0,0 → 1,1293 |
CCS PCM C Compiler, Version 3.221, 27853 18-IX-05 10:59 |
|
Filename: D:\MLAB\_Z\DART01B\SW\1_02\DART.LST |
|
ROM used: 1098 words (27%) |
Largest free fragment is 2048 |
RAM used: 25 (14%) at main() level |
43 (25%) worst case |
Stack: 6 worst case (3 in main + 3 for interrupts) |
|
* |
0000: MOVLW 00 |
0001: MOVWF 0A |
0002: GOTO 25F |
0003: NOP |
0004: MOVWF 7F |
0005: SWAPF 03,W |
0006: CLRF 03 |
0007: MOVWF 21 |
0008: MOVF 7F,W |
0009: MOVWF 20 |
000A: MOVF 0A,W |
000B: MOVWF 28 |
000C: CLRF 0A |
000D: SWAPF 20,F |
000E: MOVF 04,W |
000F: MOVWF 22 |
0010: MOVF 77,W |
0011: MOVWF 23 |
0012: MOVF 78,W |
0013: MOVWF 24 |
0014: MOVF 79,W |
0015: MOVWF 25 |
0016: MOVF 7A,W |
0017: MOVWF 26 |
0018: MOVF 7B,W |
0019: MOVWF 27 |
001A: BCF 03.7 |
001B: BCF 03.5 |
001C: MOVLW 8C |
001D: MOVWF 04 |
001E: BTFSS 00.3 |
001F: GOTO 022 |
0020: BTFSC 0C.3 |
0021: GOTO 039 |
0022: BTFSS 0B.5 |
0023: GOTO 026 |
0024: BTFSC 0B.2 |
0025: GOTO 03B |
0026: MOVF 22,W |
0027: MOVWF 04 |
0028: MOVF 23,W |
0029: MOVWF 77 |
002A: MOVF 24,W |
002B: MOVWF 78 |
002C: MOVF 25,W |
002D: MOVWF 79 |
002E: MOVF 26,W |
002F: MOVWF 7A |
0030: MOVF 27,W |
0031: MOVWF 7B |
0032: MOVF 28,W |
0033: MOVWF 0A |
0034: SWAPF 21,W |
0035: MOVWF 03 |
0036: SWAPF 7F,F |
0037: SWAPF 7F,W |
0038: RETFIE |
0039: BCF 0A.3 |
003A: GOTO 0A5 |
003B: BCF 0A.3 |
003C: GOTO 0D3 |
.................... // DART01A verze programu 1.02 |
.................... // (c)miho 2005 |
.................... // |
.................... // 1.00 Uvodni verze |
.................... // 1.01 Doplneno nasatvovani parametru rozjezdu P2 u standardniho algoritmu |
.................... // 1.02 Doplnena deaktivace vyvodu pro LED (LED tato verze programu nepouziva) |
.................... |
.................... #include "DART.h" |
.................... // DART01A verze programu 1.00 |
.................... // (c)miho 2005 |
.................... |
.................... #include <16F88.h> // standardni definice konstant |
.................... //////// Header file for the PIC16F88 |
.................... #device PIC16F88 |
.................... #list |
.................... #include <16F88_Reg.h> // standardni definice vsech FSR |
.................... #list |
.................... |
.................... |
.................... #device adc=8 // AD prevodnik jen na 8 bitu |
.................... #define xclock 4168000 // muj konkretni PIC je trochu rychlejsi |
.................... #use delay(clock=xclock,restart_wdt) |
* |
00FD: MOVLW 11 |
00FE: SUBWF 3F,F |
00FF: BTFSS 03.0 |
0100: GOTO 10F |
0101: MOVLW 3F |
0102: MOVWF 04 |
0103: MOVLW FC |
0104: ANDWF 00,F |
0105: BCF 03.0 |
0106: RRF 00,F |
0107: RRF 00,F |
0108: MOVF 00,W |
0109: BTFSC 03.2 |
010A: GOTO 10F |
010B: GOTO 10D |
010C: CLRWDT |
010D: DECFSZ 00,F |
010E: GOTO 10C |
010F: BCF 0A.3 |
0110: GOTO 2AA (RETURN) |
* |
020D: MOVLW 3E |
020E: MOVWF 04 |
020F: MOVF 00,W |
0210: BTFSC 03.2 |
0211: GOTO 223 |
0212: MOVLW 01 |
0213: MOVWF 78 |
0214: MOVLW BF |
0215: MOVWF 77 |
0216: CLRWDT |
0217: DECFSZ 77,F |
0218: GOTO 216 |
0219: DECFSZ 78,F |
021A: GOTO 214 |
021B: MOVLW 58 |
021C: MOVWF 77 |
021D: DECFSZ 77,F |
021E: GOTO 21D |
021F: NOP |
0220: CLRWDT |
0221: DECFSZ 00,F |
0222: GOTO 212 |
0223: RETLW 00 |
.................... #fuses INTRC_IO, WDT, NOPUT, NOPROTECT, NOBROWNOUT, MCLR, NOLVP, NOCPD, NODEBUG, CCPB3 |
.................... |
.................... |
.................... |
.................... #define BEEP0 PIN_A6 // pipak, prvni vystup |
.................... #define BEEP1 PIN_A7 // pipak, druhy vystup |
.................... #define PWM PIN_B3 // PWM vystup pro menic |
.................... #define REFPOWER PIN_B1 // napajeni zdroje Vref |
.................... #define MOTOR PIN_B2 // zapinani motoru |
.................... #define SW0 PIN_B7 // konfiguracni prepinac 0 |
.................... #define SW1 PIN_B6 // konfiguracni prepinac 1 |
.................... #define LED PIN_B4 // dioda LED v elektornice DART01B |
.................... |
.................... |
.................... void InitRS232() |
.................... // Inicializace HW RS232 (pro ladici vystupy) |
.................... { |
.................... SPBRG=xclock/9600/16-1; // ryclost 9600Bd |
* |
00F1: MOVLW 1A |
00F2: BSF 03.5 |
00F3: MOVWF 19 |
.................... RCSTA=0b10000000; // enable USART |
00F4: MOVLW 80 |
00F5: BCF 03.5 |
00F6: MOVWF 18 |
.................... TXSTA=0b00100100; // BRGH=1, TX enable |
00F7: MOVLW 24 |
00F8: BSF 03.5 |
00F9: MOVWF 18 |
