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#include "reflow.h" |
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#include "process.h" |
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#include <math.h> |
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// nastaveni teplot a casu |
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#define TEPLOTA_PREDEHREVU 120 |
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#define DOBA_PREDEHREVU 60 |
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#define TEPLOTA_VRCHOLU 210 |
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#define DOBA_VRCHOLU 5 |
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// CPU IO rozhrani |
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#define LCD_RS PIN_C1 // rizeni registru LCD displeje |
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#define LCD_E PIN_C2 // enable LCD displeje |
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#define LCD_DATA_LSB PIN_D0 // data LCD |
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#include "lcd.c" |
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#define TL1 PIN_B3 // tlacitko S1 |
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#define TL2 PIN_B2 // tlacitko S2 |
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#define TL3 PIN_B1 // tlacitko S3 |
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#define TL4 PIN_B0 // tlacitko S4 |
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#define POWER_T3 PIN_C4 // ovladani optotriaku T3 |
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#define POWER_T4 PIN_C5 // ovladani optotriaku T4 |
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#define POWER_T5 PIN_C6 // ovladani optotriaku T5 |
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#define ADC_PIN PIN_A0 //info, nelze menit - pin pouzit jako input analog |
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#define ADC_PIN_NC PIN_A1 //info, nelze menit - pin pouzit jako input analog |
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#define REF_PIN PIN_A3 //info, nelze menit - pin pouzit jako input reference 2.5V |
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// interni |
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#define PowerOn() output_low(POWER_T4);output_low(POWER_T5) |
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#define PowerOff() output_high(POWER_T4);output_high(POWER_T5) |
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// globalni promenne |
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struct time |
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{ |
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volatile signed int8 hod; |
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volatile signed int8 min; |
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volatile signed int8 sec; |
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}cas; |
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unsigned int top_heat_power=0; // range 0-200% nad 100% je ale teleso jiz pretizene |
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unsigned int bottom_heat_power=0; // contains heating power range 0-100% |
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unsigned int period; |
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float temp_last=0; |
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float temp_slope=0; |
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void GeneralCpuInit() // inicializace |
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{ |
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output_high(POWER_T4); |
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output_high(POWER_T5); |
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port_b_pullups(true); |
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setup_psp(PSP_DISABLED); |
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setup_spi(SPI_SS_DISABLED); |
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setup_timer_0(RTCC_INTERNAL|RTCC_DIV_64); //nepouzit |
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setup_timer_1(T1_INTERNAL|T1_DIV_BY_1); // rizeni |
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setup_timer_2(T2_DIV_BY_16,249,10); //rtc 40ms |
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setup_comparator(NC_NC_NC_NC); |
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setup_vref(FALSE); |
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enable_interrupts(GLOBAL); |
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enable_interrupts(INT_TIMER2); |
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enable_interrupts(INT_TIMER0); |
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setup_adc_ports(AN0_AN1_VSS_VREF); //A0 vstup cidla, A1 nepozit, A3 - ref. 2.5V |
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setup_adc(ADC_CLOCK_DIV_8); |
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SET_ADC_CHANNEL(0); //AN0, PIN_A0 |
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} |
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void heat_failure() // exception in case of heating fail |
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{ |
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top_heat_power=0; |
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bottom_heat_power=0; |
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lcd_gotoxy(1,2); |
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printf(lcd_putc,"HEATING FAILURE!"); |
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while(true); |
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} |
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unsigned int16 adc(void) // adc read and filtering |
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{ |
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unsigned int16 analog; |
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unsigned int8 a; |
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analog = 0; |
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for (a=0;a<32;a++) |
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{ |
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analog += read_adc(); |
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delay_us(50); |
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} |
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return (analog >> 5 ); // prumer = analog/32 |
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} |
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float teplota(void) // temperature measuring |
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{ |
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return (0.674201*adc() - 294.35); // temperature calculaton (linear aproximation) |
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} |
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void top_heating() |
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{ |
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if (period < top_heat_power){ |
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output_low(POWER_T4); |
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output_low(POWER_T5); |
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} |
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else{ |
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output_high(POWER_T4); |
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output_high(POWER_T5); |
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} |
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} |
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void bottom_heating() |
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{ |
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if (period < 2*bottom_heat_power){ |
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output_low(POWER_T3); |
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} |
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else{ |
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output_high(POWER_T3); |
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} |
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} |
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#int_TIMER0 |
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void heating_control() //rizeni topnych teles pri preteceni casovace |
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{ |
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float temp; |
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top_heating(); |
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bottom_heating(); |
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if ((period == 100) || (period == 0)) |
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{ |
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temp=teplota(); |
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temp_slope=(temp - temp_last) /(100.0*256.0/62500.0); // vypocet strmosti narustu teploty ve stupnich/s |
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temp_last = temp; |
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printf("%02u %02u %3.3f \r\n",cas.min,cas.sec,temp); //vypis pro zaznam profilu |
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} |
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if (period < 200) period++; |
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else period=0; |
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} |
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#int_TIMER2 |
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void Rtc(void) //40ms |
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{ |
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static unsigned int8 ms40=0; |
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struct time* time; |
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time=&cas; |
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if ( ++ms40 < 25) return; |
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ms40=0; |
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if (++(time->sec) >= 60) |
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{ |
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time->sec=0; //1min |
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if (++(time->min) >= 60) |
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{ |
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time->min = 0; //1hod |
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(time->hod)++; |
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} |
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} |
