#include ".\main.h"
#define LED1 PIN_C6 //CHANGE PIN_XX TO YOUR LED PIN NUMBER
#define LED2 PIN_C5 //CHANGE PIN_XX TO YOUR LED PIN NUMBER
#define LED3 PIN_C4 //CHANGE PIN_XX TO YOUR LED PIN NUMBER
#define LED4 PIN_D3 //CHANGE PIN_XX TO YOUR LED PIN NUMBER
#define S1 PIN_B0 //Raw up
#define S2 PIN_B1 //Raw down
#define S3 PIN_D0 //Fine up
#define S4 PIN_D1 //Fine down
#define BEEP PIN_D2 //piezo beeper
#define LCD_ENABLE_PIN PIN_E0 ////
#define LCD_RS_PIN PIN_E1 ////
#define LCD_RW_PIN PIN_E2 ////
#define LCD_DATA4 PIN_D4 ////
#define LCD_DATA5 PIN_D5 ////
#define LCD_DATA6 PIN_D6 ////
#define LCD_DATA7 PIN_D7
#include <lcd.c>
#define OUTPUT_ENABLE PIN_B5
//#define MAXDUTY (int16)160 // 50 kHz
#define MAXDUTY (int16)400 // 20 kHz
//#define MAXDUTY (int16)800 // 10 kHz
#define HALFDUTY (int16)MAXDUTY/2
//#define DIVISOR 199 // 10 kHz
#define DIVISOR 99 // 20 kHz
//#define DIVISOR 39 // 50 kHz
#define MAX_OUTPUT 1000
unsigned int16 setpoint=43;
unsigned int16 adc_value;
int1 output_permit=FALSE;
#INT_AD
void adc_handler() {
adc_value = read_adc(ADC_READ_ONLY);
if(output_permit == TRUE)
{
if (adc_value <= setpoint)
{
set_pwm2_duty((int16)255); // zapnuti menice
output_low(LED2);
}
else // vypnuti menice
{
set_pwm2_duty((int16)MAXDUTY);
output_high(LED2);
}
}
else
{
set_pwm2_duty((int16)MAXDUTY);
output_high(LED2);
}
read_adc(ADC_START_ONLY);
}
void sound_beep( unsigned int lenght, int16 frequency)
{
unsigned int i;
for(i=0;i<=lenght;i++)
{
output_toggle(BEEP);
delay_us(1/frequency);
}
}
void main()
{
unsigned int1 button_press; // semafor pro cteni tlacitek
float output_voltage;
setup_adc_ports(sAN0|VSS_VREF);
setup_adc(ADC_CLOCK_DIV_32);
setup_spi(SPI_SS_DISABLED);
setup_timer_0(RTCC_EXT_L_TO_H|RTCC_DIV_1);
setup_timer_1(T1_DISABLED);
setup_timer_2(T2_DIV_BY_1,DIVISOR,1);
setup_ccp1(CCP_PWM);
setup_ccp2(CCP_PWM);
set_pwm1_duty(HALFDUTY);
set_pwm2_duty(MAXDUTY);
setup_comparator(NC_NC_NC_NC);// This device COMP currently not supported by the PICWizard
setup_oscillator(OSC_8MHZ);
enable_interrupts(INT_AD);
enable_interrupts(GLOBAL);
output_high(LED1);
output_high(LED2);
output_high(LED3);
output_high(LED4);
output_low(BEEP);
set_pwm2_duty((int16)MAXDUTY);
lcd_init();
set_adc_channel(0);
lcd_gotoxy(1,1);
lcd_putc("HVPS01A");
lcd_gotoxy(1,2);
lcd_putc(" MLAB.cz");
Delay_ms(1000);
lcd_putc("\f");
read_adc(ADC_START_ONLY);
while(true)
{
if(input(OUTPUT_ENABLE)) output_permit=TRUE;
else output_permit=FALSE;
lcd_gotoxy(1,1);
printf(lcd_putc,"%4lu",adc_value);
lcd_gotoxy(1,2);
output_voltage = adc_value * 0.316142 + 223.294;
if(input(OUTPUT_ENABLE))printf(lcd_putc,"Set:%3.0f "output_voltage);
else printf(lcd_putc,"DISABLED");
if(button_press==false ) // tlacitka se ctou znovu pouze pokud v redchozim cyklu nebyla zmacknuta.
{
if(!input(S1))
{
delay_ms(20);
if(!input(S1))
{
button_press=true;
sound_beep(100,700);
if(setpoint < (MAX_OUTPUT-5) )setpoint+=5;
}
}
if(!input(S2))
{
delay_ms(20);
if(!input(S2))
{
button_press=true;
sound_beep(100,600);
if(setpoint > 0x05 ) setpoint-=5;
}
}
if(!input(S3))
{
delay_ms(20);
if(!input(S3))
{
button_press=true;
sound_beep(100,500);
if(setpoint < MAX_OUTPUT )setpoint++;
}
}
if(!input(S4))
{
delay_ms(20);
if(!input(S4))
{
button_press=true;
sound_beep(100,400);
if(setpoint > 0x00 ) setpoint--;
}
}
}
if ( input(S1) && input(S2) && input(S3) && input(S4) ) button_press=false;
output_toggle(LED1);
}
}