Rev 2744 Rev 3020
1 #include ".\main.h" 1 #include ".\main.h"
2   2  
3 #define LED1 PIN_C6 //CHANGE PIN_XX TO YOUR LED PIN NUMBER, EX: PIN_A5 3 #define LED1 PIN_C6 //CHANGE PIN_XX TO YOUR LED PIN NUMBER, EX: PIN_A5
4 #define LED2 PIN_C5 //CHANGE PIN_XX TO YOUR LED PIN NUMBER, EX: PIN_A5 4 #define LED2 PIN_C5 //CHANGE PIN_XX TO YOUR LED PIN NUMBER, EX: PIN_A5
5 #define LED3 PIN_C4 //CHANGE PIN_XX TO YOUR LED PIN NUMBER 5 #define LED3 PIN_C4 // pulse detect
6 #define LED4 PIN_D3 //CHANGE PIN_XX TO YOUR LED PIN NUMBER 6 #define LED4 PIN_D3 //CHANGE PIN_XX TO YOUR LED PIN NUMBER
7   7  
8 #define S1 PIN_C2 //CHANGE PIN_XX TO YOUR LED PIN NUMBER, EX: PIN_A5 8 #define S1 PIN_C2 // raw up
9 #define S2 PIN_C3 //CHANGE PIN_XX TO YOUR LED PIN NUMBER, EX: PIN_A5 9 #define S2 PIN_C3 // raw down
10 #define S3 PIN_D0 //CHANGE PIN_XX TO YOUR LED PIN NUMBER 10 #define S3 PIN_D0 // fine up
11 #define S4 PIN_D1 //CHANGE PIN_XX TO YOUR LED PIN NUMBER 11 #define S4 PIN_D1 // fine down
-   12 #define S5 PIN_B1 // time setup
-   13 #define S6 PIN_B2 // treshold setup
12   14  
13 #define BEEP PIN_D2 //piezo beeper 15 #define BEEP PIN_D2 //piezo beeper
14   16  
15 #define LCD_ENABLE_PIN PIN_E0 //// 17 #define LCD_ENABLE_PIN PIN_E0 ////
16 #define LCD_RS_PIN PIN_E1 //// 18 #define LCD_RS_PIN PIN_E1 ////
17 #define LCD_RW_PIN PIN_E2 //// 19 #define LCD_RW_PIN PIN_E2 ////
18 #define LCD_DATA4 PIN_D4 //// 20 #define LCD_DATA4 PIN_D4 ////
19 #define LCD_DATA5 PIN_D5 //// 21 #define LCD_DATA5 PIN_D5 ////
20 #define LCD_DATA6 PIN_D6 //// 22 #define LCD_DATA6 PIN_D6 ////
21 #define LCD_DATA7 PIN_D7 23 #define LCD_DATA7 PIN_D7
22 #include <lcd.c> 24 #include <lcd.c>
23   25  
24   26  
25 unsigned int32 pulse_count=0; 27 unsigned int32 pulse_count=0;
26 unsigned int16 overflow_count=0; 28 unsigned int16 overflow_count=0;
27 unsigned int16 time_overflow_count=0; 29 unsigned int16 time_overflow_count=0;
28   30  
29   31  
30 #int_RTCC 32 #int_RTCC
31 void RTCC_isr(void) 33 void RTCC_isr(void)
32 { 34 {
33 time_overflow_count++; 35 time_overflow_count++;
34 } 36 }
35   37  
36 #int_TIMER1 38 #int_TIMER1
37 void TIMER1_isr(void) 39 void TIMER1_isr(void)
38 { 40 {
39 overflow_count++; 41 overflow_count++;
40 output_toggle(LED3); 42 output_toggle(LED3);
41 output_toggle(BEEP); 43 output_toggle(BEEP);
42 } 44 }
43   45  
44 void sound_beep( unsigned int lenght, int16 frequency) 46 void sound_beep( unsigned int lenght, int16 frequency)
45 { 47 {
46 unsigned int i; 48 unsigned int i;
47 49
48 for(i=0;i<=lenght;i++) 50 for(i=0;i<=lenght;i++)
49 { 51 {
50 output_toggle(BEEP); 52 output_toggle(BEEP);
51 delay_us(1/frequency); 53 delay_us(1/frequency);
52 } 54 }
53 } 55 }
54   56  
55 void main() 57 void main()
56 { 58 {
57 unsigned int16 integration_time=60; 59 unsigned int16 integration_time=60;
58 unsigned int16 time; 60 unsigned int16 time;
59 unsigned int16 last_timer; // promena pro praskani 61 unsigned int16 last_timer; // promena pro praskani
60 unsigned int1 button_press; // semafor pro cteni tlacitek 62 unsigned int1 button_press,voltage_setup,time_setup; // semafor pro cteni tlacitek
61 unsigned int16 measurement_number=0; 63 unsigned int16 measurement_number=0;
62   64  
63 setup_adc_ports(sAN0|VSS_VDD); 65 setup_adc_ports(sAN0|VSS_VDD);
64 setup_adc(ADC_CLOCK_DIV_32); 66 setup_adc(ADC_CLOCK_DIV_32);
65 setup_spi(SPI_SS_DISABLED); 67 setup_spi(SPI_SS_DISABLED);
66 setup_timer_0(RTCC_INTERNAL|RTCC_DIV_256); 68 setup_timer_0(RTCC_INTERNAL|RTCC_DIV_256);
67 setup_timer_1(T1_EXTERNAL|T1_DIV_BY_1); 69 setup_timer_1(T1_EXTERNAL|T1_DIV_BY_1);
68 setup_timer_2(T2_DISABLED,0,1); 70 setup_timer_2(T2_DISABLED,0,1);
69 setup_ccp1(CCP_PWM); 71 setup_ccp1(CCP_PWM);
70 setup_ccp2(CCP_PWM); 72 setup_ccp2(CCP_PWM);