.................... } |
00FA: BCF 03.5 |
00FB: BCF 0A.3 |
00FC: GOTO 28C (RETURN) |
.................... |
.................... |
.................... void Putc(char c) |
.................... // Posilani znaku pres HW RS232 |
.................... { |
.................... while(TRMT==0); // cekej na prazdny TX buffer |
* |
0111: BSF 03.5 |
0112: BTFSC 18.1 |
0113: GOTO 116 |
0114: BCF 03.5 |
0115: GOTO 111 |
.................... TXREG=c; // predej data |
0116: BCF 03.5 |
0117: MOVF 42,W |
0118: MOVWF 19 |
.................... } |
0119: RETLW 00 |
.................... |
.................... |
.................... // Globalni promenna pro data posilana na SSP |
.................... // Nastavuje se funkci MotorPatternSet() |
.................... // Vyuziva se v prerusovaci rutine IntSSP() |
.................... unsigned int8 MotorPattern; // aktualni data pro SSP jednotku |
.................... |
.................... |
.................... void MotorPatternSet(unsigned int Gear) |
.................... // Na zaklade rychlostniho stupne nastavi MotorPattern pro SSP |
.................... // Rychlost 0 znamena stop, rychlost 8 je maximum |
.................... { |
.................... // Tabulka rychlost -> pattern pro SSP |
.................... unsigned int8 const ExpTab[8] = {0x02,0x06,0x0e,0x1e,0x3e,0x7e,0xfe,0xff}; |
.................... |
.................... // Vyber patternu |
.................... if (Gear==0) // stav 0 znamena stop |
* |
00AA: MOVF 45,F |
00AB: BTFSS 03.2 |
00AC: GOTO 0B9 |
.................... { |
.................... output_low(MOTOR); // klidovy stav |
00AD: BSF 03.5 |
00AE: BCF 06.2 |
00AF: BCF 03.5 |
00B0: BCF 06.2 |
.................... SSPSTAT = 0; |
00B1: BSF 03.5 |
00B2: CLRF 14 |
.................... SSPCON1 = 0; // SPI stop |
00B3: BCF 03.5 |
00B4: CLRF 14 |
.................... disable_interrupts(INT_SSP); // neni preruseni od SSP |
00B5: BSF 03.5 |
00B6: BCF 0C.3 |
.................... } |
.................... else // rizeny vykon |
00B7: GOTO 0D1 |
00B8: BCF 03.5 |
.................... { |
.................... if (Gear>7) // stav 8 a vice znamena plny vykon |
00B9: MOVF 45,W |
00BA: SUBLW 07 |
00BB: BTFSC 03.0 |
00BC: GOTO 0BF |
.................... { |
.................... Gear=8; // plny plyn |
00BD: MOVLW 08 |
00BE: MOVWF 45 |
.................... } |
.................... |
.................... MotorPattern=ExpTab[--Gear]; // prevod z hodnoty plynu na data pro SSP |
00BF: DECF 45,F |
00C0: MOVF 45,W |
00C1: CALL 03D |
00C2: MOVWF 78 |
00C3: MOVWF 2A |
.................... output_low(MOTOR); // klidovy stav |
00C4: BSF 03.5 |
00C5: BCF 06.2 |
00C6: BCF 03.5 |
00C7: BCF 06.2 |
.................... SSPSTAT = 0; |
00C8: BSF 03.5 |
00C9: CLRF 14 |
.................... SSPCON1 = 0x22; // SPI OSC/64 |
00CA: MOVLW 22 |
00CB: BCF 03.5 |
00CC: MOVWF 14 |
.................... |
.................... SSPBUF=MotorPattern; // prvni data pro vyslani |
00CD: MOVF 2A,W |
00CE: MOVWF 13 |
.................... enable_interrupts(INT_SSP); // az budou vyslana prijde interrupt od SSP |
00CF: BSF 03.5 |
00D0: BSF 0C.3 |
.................... } |
.................... } |
00D1: BCF 03.5 |
00D2: RETLW 00 |
.................... |
.................... |
.................... // Obsluha preruseni od SSP jednotky, posila data z promenne MotorRun do SSP. |
.................... #INT_SSP |
.................... void IntSSP() |
.................... { |
.................... SSPBUF=MotorPattern; // znova hdnota PWM patternu na SSP |
* |
00A5: MOVF 2A,W |
00A6: MOVWF 13 |
.................... } |
.................... |
.................... |
00A7: BCF 0C.3 |
00A8: BCF 0A.3 |
00A9: GOTO 026 |
.................... void MotorSet(unsigned int Gear) |
* |
0224: CLRF 29 |
0225: BTFSC 0B.7 |
0226: BSF 29.7 |
0227: BCF 0B.7 |
.................... // Nastavi vykon motoru dle hodnoty Gear a zahaji posilani PWM dat pres SSP pod prerusenim |
.................... // od SSP jednotky |
.................... // 0 stop |
.................... // 1-7 pocet 1/8 vykonu |
.................... // >7 plny vykon |
.................... { |
.................... // Nastav PWM pattern |
.................... MotorPatternSet(Gear); // nastav PWM pattern pro SSP |
0228: MOVF 3E,W |
0229: MOVWF 45 |
022A: CALL 0AA |
022B: BTFSC 29.7 |
022C: BSF 0B.7 |
.................... |
.................... // Povol preruseni |
.................... enable_interrupts(GLOBAL); // povol preruseni |
022D: MOVLW C0 |
022E: IORWF 0B,F |
.................... } |
