |
01C4: GOTO 1C7 |
01C5: INCF 12,F |
01C6: GOTO 197 |
.................... |
.................... |
.................... switch (kanal) // rozeskoc se podle adresy osy |
01C7: MOVLW 01 |
01C8: SUBWF 16,W |
01C9: ADDLW FD |
01CA: BTFSC 03.0 |
01CB: GOTO 1D8 |
01CC: ADDLW 03 |
01CD: GOTO 270 |
.................... { |
.................... case OSA_X: |
.................... { |
.................... x=data; |
01CE: MOVF 17,W |
01CF: MOVWF 0E |
.................... xc++; |
01D0: INCF 10,F |
.................... break; |
01D1: GOTO 1D8 |
.................... }; |
.................... case OSA_Y: |
.................... { |
.................... y=data; |
01D2: MOVF 17,W |
01D3: MOVWF 0F |
.................... yc++; |
01D4: INCF 11,F |
.................... break; |
01D5: GOTO 1D8 |
.................... }; |
.................... case TLs: |
.................... { |
.................... e4++; |
01D6: INCF 15,F |
.................... break; |
01D7: GOTO 1D8 |
.................... }; |
.................... }; |
* |
0270: BCF 0A.0 |
0271: BSF 0A.1 |
0272: BCF 0A.2 |
0273: ADDWF 02,F |
0274: GOTO 1CE |
0275: GOTO 1D2 |
0276: GOTO 1D6 |
.................... |
.................... // ladici vypisy |
.................... lcd_gotoxy(1,1); // vytiskni X a Y |
* |
01D8: MOVLW 01 |
01D9: MOVWF 1E |
01DA: MOVWF 1F |
01DB: CALL 08F |
.................... printf(lcd_putc,"X%2U %3U%3U%3U ", x, xc, e1, e2); |
* |
013E: MOVF 0D,W |
013F: MOVF 1B,W |
0140: MOVWF 1D |
0141: MOVLW 64 |
0142: MOVWF 1E |
0143: CALL 129 |
0144: MOVF 0C,W |
0145: MOVWF 1B |
0146: MOVF 0D,W |
0147: MOVLW 30 |
0148: BTFSS 03.2 |
0149: GOTO 151 |
014A: BTFSC 1C.0 |
014B: BSF 1C.3 |
014C: BTFSC 1C.3 |
014D: GOTO 157 |
014E: BTFSC 1C.4 |
014F: MOVLW 20 |
0150: GOTO 153 |
0151: BCF 1C.3 |
0152: BCF 1C.4 |
0153: ADDWF 0D,F |
0154: MOVF 0D,W |
0155: MOVWF 1D |
0156: CALL 0A0 |
0157: MOVF 1B,W |
0158: MOVWF 1D |
0159: MOVLW 0A |
015A: MOVWF 1E |
015B: CALL 129 |
015C: MOVF 0C,W |
015D: MOVWF 1B |
015E: MOVF 0D,W |
015F: MOVLW 30 |
0160: BTFSS 03.2 |
0161: GOTO 166 |
0162: BTFSC 1C.3 |
0163: GOTO 16A |
0164: BTFSC 1C.4 |
0165: MOVLW 20 |
0166: ADDWF 0D,F |
0167: MOVF 0D,W |
0168: MOVWF 1D |
0169: CALL 0A0 |
016A: MOVLW 30 |
016B: ADDWF 1B,F |
016C: MOVF 1B,W |
016D: MOVWF 1D |
016E: CALL 0A0 |
016F: RETLW 00 |
* |
01DC: MOVLW 58 |
01DD: MOVWF 1D |
01DE: CALL 0A0 |
01DF: MOVF 0E,W |
01E0: MOVWF 1B |
01E1: MOVLW 11 |
01E2: MOVWF 1C |
01E3: CALL 13E |
01E4: MOVLW 20 |
01E5: MOVWF 1D |
01E6: CALL 0A0 |
01E7: MOVF 10,W |
01E8: MOVWF 1B |
01E9: MOVLW 10 |
01EA: MOVWF 1C |
01EB: CALL 13E |
01EC: MOVF 12,W |
01ED: MOVWF 1B |
01EE: MOVLW 10 |
01EF: MOVWF 1C |
01F0: CALL 13E |
01F1: MOVF 13,W |
01F2: MOVWF 1B |
01F3: MOVLW 10 |
01F4: MOVWF 1C |
01F5: CALL 13E |
01F6: MOVLW 20 |
01F7: MOVWF 1D |
01F8: CALL 0A0 |
01F9: MOVLW 20 |
01FA: MOVWF 1D |
01FB: CALL 0A0 |
.................... lcd_gotoxy(1,2); |
01FC: MOVLW 01 |
01FD: MOVWF 1E |
01FE: MOVLW 02 |
