Rev 1960 Rev 1963
Line 18... Line 18...
18 #define TL1 PIN_B3 // tlacitko S1 18 #define TL1 PIN_B3 // tlacitko S1
19 #define TL2 PIN_B2 // tlacitko S2 19 #define TL2 PIN_B2 // tlacitko S2
20 #define TL3 PIN_B1 // tlacitko S3 20 #define TL3 PIN_B1 // tlacitko S3
21 #define TL4 PIN_B0 // tlacitko S4 21 #define TL4 PIN_B0 // tlacitko S4
22   22  
23 #define POWER_T3 PIN_A3 // ovladani optotriaku T3 23 #define POWER_T3 PIN_C4 // ovladani optotriaku T3
24 #define POWER_T4 PIN_A5 // ovladani optotriaku T4 24 #define POWER_T4 PIN_C5 // ovladani optotriaku T4
25 #define POWER_T5 PIN_A4 // ovladani optotriaku T5 25 #define POWER_T5 PIN_C6 // ovladani optotriaku T5
26   26  
27 #define ADC_PIN PIN_A0 //info, nelze menit - pin pouzit jako input analog 27 #define ADC_PIN PIN_A0 //info, nelze menit - pin pouzit jako input analog
28 #define ADC_PIN_NC PIN_A1 //info, nelze menit - pin pouzit jako input analog 28 #define ADC_PIN_NC PIN_A1 //info, nelze menit - pin pouzit jako input analog
29 #define REF_PIN PIN_A3 //info, nelze menit - pin pouzit jako input reference 2.5V 29 #define REF_PIN PIN_A3 //info, nelze menit - pin pouzit jako input reference 2.5V
30   30  
Line 62... Line 62...
62 setup_comparator(NC_NC_NC_NC); 62 setup_comparator(NC_NC_NC_NC);
63 setup_vref(FALSE); 63 setup_vref(FALSE);
64 64
65 enable_interrupts(GLOBAL); 65 enable_interrupts(GLOBAL);
66 enable_interrupts(INT_TIMER2); 66 enable_interrupts(INT_TIMER2);
-   67 enable_interrupts(INT_TIMER1);
67 68
68 setup_adc_ports(AN0_AN1_VSS_VREF); //A0 vstup cidla, A1 nepozit, A3 - ref. 2.5V 69 setup_adc_ports(AN0_AN1_VSS_VREF); //A0 vstup cidla, A1 nepozit, A3 - ref. 2.5V
69 setup_adc(ADC_CLOCK_DIV_8); 70 setup_adc(ADC_CLOCK_DIV_8);
70 SET_ADC_CHANNEL(0); //AN0, PIN_A0 71 SET_ADC_CHANNEL(0); //AN0, PIN_A0
71 } 72 }
72   73  
-   74 void heat_failure() // exception in case of heating fail
-   75 {
-   76 lcd_gotoxy(1,2);
-   77 printf(lcd_putc,"HEATING FAILURE!");
-   78
-   79 while(true);
-   80  
-   81 }
-   82  
73 unsigned int16 adc(void) 83 unsigned int16 adc(void)
74 { 84 {
75 unsigned int16 analog; 85 unsigned int16 analog;
76 unsigned int8 a; 86 unsigned int8 a;
77   87  
Line 89... Line 99...
89 return (0.674201*adc() - 294.35); 99 return (0.674201*adc() - 294.35);
90 } 100 }
91   101  
92 void top_heating() 102 void top_heating()
93 { 103 {
94 if (period <= top_heat_power){ 104 if (period < top_heat_power){
95 output_low(POWER_T4); 105 output_low(POWER_T4);
96 output_low(POWER_T5); 106 output_low(POWER_T5);
97 } 107 }
98 else{ 108 else{
99 output_high(POWER_T4); 109 output_high(POWER_T4);
Line 102... Line 112...
102 } 112 }
103   113  
104 void bottom_heating() 114 void bottom_heating()
105 { 115 {
106   116  
107 if (period <= 2*bottom_heat_power){ 117 if (period < 2*bottom_heat_power){
108 output_low(POWER_T3); 118 output_low(POWER_T3);
109 } 119 }
110 else{ 120 else{
111 output_high(POWER_T3); 121 output_high(POWER_T3);
112 } 122 }
Line 114... Line 124...
114 } 124 }
115   125  
116 #int_TIMER1 126 #int_TIMER1
117 void heating_control() //rizeni topnych teles pri preteceni casovace 127 void heating_control() //rizeni topnych teles pri preteceni casovace
118 { 128 {
119   -  
120 top_heating(); 129 top_heating();
121 bottom_heating(); 130 bottom_heating();
122   131  
123 if (period <= 200) period++; 132 if (period <= 200) period++;
124 else period=0; 133 else period=0;
125 } 134 }
126   135  
127   -  
128 #int_TIMER2 136 #int_TIMER2
129 void Rtc(void) //40ms 137 void Rtc(void) //40ms
130 { 138 {
131 static unsigned int8 ms40=0; 139 static unsigned int8 ms40=0;
132 struct time* time; 140 struct time* time;
Line 152... Line 160...