022F: RETLW 00 |
.................... |
.................... |
.................... void InitT0() |
.................... // Inicializace casovace T0 (cca 1000x za sekundu) |
.................... { |
.................... setup_timer_0(RTCC_INTERNAL|RTCC_DIV_4); // T0 z internich hodin 1/4 |
* |
018A: BSF 03.5 |
018B: MOVF 01,W |
018C: ANDLW C0 |
018D: IORLW 01 |
018E: MOVWF 01 |
.................... enable_interrupts(INT_RTCC); // generuj preruseni od T0 |
018F: BCF 03.5 |
0190: BSF 0B.5 |
.................... enable_interrupts(GLOBAL); // povol preruseni |
0191: MOVLW C0 |
0192: IORWF 0B,F |
.................... } |
0193: BCF 0A.3 |
0194: GOTO 2DF (RETURN) |
.................... |
.................... |
.................... // Globalni promenna pro mereni casu |
.................... // Nastavuje se procedurou TimeSet() |
.................... // Testuje se funkci TimeIf() |
.................... // Modifikuje se pri preruseni od casovace IntTo() |
.................... unsigned int16 TimeTime; |
.................... |
.................... |
.................... void TimerSet(unsigned int16 Time) |
.................... // Nastavi casovac na zadany pocet ms |
.................... // Test uplynuti casu se dela pomoci TimerIf() |
.................... { |
.................... // Nastav hodnotu |
.................... disable_interrupts(INT_RTCC); // nesmi prijit preruseni |
* |
0230: BCF 0B.5 |
.................... TimeTime=Time; // pri nastavovani hodnoty |
0231: MOVF 3F,W |
0232: MOVWF 2C |
0233: MOVF 3E,W |
0234: MOVWF 2B |
.................... enable_interrupts(INT_RTCC); // promenne (o delce vice nez 8 bitu) |
0235: BSF 0B.5 |
.................... } |
0236: RETLW 00 |
.................... |
.................... |
.................... int1 TimerIf() |
.................... // Vraci TRUE pokud casovac jiz dobehl |
.................... { |
.................... int1 Flag; // pomocna promenna |
.................... |
.................... // Otestuj casovac |
.................... disable_interrupts(INT_RTCC); // nesmi prijit preruseni |
0237: BCF 0B.5 |
.................... Flag=(TimeTime==0); // behem testu promenne |
0238: MOVF 2B,F |
0239: BTFSS 03.2 |
023A: GOTO 23E |
023B: MOVF 2C,F |
023C: BTFSC 03.2 |
023D: GOTO 240 |
023E: MOVLW 00 |
023F: GOTO 241 |
0240: MOVLW 01 |
0241: MOVWF 78 |
0242: BTFSC 78.0 |
0243: GOTO 246 |
0244: BCF 3E.0 |
0245: GOTO 247 |
0246: BSF 3E.0 |
.................... enable_interrupts(INT_RTCC); // ted uz muze |
0247: BSF 0B.5 |
.................... |
.................... // Navratova hodnota |
.................... return Flag; // TRUE znamena dobehl casovac |
0248: MOVLW 00 |
0249: BTFSC 3E.0 |
024A: MOVLW 01 |
024B: MOVWF 78 |
.................... } |
024C: RETLW 00 |
.................... |
.................... |
.................... // Globalni promenne pro akceleraci |
.................... // Nastavuje se metodou MotorStart() |
.................... // Pouziva se v obsluze preruseni IntT0() |
.................... unsigned int8 MotorTime; // aktualni casovac pro rozjezd |
.................... unsigned int8 MotorDelay; // spozdeni mezi razenim rychlosti |
.................... unsigned int8 MotorGear; // rychlostni stupen |
.................... |
.................... |
.................... void MotorStart(unsigned int8 Delay) |
.................... // Provede rizeny rozjezd motoru |
.................... // Parametrem je prodleva mezi razenim rychlosti v ms |
.................... { |
.................... disable_interrupts(INT_RTCC); |
024D: BCF 0B.5 |
.................... MotorGear=1; |
024E: MOVLW 01 |
024F: MOVWF 2F |
.................... MotorDelay=Delay; |
0250: MOVF 3E,W |
0251: MOVWF 2E |
.................... MotorTime=MotorDelay; |
0252: MOVF 2E,W |
0253: MOVWF 2D |
.................... enable_interrupts(INT_RTCC); |
0254: BSF 0B.5 |
0255: CLRF 29 |
0256: BTFSC 0B.7 |
0257: BSF 29.7 |
0258: BCF 0B.7 |
.................... |
.................... MotorPatternSet(1); |
0259: MOVLW 01 |
025A: MOVWF 45 |
025B: CALL 0AA |
025C: BTFSC 29.7 |
025D: BSF 0B.7 |
.................... } |
025E: RETLW 00 |
.................... |
.................... |
.................... #INT_TIMER0 |
.................... void IntT0() |
.................... // Preruseni od casovace cca 1000x za sekundu |
.................... { |
.................... // Odpocitavani casovace |
.................... if (TimeTime) TimeTime--; |
* |
00D3: MOVF 2B,W |
00D4: IORWF 2C,W |
00D5: BTFSC 03.2 |
00D6: GOTO 0DB |
00D7: MOVF 2B,W |