01FF: MOVWF 1F |
0200: CALL 08F |
.................... printf(lcd_putc,"Y%2U %3U%3U%3U ", y, yc, e3, data); |
0201: MOVLW 59 |
0202: MOVWF 1D |
0203: CALL 0A0 |
0204: MOVF 0F,W |
0205: MOVWF 1B |
0206: MOVLW 11 |
0207: MOVWF 1C |
0208: CALL 13E |
0209: MOVLW 20 |
020A: MOVWF 1D |
020B: CALL 0A0 |
020C: MOVF 11,W |
020D: MOVWF 1B |
020E: MOVLW 10 |
020F: MOVWF 1C |
0210: CALL 13E |
0211: MOVF 14,W |
0212: MOVWF 1B |
0213: MOVLW 10 |
0214: MOVWF 1C |
0215: CALL 13E |
0216: MOVF 17,W |
0217: MOVWF 1B |
0218: MOVLW 10 |
0219: MOVWF 1C |
021A: CALL 13E |
021B: MOVLW 20 |
021C: MOVWF 1D |
021D: CALL 0A0 |
021E: MOVLW 20 |
021F: MOVWF 1D |
0220: CALL 0A0 |
.................... |
.................... // ovladani serv |
.................... output_high(SERVO_X); |
0221: BSF 03.5 |
0222: BCF 05.0 |
0223: BCF 03.5 |
0224: BSF 05.0 |
.................... delay_ms(1); |
0225: MOVLW 01 |
0226: MOVWF 1E |
0227: CALL 015 |
.................... for (data=x; data--; data>0) |
0228: MOVF 0E,W |
0229: MOVWF 17 |
022A: MOVF 17,W |
022B: DECF 17,F |
022C: XORLW 00 |
022D: BTFSC 03.2 |
022E: GOTO 239 |
.................... delay_us(65); |
022F: MOVLW 15 |
0230: MOVWF 0C |
0231: DECFSZ 0C,F |
0232: GOTO 231 |
0233: NOP |
0234: MOVF 17,F |
0235: BTFSS 03.2 |
0236: GOTO 238 |
0237: MOVLW 00 |
0238: GOTO 22A |
.................... output_low(SERVO_X); |
0239: BSF 03.5 |
023A: BCF 05.0 |
023B: BCF 03.5 |
023C: BCF 05.0 |
.................... |
.................... output_high(SERVO_Y); |
023D: BSF 03.5 |
023E: BCF 05.1 |
023F: BCF 03.5 |
0240: BSF 05.1 |
.................... delay_ms(1); |
0241: MOVLW 01 |
0242: MOVWF 1E |
0243: CALL 015 |
.................... for (data=y; data--; data>0) |
0244: MOVF 0F,W |
0245: MOVWF 17 |
0246: MOVF 17,W |
0247: DECF 17,F |
0248: XORLW 00 |
0249: BTFSC 03.2 |
024A: GOTO 255 |
.................... delay_us(65); |
024B: MOVLW 15 |
024C: MOVWF 0C |
024D: DECFSZ 0C,F |
024E: GOTO 24D |
024F: NOP |
0250: MOVF 17,F |
0251: BTFSS 03.2 |
0252: GOTO 254 |
0253: MOVLW 00 |
0254: GOTO 246 |
.................... output_low(SERVO_Y); |
0255: BSF 03.5 |
0256: BCF 05.1 |
0257: BCF 03.5 |
0258: BCF 05.1 |
.................... |
.................... for (data=30-x-y; data--; data>0) |
0259: MOVF 0E,W |
025A: SUBLW 1E |
025B: MOVWF 0D |
025C: MOVF 0F,W |
025D: SUBWF 0D,W |
025E: MOVWF 17 |
025F: MOVF 17,W |
0260: DECF 17,F |
0261: XORLW 00 |
0262: BTFSC 03.2 |
0263: GOTO 26E |
.................... delay_us(65); |
0264: MOVLW 15 |
0265: MOVWF 0C |
0266: DECFSZ 0C,F |
0267: GOTO 266 |
0268: NOP |
0269: MOVF 17,F |
026A: BTFSS 03.2 |
026B: GOTO 26D |
026C: MOVLW 00 |
026D: GOTO 25F |
.................... |
.................... } |
026E: GOTO 197 |
.................... } |
.................... |
026F: SLEEP |
.................... |
.................... |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MAIN.PJT |
---|
0,0 → 1,32 |
[PROJECT] |
Target=main.HEX |
Development_Mode= |
Processor=0x684A |
