| 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 |
} |