00D8: BTFSC 03.2 |
00D9: DECF 2C,F |
00DA: DECF 2B,F |
.................... |
.................... // Obsluha akcelerace |
.................... if (MotorTime) MotorTime--; // dekrementuj casovac rozjezdu |
00DB: MOVF 2D,F |
00DC: BTFSS 03.2 |
00DD: DECF 2D,F |
.................... if ((MotorGear>0) && (MotorGear<8) && (!MotorTime)) // dalsi rychlostni stupen |
00DE: MOVF 2F,F |
00DF: BTFSC 03.2 |
00E0: GOTO 0EE |
00E1: MOVF 2F,W |
00E2: SUBLW 07 |
00E3: BTFSS 03.0 |
00E4: GOTO 0EE |
00E5: MOVF 2D,F |
00E6: BTFSS 03.2 |
00E7: GOTO 0EE |
.................... { |
.................... MotorTime=MotorDelay; // znovu nastav casovac |
00E8: MOVF 2E,W |
00E9: MOVWF 2D |
.................... MotorGear++; // dalsi rychlost |
00EA: INCF 2F,F |
.................... MotorPatternSet(MotorGear); // nastav rychlost |
00EB: MOVF 2F,W |
00EC: MOVWF 45 |
00ED: CALL 0AA |
.................... } |
.................... } |
.................... |
.................... |
.................... // Cteni dat z AD prevodniku, zadava se cislo kanalu |
00EE: BCF 0B.2 |
00EF: BCF 0A.3 |
00F0: GOTO 026 |
.................... int8 ReadAD(int8 Ch) |
.................... { |
.................... // Pokud merim Vref zapnu si jeho napajeni |
.................... if (Ch==4) output_high(REFPOWER); |
* |
0195: MOVF 3E,W |
0196: SUBLW 04 |
0197: BTFSS 03.2 |
0198: GOTO 19D |
0199: BSF 03.5 |
019A: BCF 06.1 |
019B: BCF 03.5 |
019C: BSF 06.1 |
.................... |
.................... // Inicializace a cislo kanalu |
.................... ADCON1=0x30; // Vref+-, bez deleni hodin, Left Justify |
019D: MOVLW 30 |
019E: BSF 03.5 |
019F: MOVWF 1F |
.................... ADCON0=0x41+(Ch<<3); // on, Tosc/8, cislo kanalu |
01A0: BCF 03.5 |
01A1: RLF 3E,W |
01A2: MOVWF 77 |
01A3: RLF 77,F |
01A4: RLF 77,F |
01A5: MOVLW F8 |
01A6: ANDWF 77,F |
01A7: MOVF 77,W |
01A8: ADDLW 41 |
01A9: MOVWF 1F |
.................... |
.................... // Mereni |
.................... delay_us(50); // doba na prepnuti kanalu |
01AA: CLRWDT |
01AB: MOVLW 10 |
01AC: MOVWF 77 |
01AD: DECFSZ 77,F |
01AE: GOTO 1AD |
01AF: NOP |
01B0: NOP |
.................... ADCON0 |= 4; // start prevodu |
01B1: BSF 1F.2 |
.................... delay_us(50); // doba na prevod |
01B2: CLRWDT |
01B3: MOVLW 10 |
01B4: MOVWF 77 |
01B5: DECFSZ 77,F |
01B6: GOTO 1B5 |
01B7: NOP |
01B8: NOP |
.................... |
.................... // Vypnu napajeni Vref (vzdycky) |
.................... output_low(REFPOWER); |
01B9: BSF 03.5 |
01BA: BCF 06.1 |
01BB: BCF 03.5 |
01BC: BCF 06.1 |
.................... |
.................... // Navrat hodnoty |
.................... return ADRESH; |
01BD: MOVF 1E,W |
01BE: MOVWF 78 |
.................... } |
01BF: RETLW 00 |
.................... |
.................... |
.................... void main() |
.................... { |
* |
025F: CLRF 04 |
0260: MOVLW 1F |
0261: ANDWF 03,F |
0262: BSF 03.5 |
0263: BCF 1F.4 |
0264: BCF 1F.5 |
0265: MOVF 1B,W |
0266: ANDLW 80 |
0267: MOVWF 1B |
0268: MOVLW 07 |
0269: MOVWF 1C |
026A: MOVF 1C,W |
026B: BCF 03.5 |
026C: BCF 0D.6 |
.................... unsigned int8 Debug; // Promenna pro rezim cinnosti (stav prepinacu) |
.................... unsigned int8 i; |
.................... |
.................... // Hodiny |
.................... OSCCON = 0x62; // 4 MHz interni RC oscilator |
026D: MOVLW 62 |
026E: BSF 03.5 |
026F: MOVWF 0F |
.................... |
.................... // Digitalni vystupy |
.................... output_low(PWM); // PWM vystup |
0270: BCF 06.3 |
0271: BCF 03.5 |
0272: BCF 06.3 |
.................... output_low(MOTOR); // Proud do motoru |
0273: BSF 03.5 |
0274: BCF 06.2 |
0275: BCF 03.5 |
0276: BCF 06.2 |
.................... output_low(REFPOWER); // Napajeni Vref |
0277: BSF 03.5 |
0278: BCF 06.1 |
0279: BCF 03.5 |
027A: BCF 06.1 |
.................... output_low(LED); // LED dioda nesviti |
027B: BSF 03.5 |
027C: BCF 06.4 |
027D: BCF 03.5 |
027E: BCF 06.4 |
.................... port_b_pullups(TRUE); // Zbyvajici vyvody portu B |
027F: BSF 03.5 |
0280: BCF 01.7 |
.................... |
.................... // Watch Dog |
.................... PSA=0; // preddelic prirazen casovaci |
0281: BCF 01.3 |
.................... WDTCON=0x0E; // Watch Dog cca 130ms |
0282: MOVLW 0E |
0283: BCF 03.5 |
0284: BSF 03.6 |
0285: MOVWF 05 |
.................... |
.................... // Analogove vstupy |
.................... ANSEL = 0x1F; // AN0 az AN4 |
0286: MOVLW 1F |
0287: BSF 03.5 |
0288: BCF 03.6 |
0289: MOVWF 1B |