ToolSuite=CCS |
[Directories] |
Include=C:\Program Files\PICC\Devices;C:\Program Files\PICC\Dri; |
Library= |
LinkerScript= |
[Target Data] |
FileList=main.c; |
BuildTool=CCSC |
OptionString=-p +FM |
AdditionalOptionString= |
BuildRequired=1 |
[main.c] |
Type=4 |
Path= |
FileList= |
BuildTool= |
OptionString= |
AdditionalOptionString= |
[mru-list] |
1=main.c |
[Windows] |
0=0000 main.c 0 0 796 451 3 0 |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MAIN.STA |
---|
0,0 → 1,41 |
ROM used: 631 (62%) |
393 (38%) including unused fragments |
1 Average locations per line |
5 Average locations per statement |
RAM used: 12 (18%) at main() level |
27 (40%) worst case |
Lines Stmts % Files |
----- ----- --- ----- |
171 91 66 d:\@kaklik\programy\pic_c\prenos\letadlo\prijimac\main.c |
5 0 0 d:\@kaklik\programy\pic_c\prenos\letadlo\prijimac\main.h |
111 0 0 C:\Program Files\PICC\Devices\16F84.h |
5 0 0 d:\@kaklik\programy\pic_c\prenos\letadlo\common.h |
272 46 20 d:\@kaklik\programy\pic_c\prenos\letadlo\prijimac\MYLCD.C |
----- ----- |
1128 274 Total |
Page ROM % RAM Functions: |
---- --- --- --- ---------- |
0 21 3 1 delay_ms |
0 8 1 0 @const22 |
0 22 3 3 lcd_send_nibble |
0 22 3 2 lcd_send_byte |
0 57 9 2 lcd_init |
0 17 3 4 lcd_gotoxy |
0 56 9 1 lcd_putc |
0 81 13 6 read_nibble |
0 256 41 2 main |
0 9 1 0 @const10145 |
0 7 1 0 @goto10179 |
0 21 3 3 @DIV88 |
0 50 8 2 @PRINTF_U_148 |
Segment Used Free |
--------- ---- ---- |
0000-0003 4 0 |
0004-03FF 627 393 |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MAIN.SYM |
---|
0,0 → 1,68 |
00C @SCRATCH |
00D @SCRATCH |
00D _RETURN_ |
00E x |
00F y |
010 xc |
011 yc |
012 e1 |
013 e2 |
014 e3 |
015 e4 |
016 kanal |
017 Data |
018 suma |
019.0 tmp |
01A datovy |
01B lcd_init.i |
01B read_nibble.datovy |
01B @PRINTF_U_148.P1 |
01B main.@SCRATCH |
01C read_nibble.Data |
01C @PRINTF_U_148.P1 |
01C lcd_init.@SCRATCH |
01C main.@SCRATCH |
01D lcd_putc.c |
01D read_nibble.i |
01D @DIV88.P1 |
01E delay_ms.P1 |
01E lcd_gotoxy.x |
01E read_nibble.d |
01E @DIV88.P1 |
01F lcd_gotoxy.y |
01F.0 read_nibble.tmp |
01F @DIV88.@SCRATCH |
020 lcd_gotoxy.Adr |
020 read_nibble.@SCRATCH |
021 lcd_gotoxy.@SCRATCH |
022 lcd_send_byte.Adr |
023 lcd_send_byte.n |
024 lcd_send_nibble.n |
025 lcd_send_nibble.@SCRATCH |
026 lcd_send_nibble.@SCRATCH |
delay_us.P1 |
-002 LCD_INIT_STRING |
lcd_putc2.Data |
prijmout.bit |
0015 delay_ms |
0004 @const22 |
002A lcd_send_nibble |
0040 lcd_send_byte |
0056 lcd_init |
008F lcd_gotoxy |
00A0 lcd_putc |
00D8 read_nibble |
0170 main |
000C @const10145 |
0270 @goto10179 |
0129 @DIV88 |
013E @PRINTF_U_148 |
0197 decoder |
Project Files: |
d:\@kaklik\programy\pic_c\prenos\letadlo\prijimac\main.c |
d:\@kaklik\programy\pic_c\prenos\letadlo\prijimac\main.h |
C:\Program Files\PICC\Devices\16F84.h |
d:\@kaklik\programy\pic_c\prenos\letadlo\common.h |
d:\@kaklik\programy\pic_c\prenos\letadlo\prijimac\MYLCD.C |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MAIN.TRE |