152   160  
153 slope_deviation = (teplota() - temp_last) - ramp; // vypocet strmosti a odchylky od pozadovane strmosti 161 slope_deviation = (teplota() - temp_last) - ramp; // vypocet strmosti a odchylky od pozadovane strmosti
154   162  
155 if(slope_deviation < 0) 163 if(slope_deviation < 0)
156 { 164 {
157 top_heat_power= slope_deviation*(-10) + balance; 165 top_heat_power= 80 + balance;
158 bottom_heat_power= slope_deviation*(-10); 166 bottom_heat_power= 90;
159 } 167 }
160 else{ 168 else{
161 top_heat_power=0; 169 top_heat_power=0;
162 bottom_heat_power=0; 170 bottom_heat_power=0;
163 } 171 }
164   -  
165 temp_last = teplota(); 172 temp_last = teplota();
166 } 173 }
167   174  
168 void level_control(float level) // P proporcionalni rizeni teploty 175 void level_control(float level) // P proporcionalni rizeni teploty
169 { 176 {
-   177 if (teplota() > level)
-   178 {
-   179 top_heat_power=0;
-   180 bottom_heat_power=0;
170   181 }
171 teplota(); 182 else
-   183 {
-   184 top_heat_power=70;
-   185 bottom_heat_power=80;
172   186 }
173 } 187 }
174   188  
175   189  
176 void nullcas(struct time* time) 190 void nullcas(struct time* time)
177 { 191 {
Line 185... Line 199...
185 } 199 }
186   200  
187 void reflow_solder() 201 void reflow_solder()
188 { 202 {
189   203  
-   204 struct time process_time;
-   205  
190 // preheat 206 // preheat
191 nullcas(&cas); 207 nullcas(&cas);
-   208 lcd_gotoxy(1,2);
-   209 printf(lcd_putc,"PREHEAT");
192   210  
193 do { 211 do {
194 slope_control(PREHEAT_SLOPE, 0); // hlida strmost predehrevu 212 slope_control(PREHEAT_SLOPE, 0); // hlida strmost predehrevu
195   213  
196 lcd_gotoxy(1,1); 214 lcd_gotoxy(1,1);
Line 198... Line 216...
198   216  
199 lcd_gotoxy(9,1); 217 lcd_gotoxy(9,1);
200 printf(lcd_putc,"%2u:%02u:%02u",cas.hod,cas.min,cas.sec); 218 printf(lcd_putc,"%2u:%02u:%02u",cas.hod,cas.min,cas.sec);
201   219  
202 delay_ms(1000); 220 delay_ms(1000);
-   221 if (cas.min>3) heat_failure();
203 } 222 }
204 while (teplota() < SOAK_TEMP); 223 while (teplota() < SOAK_TEMP);
205   224  
206 // soak 225 // soak
207 nullcas(&cas); 226 nullcas(&cas);
208 while (cas.min*60+cas.sec <= SOAK_TIME) 227 process_time.min = SOAK_TIME/60;
-   228 process_time.sec = SOAK_TIME - process_time.min*60;
-   229
-   230 lcd_gotoxy(1,2);
-   231 printf(lcd_putc,"SOAK ");
-   232  
-   233 while (process_time.sec!=0 || process_time.min!=0)
209 { 234 {
210 level_control(SOAK_TEMP); 235 level_control(SOAK_TEMP);
211   236  
212 lcd_gotoxy(1,1); 237 lcd_gotoxy(1,1);
213 printf(lcd_putc,"%3.1f\21C ",teplota()); 238 printf(lcd_putc,"%3.1f\21C ",teplota());
214   239  
-   240 if ((process_time.sec = process_time.sec - cas.sec)<0) process_time.sec=59;
-   241  
-   242 process_time.min = (SOAK_TIME - cas.min*60 - cas.sec)/60;
-   243 process_time.sec = (SOAK_TIME - cas.min*60 - cas.sec) - process_time.min*60;
-   244  
215 lcd_gotoxy(9,1); 245 lcd_gotoxy(9,1);
216 printf(lcd_putc,"%2u:%02u:%02u",cas.hod, SOAK_TIME/60 - cas.min, SOAK_TIME - cas.min*60 - cas.sec); 246 printf(lcd_putc,"%2u:%02u:%02u",cas.hod, process_time.min, process_time.sec);
217 delay_ms(1000); 247 delay_ms(1000);
218 } 248 }
219 249
220 // solder 250 // solder
221 251
Line 233... Line 263...
233 nullcas(&cas); 263 nullcas(&cas);
234 264
235 while(true) 265 while(true)
236 { 266 {
237 delay_ms(300); 267 delay_ms(300);
238 -  
239 -  
240 reflow_solder(); 268 reflow_solder();
241 269
242 } 270 }
243 } 271 }