.................... |
.................... // nastaveni RS232 |
.................... InitRS232(); // inicializace HW RS232 (nutno pockat cca 10ms) |
028A: BCF 03.5 |
028B: GOTO 0F1 |
.................... |
.................... // Pipnuti (a cekani) |
.................... for (i=1;i<30;i++) // pocet 1/2 period |
028C: MOVLW 01 |
028D: MOVWF 31 |
028E: MOVF 31,W |
028F: SUBLW 1D |
0290: BTFSS 03.0 |
0291: GOTO 2AE |
.................... { |
.................... int1 beep; // stavova promenna pro pipak |
.................... |
.................... output_bit(BEEP0,beep); |
0292: BTFSC 32.0 |
0293: GOTO 296 |
0294: BCF 05.6 |
0295: GOTO 297 |
0296: BSF 05.6 |
0297: BSF 03.5 |
0298: BCF 05.6 |
.................... beep=~beep; |
0299: MOVLW 01 |
029A: BCF 03.5 |
029B: XORWF 32,F |
.................... output_bit(BEEP1,beep); |
029C: BTFSC 32.0 |
029D: GOTO 2A0 |
029E: BCF 05.7 |
029F: GOTO 2A1 |
02A0: BSF 05.7 |
02A1: BSF 03.5 |
02A2: BCF 05.7 |
.................... delay_us(1000); |
02A3: CLRWDT |
02A4: MOVLW 09 |
02A5: BCF 03.5 |
02A6: MOVWF 3E |
02A7: MOVLW 6C |
02A8: MOVWF 3F |
02A9: GOTO 0FD |
02AA: DECFSZ 3E,F |
02AB: GOTO 2A7 |
.................... } |
02AC: INCF 31,F |
02AD: GOTO 28E |
.................... |
.................... // Rozhodnuti o rezimu cinnosti (cteni stavu prepinacu) |
.................... Debug=0; |
02AE: CLRF 30 |
.................... if (~input(SW0)) Debug|=1; // precti bit 0 |
02AF: BSF 03.5 |
02B0: BSF 06.7 |
02B1: BCF 03.5 |
02B2: BTFSS 06.7 |
02B3: BSF 30.0 |
.................... if (~input(SW1)) Debug|=2; // precti bit 1 |
02B4: BSF 03.5 |
02B5: BSF 06.6 |
02B6: BCF 03.5 |
02B7: BTFSS 06.6 |
02B8: BSF 30.1 |
.................... output_low(SW0); // nastav L aby se snizila spotreba |
02B9: BSF 03.5 |
02BA: BCF 06.7 |
02BB: BCF 03.5 |
02BC: BCF 06.7 |
.................... output_low(SW1); // na obou vstupech |
02BD: BSF 03.5 |
02BE: BCF 06.6 |
02BF: BCF 03.5 |
02C0: BCF 06.6 |
.................... |
.................... // Zobrazeni rezimu (na ladici seriovy vystup) |
.................... printf(Putc,"\fMode:%d",Debug); |
02C1: CLRF 3E |
02C2: MOVF 3E,W |
02C3: CALL 049 |
02C4: INCF 3E,F |
02C5: MOVWF 77 |
02C6: MOVWF 42 |
02C7: CALL 111 |
02C8: MOVLW 06 |
02C9: SUBWF 3E,W |
02CA: BTFSS 03.2 |
02CB: GOTO 2C2 |
02CC: MOVF 30,W |
02CD: MOVWF 3F |
02CE: MOVLW 18 |
02CF: MOVWF 40 |
02D0: GOTO 12F |
.................... |
.................... // Inicializace PWM |
.................... PR2 = 0x1F; // perioda PWM casovace |
02D1: MOVLW 1F |
02D2: BSF 03.5 |
02D3: MOVWF 12 |
.................... T2CON = 0x04; // povoleni casovace T2 bez preddelicu a postdelicu |
02D4: MOVLW 04 |
02D5: BCF 03.5 |
02D6: MOVWF 12 |
.................... CCP1CON = 0x0C; // PWM mode, lsb bity nulove |
02D7: MOVLW 0C |
02D8: MOVWF 17 |
.................... CCPR1L = 0; // na zacatku nulova data |
02D9: CLRF 15 |
.................... output_low(PWM); // PWM vystup |
02DA: BSF 03.5 |
02DB: BCF 06.3 |
02DC: BCF 03.5 |
02DD: BCF 06.3 |
.................... |
.................... // Inicializace casovace |
.................... InitT0(); // nastav casovac na cca 1ms |
02DE: GOTO 18A |
.................... |
.................... // ALG=1 Test menice PWM a rozjezdoveho PWM |
.................... // ======================================== |
.................... // P1 nastavuje primo stridu hlavniho PWM menice |
.................... // P2 nastavuje rychlostni stupen spinace motoru (rychlostni stupne 0-8) |
.................... // Trvale nacita P1 a P2 a nastavuje podle nich akcni hodnoty menicu |
.................... if (Debug==1) |
02DF: DECFSZ 30,W |
02E0: GOTO 31A |
.................... { |
.................... unsigned int8 Data1; // poteniometr P1 = PWM |
.................... unsigned int8 Data2; // poteniometr P2 = Rozjezd |
.................... |
.................... while (1) |
.................... { |
.................... // watch dog |
.................... restart_wdt(); |
02E1: CLRWDT |
.................... |
.................... // mereni vstupu |
.................... Data1=ReadAD(0); // nacti parametr pro PWM |
02E2: CLRF 3E |
02E3: CALL 195 |
02E4: MOVF 78,W |
02E5: MOVWF 33 |
.................... Data1>>=2; // redukuj rozsah na 0 az 63 |
02E6: RRF 33,F |
02E7: RRF 33,F |
02E8: MOVLW 3F |
02E9: ANDWF 33,F |
.................... Data2=ReadAD(1); // nacti parametr pro rozjezd |
02EA: MOVLW 01 |
02EB: MOVWF 3E |
02EC: CALL 195 |
02ED: MOVF 78,W |
02EE: MOVWF 34 |
.................... Data2>>=4; // redukuj rozsah na 0 az 15 |
