WebSVN – MLAB – Rev 1963 and 1960 – Diff – /Designs/Tools/reflow2/SW/reflow.c

Rev 1960		Rev 1963
1	`#include "reflow.h"`	1	`#include "reflow.h"`
2	`#include "process.h"`	2	`#include "process.h"`
3	`#include <math.h>`	3	`#include <math.h>`
4		4
5	`// nastaveni teplot a casu`	5	`// nastaveni teplot a casu`
6	`#define TEPLOTA_PREDEHREVU 120`	6	`#define TEPLOTA_PREDEHREVU 120`
7	`#define DOBA_PREDEHREVU 60`	7	`#define DOBA_PREDEHREVU 60`
8		8
9	`#define TEPLOTA_VRCHOLU 210`	9	`#define TEPLOTA_VRCHOLU 210`
10	`#define DOBA_VRCHOLU 5`	10	`#define DOBA_VRCHOLU 5`
11		11
12	`// CPU IO rozhrani`	12	`// CPU IO rozhrani`
13	`#define LCD_RS PIN_C1 // rizeni registru LCD displeje`	13	`#define LCD_RS PIN_C1 // rizeni registru LCD displeje`
14	`#define LCD_E PIN_C2 // enable LCD displeje`	14	`#define LCD_E PIN_C2 // enable LCD displeje`
15	`#define LCD_DATA_LSB PIN_D0 // data LCD`	15	`#define LCD_DATA_LSB PIN_D0 // data LCD`
16	`#include "lcd.c"`	16	`#include "lcd.c"`
17		17
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
31	`// interni`	31	`// interni`
32	`#define PowerOn() output_low(POWER_T4);output_low(POWER_T5)`	32	`#define PowerOn() output_low(POWER_T4);output_low(POWER_T5)`
33	`#define PowerOff() output_high(POWER_T4);output_high(POWER_T5)`	33	`#define PowerOff() output_high(POWER_T4);output_high(POWER_T5)`
34		34
35	`// globalni promenne`	35	`// globalni promenne`
36	`struct time`	36	`struct time`
37	`{`	37	`{`
38	`volatile unsigned int8 hod;`	38	`volatile unsigned int8 hod;`
39	`volatile unsigned int8 min;`	39	`volatile unsigned int8 min;`
40	`volatile unsigned int8 sec;`	40	`volatile unsigned int8 sec;`
41	`}cas;`	41	`}cas;`
42		42
43	`unsigned int top_heat_power=0; // range 0-200% nad 100% je ale teleso jiz pretizene`	43	`unsigned int top_heat_power=0; // range 0-200% nad 100% je ale teleso jiz pretizene`
44	`unsigned int bottom_heat_power=0; // contains heating power range 0-100%`	44	`unsigned int bottom_heat_power=0; // contains heating power range 0-100%`
45	`unsigned int period;`	45	`unsigned int period;`
46		46
47	`float temp_last=0;`	47	`float temp_last=0;`
48		48
49	`void GeneralCpuInit() // inicializace`	49	`void GeneralCpuInit() // inicializace`
50	`{`	50	`{`
51	`output_high(POWER_T4);`	51	`output_high(POWER_T4);`
52	`output_high(POWER_T5);`	52	`output_high(POWER_T5);`
53	`port_b_pullups(true);`	53	`port_b_pullups(true);`
54		54
55	`setup_psp(PSP_DISABLED);`	55	`setup_psp(PSP_DISABLED);`
56	`setup_spi(SPI_SS_DISABLED);`	56	`setup_spi(SPI_SS_DISABLED);`
57		57
58	`setup_timer_0(RTCC_INTERNAL\|RTCC_DIV_1); //nepouzit`	58	`setup_timer_0(RTCC_INTERNAL\|RTCC_DIV_1); //nepouzit`
59	`setup_timer_1(T1_INTERNAL\|T1_DIV_BY_1); // rizeni`	59	`setup_timer_1(T1_INTERNAL\|T1_DIV_BY_1); // rizeni`
60	`setup_timer_2(T2_DIV_BY_16,249,10); //rtc 40ms`	60	`setup_timer_2(T2_DIV_BY_16,249,10); //rtc 40ms`
61		61
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
78	`analog = 0;`	88	`analog = 0;`
79	`for (a=0;a<32;a++)`	89	`for (a=0;a<32;a++)`
80	`{`	90	`{`
81	`analog += read_adc();`	91	`analog += read_adc();`
82	`delay_us(50);`	92	`delay_us(50);`
83	`}`	93	`}`
84	`return (analog >> 5 ); // prumer = analog/32`	94	`return (analog >> 5 ); // prumer = analog/32`
85	`}`	95	`}`
86		96
87	`float teplota(void)`	97	`float teplota(void)`
88	`{`	98	`{`
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);`
100	`output_high(POWER_T5);`	110	`output_high(POWER_T5);`
101	`}`	111	`}`
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	`}`
113		123
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	`{`
-		129	`top_heating();`
-		130	`bottom_heating();`
119		131
120	`top_heating();`	-
121	`bottom_heating();`	-
122		-
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;`
133		141
134	`time=&cas;`	142	`time=&cas;`
135	`if ( ++ms40 < 25) return;`	143	`if ( ++ms40 < 25) return;`
136		144
137	`ms40=0;`	145	`ms40=0;`
138	`if (++(time->sec) >= 60)`	146	`if (++(time->sec) >= 60)`
139	`{`	147	`{`
140	`time->sec=0; //1min`	148	`time->sec=0; //1min`
141	`if (++(time->min) >= 60)`	149	`if (++(time->min) >= 60)`
142	`{`	150	`{`
143	`time->min = 0; //1hod`	151	`time->min = 0; //1hod`
144	`(time->hod)++;`	152	`(time->hod)++;`
145	`}`	153	`}`
146	`}`	154	`}`
147	`}`	155	`}`
148		156
149	`void slope_control(float ramp, unsigned int balance) // P proporcionalni rizeni narustu teploty predpoklada periodicke volani 1x/s`	157	`void slope_control(float ramp, unsigned int balance) // P proporcionalni rizeni narustu teploty predpoklada periodicke volani 1x/s`
150	`{`	158	`{`
151	`float slope_deviation;`	159	`float slope_deviation;`
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	`{`
178	`disable_interrupts(INT_TIMER2);`	192	`disable_interrupts(INT_TIMER2);`
179		193
180	`time->sec=0;`	194	`time->sec=0;`
181	`time->hod=0;`	195	`time->hod=0;`
182	`time->min=0;`	196	`time->min=0;`
183		197
184	`enable_interrupts(INT_TIMER2);`	198	`enable_interrupts(INT_TIMER2);`
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);`
197	`printf(lcd_putc,"%3.1f\21C ",teplota());`	215	`printf(lcd_putc,"%3.1f\21C ",teplota());`
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.min60 - cas.sec) - process_time.min60;`
-		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
222	`}`	252	`}`
223		253
224		254
225	`void main() // main loop`	255	`void main() // main loop`
226	`{`	256	`{`
227	`GeneralCpuInit();`	257	`GeneralCpuInit();`
228	`PowerOff();`	258	`PowerOff();`
229		259
230	`lcd_init();`	260	`lcd_init();`
231	`lcd_define_char(1,LCD_CHAR_STUPEN);`	261	`lcd_define_char(1,LCD_CHAR_STUPEN);`
232		262
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	`}`

Subversion Repositories – MLAB

(root)/Designs/Tools/reflow2/SW/reflow.c

Rev 1960 → Rev 1963