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} |
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void slope_control(float ramp, unsigned int balance) // P proporcionalni rizeni narustu teploty predpoklada periodicke volani 1x/s |
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{ |
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float slope_deviation; |
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slope_deviation = temp_slope - ramp; // vypocet strmosti a odchylky od pozadovane strmosti |
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if(slope_deviation < 0) |
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{ |
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top_heat_power= 67 + balance; |
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bottom_heat_power= 100; |
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} |
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else{ |
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top_heat_power=0; |
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bottom_heat_power=0; |
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} |
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} |
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void level_control(float level) // P proporcionalni rizeni teploty |
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{ |
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if (teplota() > level) |
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{ |
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top_heat_power=0; |
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bottom_heat_power=0; |
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} |
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else |
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{ |
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top_heat_power=70; |
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bottom_heat_power=80; |
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} |
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} |
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void nullcas(struct time* time) |
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{ |
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disable_interrupts(INT_TIMER2); |
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time->sec=0; |
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time->hod=0; |
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time->min=0; |
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enable_interrupts(INT_TIMER2); |
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} |
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void reflow_solder() |
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{ |
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struct time process_time; |
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// ------------------- PREHEAT --------------------- |
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nullcas(&cas); |
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lcd_gotoxy(1,2); |
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printf(lcd_putc,"PREHEAT"); |
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printf("#PREHEAT\r\n"); |
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do { |
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slope_control(PREHEAT_SLOPE, 0); // hlida strmost predehrevu |
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lcd_gotoxy(1,1); |
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printf(lcd_putc,"%3.1f\21C ",teplota()); |
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lcd_gotoxy(12,1); |
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printf(lcd_putc,"%02u:%02u",cas.min,cas.sec); |
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lcd_gotoxy(10,2); |
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printf(lcd_putc,"%1.1f\21C/s ",temp_slope); |
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delay_ms(200); |
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if (cas.min>3) heat_failure(); |
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} |
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while (teplota() < SOAK_TEMP); |
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// ----------- SOAK --------------- |
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nullcas(&cas); |
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process_time.min = SOAK_TIME/60; |
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process_time.sec = SOAK_TIME - process_time.min*60; |
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lcd_clr(); |
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lcd_gotoxy(1,2); |
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printf(lcd_putc,"SOAK "); |
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printf(lcd_putc,"#SOAK\r\n"); |
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while (process_time.sec!=0 || process_time.min!=0) |
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{ |
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level_control(SOAK_TEMP); |
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lcd_gotoxy(1,1); |
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printf(lcd_putc,"%3.1f\21C ",teplota()); |
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if ((process_time.sec = process_time.sec - cas.sec)<0) process_time.sec=59; |
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process_time.min = (SOAK_TIME - cas.min*60 - cas.sec)/60; |
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process_time.sec = (SOAK_TIME - cas.min*60 - cas.sec) - process_time.min*60; |
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lcd_gotoxy(9,1); |
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printf(lcd_putc,"%02u:%02u", process_time.min, process_time.sec); |
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delay_ms(200); |
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} |
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//----------------- solder ---------------------------- |
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nullcas(&cas); |
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lcd_clr(); |
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lcd_gotoxy(1,2); |
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printf(lcd_putc,"SOLDER"); |
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printf("#SOLDER\r\n"); |
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do { |
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slope_control(SOLDER_SLOPE, 10); // hlida strmost predehrevu |
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lcd_gotoxy(1,1); |
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printf(lcd_putc,"%3.1f\21C ",teplota()); |
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lcd_gotoxy(12,1); |
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printf(lcd_putc,"%02u:%02u",cas.min,cas.sec); |
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lcd_gotoxy(10,2); |
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printf(lcd_putc,"%1.1f\21C/s ",temp_slope); |
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delay_ms(200); |
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if (cas.min>2) heat_failure(); |
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} |
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while (teplota() < SOLDER_TEMP); |
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// ---------------- TAO ------------------------ |
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while (process_time.sec!=0 || process_time.min!=0) |
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{ |
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level_control(SOLDER_TEMP); |
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lcd_gotoxy(1,1); |
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printf(lcd_putc,"%3.1f\21C ",teplota()); |
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if ((process_time.sec = process_time.sec - cas.sec)<0) process_time.sec=59; |
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process_time.min = (SOLDER_TIME - cas.min*60 - cas.sec)/60; |
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process_time.sec = (SOLDER_TIME - cas.min*60 - cas.sec) - process_time.min*60; |
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lcd_gotoxy(9,1); |
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printf(lcd_putc,"%02u:%02u", process_time.min, process_time.sec); |
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delay_ms(200); |
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} |
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// ---------------- COOLING ------------------------ |
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top_heat_power=0; |
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bottom_heat_power=0; |
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lcd_clr(); |
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lcd_gotoxy(1,2); |
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printf(lcd_putc,"REFLOW COMPLETE"); |
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printf("COOLING \r\n"); |
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while(true) |
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{ |
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lcd_gotoxy(1,1); |
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printf(lcd_putc,"%3.1f\21C ",teplota()); |
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lcd_gotoxy(10,1); |
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printf(lcd_putc,"%1.1f\21C/s ",temp_slope); |
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} |
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} |
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void main() // main loop |
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{ |
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GeneralCpuInit(); |
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PowerOff(); |
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lcd_init(); |
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lcd_define_char(1,LCD_CHAR_STUPEN); |
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nullcas(&cas); |
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while(true) |
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{ |
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delay_ms(300); |
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reflow_solder(); |
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} |
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} |