02EF: SWAPF 34,F |
02F0: MOVLW 0F |
02F1: ANDWF 34,F |
.................... |
.................... // zobrazeni |
.................... printf(Putc,"\nPWM:%03u RUN:%03u",Data1,Data2); |
02F2: CLRF 3E |
02F3: MOVF 3E,W |
02F4: CALL 056 |
02F5: INCF 3E,F |
02F6: MOVWF 77 |
02F7: MOVWF 42 |
02F8: CALL 111 |
02F9: MOVLW 05 |
02FA: SUBWF 3E,W |
02FB: BTFSS 03.2 |
02FC: GOTO 2F3 |
02FD: MOVF 33,W |
02FE: MOVWF 40 |
02FF: CLRF 41 |
0300: CALL 1C0 |
0301: MOVLW 09 |
0302: MOVWF 3F |
0303: MOVF 3F,W |
0304: CALL 056 |
0305: INCF 3F,F |
0306: MOVWF 77 |
0307: MOVWF 42 |
0308: CALL 111 |
0309: MOVLW 0E |
030A: SUBWF 3F,W |
030B: BTFSS 03.2 |
030C: GOTO 303 |
030D: MOVF 34,W |
030E: MOVWF 40 |
030F: CLRF 41 |
0310: CALL 1C0 |
.................... delay_ms(20); |
0311: MOVLW 14 |
0312: MOVWF 3E |
0313: CALL 20D |
.................... |
.................... // nastaveni parametru PWM |
.................... CCPR1L = Data1; |
0314: MOVF 33,W |
0315: MOVWF 15 |
.................... |
.................... // nastaveni parametru RUN |
.................... MotorSet(Data2); |
0316: MOVF 34,W |
0317: MOVWF 3E |
0318: CALL 224 |
.................... } |
0319: GOTO 2E1 |
.................... } |
.................... |
.................... // ALG=2 Testovani rozjezdu |
.................... // ======================== |
.................... // P2 nastavuje cas mezi stupni razeni pro rozjezd v ms |
.................... // Po resetu 2 sekundy pocka, 2 sekundy jede a nakonec zastavi motor |
.................... if (Debug==2) |
031A: MOVF 30,W |
031B: SUBLW 02 |
031C: BTFSS 03.2 |
031D: GOTO 36B |
.................... { |
.................... int8 Data; |
.................... int8 Start; |
.................... |
.................... Start=0; // uvodni stav |
031E: CLRF 36 |
.................... while(1) |
.................... { |
.................... // Nacti a zobraz parametr |
.................... Data=ReadAD(1); // potenciometr P2 = rozjezd |
031F: MOVLW 01 |
0320: MOVWF 3E |
0321: CALL 195 |
0322: MOVF 78,W |
0323: MOVWF 35 |
.................... printf(Putc,"\nRUN:%3ums ",Data); // zobraz |
0324: CLRF 3E |
0325: MOVF 3E,W |
0326: CALL 06D |
0327: INCF 3E,F |
0328: MOVWF 77 |
0329: MOVWF 42 |
032A: CALL 111 |
032B: MOVLW 05 |
032C: SUBWF 3E,W |
032D: BTFSS 03.2 |
032E: GOTO 325 |
032F: MOVF 35,W |
0330: MOVWF 40 |
0331: MOVLW 10 |
0332: MOVWF 41 |
0333: CALL 1C0 |
0334: MOVLW 6D |
0335: MOVWF 42 |
0336: CALL 111 |
0337: MOVLW 73 |
0338: MOVWF 42 |
0339: CALL 111 |
033A: MOVLW 20 |
033B: MOVWF 42 |
033C: CALL 111 |
.................... delay_ms(10); // prodleva pro terminal |
033D: MOVLW 0A |
033E: MOVWF 3E |
033F: CALL 20D |
.................... |
.................... // Uvodni pauza |
.................... if (Start==0) // spousti se 1x na zacatku |
0340: MOVF 36,F |
0341: BTFSS 03.2 |
0342: GOTO 349 |
.................... { |
.................... Start++; // dalsi stav je cekani |
0343: INCF 36,F |
.................... TimerSet(2000); // na dokonceni uvodni prodlevy |
0344: MOVLW 07 |
0345: MOVWF 3F |
0346: MOVLW D0 |
0347: MOVWF 3E |
0348: CALL 230 |
.................... } |
.................... |
.................... // Rozjezd |
.................... if ((Start==1) && TimerIf()) |
0349: DECFSZ 36,W |
034A: GOTO 35B |
034B: CALL 237 |
034C: MOVF 78,F |
034D: BTFSC 03.2 |
034E: GOTO 35B |
.................... { |
.................... Start++; |
034F: INCF 36,F |
.................... printf(Putc,"R"); |
0350: MOVLW 52 |
0351: MOVWF 42 |
0352: CALL 111 |
.................... MotorStart(Data); // rozjezd s nastavenim prodlevy |
0353: MOVF 35,W |
0354: MOVWF 3E |
0355: CALL 24D |
.................... |
.................... TimerSet(2000); // nastav celkovy cas jizdy |
0356: MOVLW 07 |
0357: MOVWF 3F |
0358: MOVLW D0 |
0359: MOVWF 3E |
035A: CALL 230 |
.................... } |
.................... |
.................... // Zastaveni |
.................... if ((Start==2) && TimerIf()) |
035B: MOVF 36,W |
035C: SUBLW 02 |
035D: BTFSS 03.2 |
035E: GOTO 369 |
035F: CALL 237 |
0360: MOVF 78,F |
0361: BTFSC 03.2 |
0362: GOTO 369 |
.................... { |
.................... Start++; |
0363: INCF 36,F |
.................... printf(Putc,"S"); |
0364: MOVLW 53 |
0365: MOVWF 42 |
0366: CALL 111 |
.................... MotorSet(0); // pokud dobehl casovac zastav motor |
0367: CLRF 3E |
0368: CALL 224 |
.................... } |
.................... |
.................... // watch dog |
.................... restart_wdt(); |
0369: CLRWDT |