---|
0,0 → 1,701 |
ÀÄmain |
ÀÄmain 0/256 Ram=2 |
ÃÄ??0?? |
ÃÄlcd_init 0/57 Ram=2 |
³ ÃÄdelay_ms 0/21 Ram=1 |
³ ÃÄdelay_ms 0/21 Ram=1 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄ@const22 0/8 Ram=0 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄdelay_ms 0/21 Ram=1 |
ÃÄdelay_ms 0/21 Ram=1 |
ÃÄ@const10145 0/9 Ram=0 |
ÃÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄdelay_ms 0/21 Ram=1 |
ÃÄread_nibble 0/81 Ram=6 |
ÃÄread_nibble 0/81 Ram=6 |
ÃÄread_nibble 0/81 Ram=6 |
ÃÄread_nibble 0/81 Ram=6 |
ÃÄ@goto10179 0/7 Ram=0 |
ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄ@PRINTF_U_148 0/50 Ram=2 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄ@PRINTF_U_148 0/50 Ram=2 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄ@PRINTF_U_148 0/50 Ram=2 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄ@PRINTF_U_148 0/50 Ram=2 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄ@PRINTF_U_148 0/50 Ram=2 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄ@PRINTF_U_148 0/50 Ram=2 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄ@PRINTF_U_148 0/50 Ram=2 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄ@PRINTF_U_148 0/50 Ram=2 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄ@DIV88 0/21 Ram=3 |
³ ÃÄlcd_putc 0/56 Ram=1 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 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 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄlcd_putc 0/56 Ram=1 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄdelay_ms 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 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_gotoxy 0/17 Ram=4 |
³ ³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÃÄlcd_send_byte 0/22 Ram=2 |
³ ³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ³ ÀÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_byte 0/22 Ram=2 |
³ ÃÄlcd_send_nibble 0/22 Ram=3 |
³ ÀÄlcd_send_nibble 0/22 Ram=3 |
ÃÄdelay_ms 0/21 Ram=1 |
ÀÄdelay_ms 0/21 Ram=1 |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/MYLCD.C |
---|
0,0 → 1,271 |
// LCD modul pro ovladani dvouradkoveho LCD modulu se standardnim Hitachi radicem |
// (c)miho 2002 |
// |
// Historie: |
// |
// 0.0 Uvodni verze se snadnou definici portu LCD 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_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: |
// |
// #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) |
// Privatni sekce, cist jen v pripade, ze neco nefunguje |
// 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 dataoveho 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 |
// 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 ) |
{ |
*LCD_PORT = (*LCD_PORT & ~LCD_MASK) | ((n << LCD_SHIFT) & LCD_MASK); // nastav datove bity portu a ostatni zachovej |
output_bit(LCD_E,1); // vzestupna hrana |
delay_us(1); // pockej alespon 450ns od e nebo alespon 195ns od dat |