71 setup_oscillator(OSC_8MHZ); 73 setup_oscillator(OSC_8MHZ);
72   74  
73 set_pwm1_duty(0); 75 set_pwm1_duty(0);
74 set_pwm2_duty(0); 76 set_pwm2_duty(0);
75   77  
76 output_high(LED1); 78 output_high(LED1);
77 output_high(LED2); 79 output_high(LED2);
78 output_high(LED3); 80 output_high(LED3);
79 output_high(LED4); 81 output_high(LED4);
80 output_low(BEEP); 82 output_low(BEEP);
81   83  
82 setup_comparator(CP2_A0_VREF|CP2_OUT_ON_A5); // sets two comparators(A1 and VR and A2 as the output) 84 setup_comparator(CP2_A0_VREF|CP2_OUT_ON_A5); // sets two comparators(A1 and VR and A2 as the output)
83 setup_vref(VREF_HIGH|6); //sets 3.6(vdd *value/32 +vdd/4) if vdd is 5.0V 85 setup_vref(VREF_HIGH|6); //sets 3.6(vdd *value/32 +vdd/4) if vdd is 5.0V
84 enable_interrupts(INT_COMP); //enables the comparator interrupt 86 enable_interrupts(INT_COMP); //enables the comparator interrupt
85 enable_interrupts(INT_RTCC); 87 enable_interrupts(INT_RTCC);
86 enable_interrupts(INT_TIMER1); 88 enable_interrupts(INT_TIMER1);
87 enable_interrupts(INT_TIMER2); 89 enable_interrupts(INT_TIMER2);
88 enable_interrupts(GLOBAL); 90 enable_interrupts(GLOBAL);
89 lcd_init(); 91 lcd_init();
90   92  
91 lcd_putc("\fGM counter V1.0 \n 2013 MLAB"); 93 lcd_putc("\fGM counter V1.0 \n 2013 MLAB");
92 printf("Geiger-Muller Counter V1.0 \r\n"); 94 printf("Geiger-Muller Counter V1.0 \r\n");
93 printf("(c) 2013 MLAB and UST.cz \r\n"); 95 printf("(c) 2013 MLAB and UST.cz \r\n");
94 Delay_ms(1000); 96 Delay_ms(1000);
95 97
96 lcd_putc("\f"); 98 lcd_putc("\f");
97 printf("\r\n"); 99 printf("\r\n");
98 100
99 set_timer1(0); 101 set_timer1(0);
-   102  
-   103 lcd_gotoxy(1,1); // vypsani hodnoty count, abz byla na LCD hned od zapnuti
-   104 printf(lcd_putc,"Count:%lu ",pulse_count);
100 105  
101 while(true) 106 while(true)
102 { 107 {
103 pulse_count = get_timer1() + (0xffff * overflow_count); 108 pulse_count = get_timer1() + (0xffff * overflow_count); // compute pulse count
104 time = integration_time + 1 - (time_overflow_count * 0.0327) ; 109 time = integration_time + 1 - (time_overflow_count * 0.0327); // compute time interval
105 110
106 if(get_timer1() != last_timer) 111 if(get_timer1() != last_timer) // timer count increment detection
107 { 112 {
108 output_toggle(BEEP); 113 output_toggle(BEEP);
-   114 delay_ms(1);
-   115 output_toggle(BEEP);
-   116 output_toggle(LED3);
109 last_timer=get_timer1(); 117 last_timer=get_timer1();
-   118 lcd_gotoxy(1,1); // prepsani dat na displeje
-   119 printf(lcd_putc,"Count:%lu ",pulse_count);
110 } 120 }
111 121
112 lcd_gotoxy(1,1); -  
113 printf(lcd_putc,"Count:%lu ",pulse_count); -  
114 lcd_gotoxy(1,2); 122 lcd_gotoxy(1,2);
115 printf(lcd_putc,"T:%lu ",time); 123 printf(lcd_putc,"T:%lu ",time);
116 lcd_gotoxy(9,2); 124 lcd_gotoxy(9,2);
117 printf(lcd_putc,"I:%lu ", integration_time); 125 printf(lcd_putc,"I:%lu ", integration_time);
118   126  
119 if(time == 0) 127 if(time == 0) // po uplynuti mereneho intervalu vypis na seriovku
120 { 128 {
121 set_timer0(0); 129 set_timer0(0);
122 time_overflow_count=0; 130 time_overflow_count=0;
123 sound_beep(1000,700); 131 sound_beep(1000,700);
124 printf("$GMC1.0 %lu %lu %lu \r\n", measurement_number, integration_time, pulse_count); 132 printf("$GMC1.0 %lu %lu %lu \r\n", measurement_number, integration_time, pulse_count);
125 set_timer1(0); 133 set_timer1(0);
126 overflow_count=0; 134 overflow_count=0;
127 measurement_number++; 135 measurement_number++;
128 } 136 }
129   137  
130 if(button_press==false ) // tlacitka se ctou znovu pouze pokud v redchozim cyklu nebyla zmacknuta. 138 if(button_press==false ) // tlacitka se ctou znovu pouze pokud v redchozim cyklu nebyla zmacknuta.