.................... } |
036A: GOTO 31F |
.................... } |
.................... |
.................... // ALG=3 Test nabijeciho algoritmu |
.................... // =============================== |
.................... // P1 nastavuje pozadovane napeti na clancich (meri se Vref vuci napajeni) |
.................... // Nacitani P1 probiha stale dokola, pro rizeni je pouzit stejny |
.................... // algoritmus jako pro standardni jizdu |
.................... if (Debug==3) |
036B: MOVF 30,W |
036C: SUBLW 03 |
036D: BTFSS 03.2 |
036E: GOTO 3C2 |
.................... { |
.................... unsigned int8 PwmOut; // akcni hodnota pro PWM |
.................... unsigned int8 Req; // pozadovana hodnota z P1 |
.................... unsigned int8 Vref; // merena hodnota vref |
.................... |
.................... // Inicializace stavove promenne |
.................... PwmOut=0; |
036F: CLRF 37 |
.................... |
.................... // Hlavni smycka |
.................... while (1) |
.................... { |
.................... // watch dog |
.................... restart_wdt(); |
0370: CLRWDT |
.................... |
.................... // pozadovana hodnota (potenciometr P1) |
.................... Req=ReadAD(0); |
0371: CLRF 3E |
0372: CALL 195 |
0373: MOVF 78,W |
0374: MOVWF 38 |
.................... Req=50+(ReadAD(0)>>1); // 50 az 177 |
0375: CLRF 3E |
0376: CALL 195 |
0377: BCF 03.0 |
0378: RRF 78,W |
0379: ADDLW 32 |
037A: MOVWF 38 |
.................... |
.................... // napeti na napajeni (vref) |
.................... Vref=ReadAD(4); |
037B: MOVLW 04 |
037C: MOVWF 3E |
037D: CALL 195 |
037E: MOVF 78,W |
037F: MOVWF 39 |
.................... |
.................... // ricici algoritmus |
.................... if ((Vref<Req) &&(PwmOut<30)) PwmOut++; |
0380: MOVF 38,W |
0381: SUBWF 39,W |
0382: BTFSC 03.0 |
0383: GOTO 388 |
0384: MOVF 37,W |
0385: SUBLW 1D |
0386: BTFSC 03.0 |
0387: INCF 37,F |
.................... if ((Vref>=Req)&&(PwmOut> 0)) PwmOut--; |
0388: MOVF 38,W |
0389: SUBWF 39,W |
038A: BTFSS 03.0 |
038B: GOTO 38F |
038C: MOVF 37,F |
038D: BTFSS 03.2 |
038E: DECF 37,F |
.................... Vref+=10; |
038F: MOVLW 0A |
0390: ADDWF 39,F |
.................... if ((Vref<(Req))&&(PwmOut<30)) PwmOut++; // urychleni nabehu |
0391: MOVF 38,W |
0392: SUBWF 39,W |
0393: BTFSC 03.0 |
0394: GOTO 399 |
0395: MOVF 37,W |
0396: SUBLW 1D |
0397: BTFSC 03.0 |
0398: INCF 37,F |
.................... |
.................... // nastaveni parametru PWM |
.................... if (PwmOut>24) PwmOut=24; // saturace |
0399: MOVF 37,W |
039A: SUBLW 18 |
039B: BTFSC 03.0 |
039C: GOTO 39F |
039D: MOVLW 18 |
039E: MOVWF 37 |
.................... CCPR1L = PwmOut; // pouziti vystupu |
039F: MOVF 37,W |
03A0: MOVWF 15 |
.................... |
.................... // zobrazeni |
.................... printf(Putc,"\nALG:%03u %03u %03u",Req,Vref,PwmOut); |
03A1: CLRF 3E |
03A2: MOVF 3E,W |
03A3: CALL 07D |
03A4: INCF 3E,F |
03A5: MOVWF 77 |
03A6: MOVWF 42 |
03A7: CALL 111 |
03A8: MOVLW 05 |
03A9: SUBWF 3E,W |
03AA: BTFSS 03.2 |
03AB: GOTO 3A2 |
03AC: MOVF 38,W |
03AD: MOVWF 40 |
03AE: CLRF 41 |
03AF: CALL 1C0 |
03B0: MOVLW 20 |
03B1: MOVWF 42 |
03B2: CALL 111 |
03B3: MOVF 39,W |
03B4: MOVWF 40 |
03B5: CLRF 41 |
03B6: CALL 1C0 |
03B7: MOVLW 20 |
03B8: MOVWF 42 |
03B9: CALL 111 |
03BA: MOVF 37,W |
03BB: MOVWF 40 |
03BC: CLRF 41 |
03BD: CALL 1C0 |
.................... delay_ms(10); |
03BE: MOVLW 0A |
03BF: MOVWF 3E |
03C0: CALL 20D |
.................... } |
03C1: GOTO 370 |
.................... } |
.................... |
.................... // ALG=0 Standardni jizda |
.................... // ====================== |
.................... // P1 nastavuje pozadovane napeti na clancich |
.................... // P2 nastavuje prodlevu razeni pri rozjezdu, nacita se jen 1x na zacatku |
.................... // Po resetu cca 14.5 sekundy akumuluje do kondenzatoru a pak provede |
.................... // rozjezd motoru. Po celou dobu probiha rizeni zateze slunecnich clanku. |
.................... // Parametry P1 a P2 jsou chapany stejne jako v algoritmech 2 a 3. |
.................... if (Debug==0) |
03C2: MOVF 30,F |
03C3: BTFSS 03.2 |
03C4: GOTO 449 |
.................... { |
.................... unsigned int8 PwmOut; // akcni hodnota pro PWM |
.................... unsigned int8 Req; // pozadovana hodnota z P1 |
.................... unsigned int8 Vref; // merena hodnota vref |
.................... int8 Delay; // pozadovana honota prodlevy razeni z P2 |