output_bit(LCD_E,0); // sestupna hrana (minimalni perioda e je 1us) |
} |
// 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 |
swap(n); |
lcd_send_nibble(n); // posli horni pulku bajtu |
swap(n); |
lcd_send_nibble(n); // posli spodni pulku bajtu |
delay_us(40); // minimalni doba na provedeni prikazu |
} |
// 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 |
*LCD_TRIS = *LCD_TRIS & ~LCD_MASK; // nuluj odpovidajici bity tris registru datoveho portu LCD |
output_bit(LCD_RS,0); // nastav jako vystup a nastav klidovy stav |
output_bit(LCD_E,0); // nastav jako vystup a nastav klidovy stav |
for (i=0; i<3; i++) // nastav lcd do rezimu 8 bitu sbernice |
{ |
delay_ms(2); // muze byt rozdelany prenos dat (2x 4 bity) nebo pomaly povel |
lcd_send_nibble(3); // rezim 8 bitu |
} |
delay_us(40); // cas na zpracovani |
lcd_send_nibble(2); // nastav rezim 4 bitu (plati od nasledujiciho prenosu) |
delay_us(40); // cas na zpracovani |
for (i=0;i<3;i++) // proved inicializaci (nastaveni modu, smazani apod) |
{ |
lcd_send_byte(0,LCD_INIT_STRING[i]); |
delay_ms(2); |
} |
} |
// Proved presun kurzoru |
// |
// Pozice 1.1 je domu |
// |
void lcd_gotoxy( BYTE x, BYTE y) |
{ |
BYTE Adr; |
Adr=x-1; |
if(y==2) |
Adr+=LCD_LINE_2; |
lcd_send_byte(0,0x80|Adr); |
} |
// Zapis znaku na displej, zpracovani ridicich znaku |
// |
void lcd_putc( char c) |
{ |
switch (c) |
{ |
case '\f' : lcd_send_byte(0,1); // smaz displej |
delay_ms(2); |
break; |
case '\n' : lcd_gotoxy(1,2); break; // presun se na 1. znak 2. radky |
case '\r' : lcd_gotoxy(1,1); break; // presun home |
case '\b' : lcd_send_byte(0,0x10); break; // posun kurzor o 1 zpet |
default : if (c<0x20) c&=0x7; // preklopeni definovatelnych znaku na rozsah 0 az 0x1F |
lcd_send_byte(1,c); break; // zapis znak |
} |
} |
// 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_); |
} |
// 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_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); |
//} |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/PRG.BAT |
---|
0,0 → 1,6 |
call picpgr stop |
call picpgr erase pic16f84 |
call picpgr program main.hex hex pic16f84 |
call picpgr run |
pause |
call picpgr stop |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/PRG.PIF |
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Cannot display: file marked as a binary type. |
svn:mime-type = application/octet-stream |
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+application/octet-stream |
\ No newline at end of property |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/RUN.BAT |
---|
0,0 → 1,5 |
call picpgr run |
pause |
call picpgr stop |
pause |
run.bat |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/VC.MNU |
---|
0,0 → 1,4 |
R: Run |
picpgr run |
S: Stop |
picpgr stop |
/schemata/prenos/letadlo/SW/prijimac/ostra_bez_ladicich_impulsu/zaloha/04/vssver.scc |
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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 |