131 { 139 {
132 if(!input(S1)) 140 if(!input(S1))
133 { 141 {
134 delay_ms(20); 142 delay_ms(20);
135 if(!input(S1)) 143 if(!input(S1))
136 { 144 {
137 button_press=true; 145 button_press=true;
-   146 if(time_setup==TRUE)
-   147 {
138 sound_beep(100,700); 148 sound_beep(100,700);
139 if(integration_time < 0xfffa ) integration_time+=5; 149 if(integration_time < 0xfffa ) integration_time+=5;
140 150 }
141 } 151 }
142 } 152 }
143   153  
144 if(!input(S2)) 154 if(!input(S2))
145 { 155 {
146 delay_ms(20); 156 delay_ms(20);
147 if(!input(S2)) 157 if(!input(S2))
148 { 158 {
149 button_press=true; 159 button_press=true;
-   160 if(time_setup==TRUE)
-   161 {
150 sound_beep(100,600); 162 sound_beep(100,600);
151 if(integration_time < 0xfffa ) integration_time-=5; 163 if(integration_time > 0x0005 ) integration_time-=5;
152   164  
153 set_timer0(0); // vynulovani pocitadel, kdyz uzivatel sahne na tlacitka 165 set_timer0(0); // vynulovani pocitadel, kdyz uzivatel sahne na tlacitka
154 time_overflow_count=0; 166 time_overflow_count=0;
155 set_timer1(0); 167 set_timer1(0);
156 overflow_count=0; 168 overflow_count=0;
-   169 }
157 } 170 }
158 } 171 }
159   172  
160 if(!input(S3)) 173 if(!input(S3))
161 { 174 {
162 delay_ms(20); 175 delay_ms(20);
163 if(!input(S3)) 176 if(!input(S3))
164 { 177 {
165 button_press=true; 178 button_press=true;
-   179 if(time_setup==TRUE)
-   180 {
166 sound_beep(100,500); 181 sound_beep(100,500);
167 if(integration_time < 0xffff ) integration_time++; 182 if(integration_time < 0xffff ) integration_time++;
-   183 }
168 } 184 }
169 } 185 }
170   186  
171 if(!input(S4)) 187 if(!input(S4))
172 { 188 {
173 delay_ms(20); 189 delay_ms(20);
174 if(!input(S4)) 190 if(!input(S4))
175 { 191 {
176 button_press=true; 192 button_press=true;
-   193 if(time_setup==TRUE)
-   194 {
177 sound_beep(100,400); 195 sound_beep(100,400);
178 if(integration_time < 0xffff ) integration_time--; 196 if(integration_time > 0x0001 ) integration_time--;
179   197  
180 set_timer0(0); // vynulovani pocitadel, kdyz uzivatel sahne na tlacitka 198 set_timer0(0); // vynulovani pocitadel, kdyz uzivatel sahne na tlacitka
181 time_overflow_count=0; 199 time_overflow_count=0;
182 set_timer1(0); 200 set_timer1(0);
183 overflow_count=0; 201 overflow_count=0;
-   202 }
-   203 if(time_setup==TRUE)
-   204 {
-   205 }
-   206 }
-   207
-   208 if(!input(S5)) // prepnuti na nastavovani casu
-   209 {
-   210 delay_ms(20);
-   211 if(!input(S5))
-   212 {
-   213 button_press=true;
-   214 sound_beep(100,800);
-   215 voltage_setup=FALSE;
-   216 time_setup=TRUE;
-   217 }
-   218 }
-   219
-   220 if(!input(S6)) // prepnuti na nastavovani napeti
-   221 {
-   222 delay_ms(20);
-   223 if(!input(S6))
-   224 {
-   225 button_press=true;
-   226 sound_beep(100,800);
-   227 voltage_setup=TRUE;
-   228 time_setup=FALSE;
184 } 229 }
185 } 230 }
186 } 231 }
187 232
188 if ( input(S1) && input(S2) && input(S3) && input(S4) ) 233 if ( input(S1) && input(S2) && input(S3) && input(S4) && input(S5) && input(S6)) // detekce pustenych tlacitek
189 { 234 {
190 button_press=false; 235 button_press=false;
191 } 236 }
192 } 237 }
193   -  
194 } 238 }