.................... int1 Run; |
.................... |
.................... // Nacti parametr rozjezdu |
.................... Delay=ReadAD(1); // potenciometr P2 = rozjezd |
03C5: MOVLW 01 |
03C6: MOVWF 3E |
03C7: CALL 195 |
03C8: MOVF 78,W |
03C9: MOVWF 3D |
.................... printf(Putc," RUN:%3ums ",Delay); // zobraz |
03CA: CLRF 3E |
03CB: MOVF 3E,W |
03CC: CALL 095 |
03CD: INCF 3E,F |
03CE: MOVWF 77 |
03CF: MOVWF 42 |
03D0: CALL 111 |
03D1: MOVLW 05 |
03D2: SUBWF 3E,W |
03D3: BTFSS 03.2 |
03D4: GOTO 3CB |
03D5: MOVF 3D,W |
03D6: MOVWF 40 |
03D7: MOVLW 10 |
03D8: MOVWF 41 |
03D9: CALL 1C0 |
03DA: MOVLW 6D |
03DB: MOVWF 42 |
03DC: CALL 111 |
03DD: MOVLW 73 |
03DE: MOVWF 42 |
03DF: CALL 111 |
03E0: MOVLW 20 |
03E1: MOVWF 42 |
03E2: CALL 111 |
.................... delay_ms(10); // prodleva pro terminal |
03E3: MOVLW 0A |
03E4: MOVWF 3E |
03E5: CALL 20D |
.................... |
.................... // Inicializace stavove promenne |
.................... PwmOut=0; |
03E6: CLRF 3A |
.................... TimerSet(14000); // casovani startu |
03E7: MOVLW 36 |
03E8: MOVWF 3F |
03E9: MOVLW B0 |
03EA: MOVWF 3E |
03EB: CALL 230 |
.................... Run=1; |
03EC: BSF 32.1 |
.................... |
.................... // Hlavni smycka |
.................... while (1) |
.................... { |
.................... // watch dog |
.................... restart_wdt(); |
03ED: CLRWDT |
.................... |
.................... // pozadovana hodnota (potenciometr P1) |
.................... Req=ReadAD(0); |
03EE: CLRF 3E |
03EF: CALL 195 |
03F0: MOVF 78,W |
03F1: MOVWF 3B |
.................... Req=50+(ReadAD(0)>>1); // 50 az 177 |
03F2: CLRF 3E |
03F3: CALL 195 |
03F4: BCF 03.0 |
03F5: RRF 78,W |
03F6: ADDLW 32 |
03F7: MOVWF 3B |
.................... |
.................... // napeti na napajeni (vref) |
.................... Vref=ReadAD(4); |
03F8: MOVLW 04 |
03F9: MOVWF 3E |
03FA: CALL 195 |
03FB: MOVF 78,W |
03FC: MOVWF 3C |
.................... |
.................... // ricici algoritmus |
.................... if ((Vref<Req) &&(PwmOut<30)) PwmOut++; |
03FD: MOVF 3B,W |
03FE: SUBWF 3C,W |
03FF: BTFSC 03.0 |
0400: GOTO 405 |
0401: MOVF 3A,W |
0402: SUBLW 1D |
0403: BTFSC 03.0 |
0404: INCF 3A,F |
.................... if ((Vref>=Req)&&(PwmOut> 0)) PwmOut--; |
0405: MOVF 3B,W |
0406: SUBWF 3C,W |
0407: BTFSS 03.0 |
0408: GOTO 40C |
0409: MOVF 3A,F |
040A: BTFSS 03.2 |
040B: DECF 3A,F |
.................... Vref+=10; |
040C: MOVLW 0A |
040D: ADDWF 3C,F |
.................... if ((Vref<(Req))&&(PwmOut<30)) PwmOut++; // urychleni nabehu |
040E: MOVF 3B,W |
040F: SUBWF 3C,W |
0410: BTFSC 03.0 |
0411: GOTO 416 |
0412: MOVF 3A,W |
0413: SUBLW 1D |
0414: BTFSC 03.0 |
0415: INCF 3A,F |
.................... |
.................... // nastaveni parametru PWM |
.................... if (PwmOut>24) PwmOut=24; // saturace |
0416: MOVF 3A,W |
0417: SUBLW 18 |
0418: BTFSC 03.0 |
0419: GOTO 41C |
041A: MOVLW 18 |
041B: MOVWF 3A |
.................... CCPR1L = PwmOut; // pouziti vystupu |
041C: MOVF 3A,W |
041D: MOVWF 15 |
.................... |
.................... // zobrazeni |
.................... printf(Putc,"\nALG:%03u %03u %03u",Req,Vref,PwmOut); |
041E: CLRF 3E |
041F: MOVF 3E,W |
0420: CALL 07D |
0421: INCF 3E,F |
0422: MOVWF 77 |
0423: MOVWF 42 |
0424: CALL 111 |
0425: MOVLW 05 |
0426: SUBWF 3E,W |
0427: BTFSS 03.2 |
0428: GOTO 41F |
0429: MOVF 3B,W |
042A: MOVWF 40 |
042B: CLRF 41 |
042C: CALL 1C0 |
042D: MOVLW 20 |
042E: MOVWF 42 |
042F: CALL 111 |
0430: MOVF 3C,W |
0431: MOVWF 40 |
0432: CLRF 41 |
0433: CALL 1C0 |
0434: MOVLW 20 |
0435: MOVWF 42 |
0436: CALL 111 |
0437: MOVF 3A,W |
0438: MOVWF 40 |
0439: CLRF 41 |
043A: CALL 1C0 |
.................... delay_ms(10); |
043B: MOVLW 0A |
043C: MOVWF 3E |
043D: CALL 20D |
.................... |
.................... // rozjezd |
.................... if (TimerIf()&&Run) |
043E: CALL 237 |
043F: MOVF 78,F |
0440: BTFSC 03.2 |
0441: GOTO 448 |
0442: BTFSS 32.1 |
0443: GOTO 448 |
.................... { |
.................... Run=0; |
0444: BCF 32.1 |
.................... MotorStart(Delay); // prodleva razeni z P2 |
0445: MOVF 3D,W |
0446: MOVWF 3E |
0447: CALL 24D |
.................... } |
.................... } |
0448: GOTO 3ED |
.................... } |
.................... } |
.................... |
0449: SLEEP |
|
Configuration Fuses: |
Word 1: 2F3C WDT NOPUT MCLR NOBROWNOUT NOLVP NOCPD NOWRT NODEBUG CCPB3 NOPROTECT INTRC_IO |
Word 2: 3FFF FCMEN IESO |