/***************************************************** This program was produced by the CodeWizardAVR V1.24.8c Professional Automatic Program Generator © Copyright 1998-2006 Pavel Haiduc, HP InfoTech s.r.l. http://www.hpinfotech.com Project : ¼òÒ×Ö±Á÷µçѹԴ Version : Date : 2007-5-18 Author : F4CG Company : F4CG Comments: Chip type : ATmega16L Program type : Application Clock frequency : 8.000000 MHz Memory model : Small External SRAM size : 0 Data Stack size : 256 *****************************************************/ #include #include #include "1602a.h" #define ADC_VREF_TYPE 0xc7//ÄÚ²¿»ù×¼µçÔ´£¬µ¥Í¨µÀÊäÈëPA7 unsigned int adc_v; int key_stime_ok,key_stime_counter; void adc_to_disbuffer(unsigned int adc) { // #asm("cli") // LcdPos(6,0); //È·¶¨¹â±êλÖà // LcdWd(adc%10+0x30); adc=adc/10; LcdPos(5,0); //È·¶¨¹â±êλÖà LcdWd(adc%10+0x30); adc/=10; LcdPos(4,0); //È·¶¨¹â±êλÖà LcdWd(adc%10+0x30); adc/=10; LcdPos(3,0); //È·¶¨¹â±êλÖà LcdWd('.'); LcdPos(2,0); //È·¶¨¹â±êλÖà LcdWd(adc%10+0x30); adc/=10; //#asm("sei") } interrupt [TIM0_COMP] void timer0_comp_isr(void) { // Place your code here if (++key_stime_counter >=1) { key_stime_ok = 1; } } // ADC interrupt service routine interrupt [ADC_INT] void adc_isr(void) { unsigned int adc_data; // Read the AD conversion result adc_data=ADCW; // Place your code here adc_v=(unsigned long)adc_data*2560/1024; //»»Ëã³Éµçѹֵ adc_to_disbuffer(adc_v); } // Declare your global variables here void main(void) { // Declare your local variables here //char j=88; // Input/Output Ports initialization // Port A initialization // Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In Func0=In // State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T PORTA=0x00; DDRA=0x00; // Port B initialization // Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In Func0=In // State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T PORTB=0xff;//Òº¾§½Ó¿Ú DDRB=0xff; // Port C initialization // Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In Func0=In // State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T PORTC=0x00; DDRC=0xff; // Port D initialization // Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In Func0=In // State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T PORTD=0xff; DDRD=0xff; // Timer/Counter 0 initialization // Clock source: System Clock // Clock value: Timer 0 Stopped // Mode: Normal top=FFh // OC0 output: Disconnected TCCR0=0x0C;//²ÉÓñȽÏģʽ£¬256·ÖƵ 8M/256=31.25K //TCCR0=0X0D;//1024 7.81k TCNT0=0x00; OCR0=0x40;// (61+1)/31.25 =2ms // OCR0=0XFF; // Timer/Counter 1 initialization // Clock source: System Clock // Clock value: Timer 1 Stopped // Mode: Normal top=FFFFh // OC1A output: Discon. // OC1B output: Discon. // Noise Canceler: Off // Input Capture on Falling Edge // Timer 1 Overflow Interrupt: Off // Input Capture Interrupt: Off // Compare A Match Interrupt: Off // Compare B Match Interrupt: Off TCCR1A=0x00; TCCR1B=0x00; TCNT1H=0x00; TCNT1L=0x00; ICR1H=0x00; ICR1L=0x00; OCR1AH=0x00; OCR1AL=0x00; OCR1BH=0x00; OCR1BL=0x00; // Timer/Counter 2 initialization // Clock source: System Clock // Clock value: Timer 2 Stopped // Mode: Normal top=FFh // OC2 output: Disconnected ASSR=0x00; TCCR2=0x00; TCNT2=0x00; OCR2=0x00; // External Interrupt(s) initialization // INT0: Off // INT1: Off // INT2: Off MCUCR=0x00; MCUCSR=0x00; // Timer(s)/Counter(s) Interrupt(s) initialization TIMSK=0x02; // Analog Comparator initialization // Analog Comparator: Off // Analog Comparator Input Capture by Timer/Counter 1: Off ACSR=0x80; SFIOR=0x00; // ADC initialization // ADC Clock frequency: 125.000 kHz // ADC Voltage Reference: Int., cap. on AREF // ADC Auto Trigger Source: Timer0 Compare Match ADMUX=ADC_VREF_TYPE; ADCSRA=0xAE; SFIOR&=0x1F; SFIOR|=0x60; // Global enable interrupts RstLcd();//Òº¾§³õʼ»¯ RstLcd();//Òº¾§³õʼ»¯ RstLcd();//Òº¾§³õʼ»¯ /* LcdPos(0,0);//x,y LcdWd(j%10+0x30); LcdPos(1,0);//x,y j=j/10; LcdWd(j%10+0x30); //j=j/10 ; LcdPos(2,0);//x,y LcdWd('='); LcdPos(3,0); //Write_String(str); lcd_putsf("JIANGLONGJIAN"); //LcdWd('b');*/ LcdPos(0,0); //È·¶¨¹â±êλÖà LcdWd('v'); LcdPos(1,0); //È·¶¨¹â±êλÖà LcdWd('='); #asm("sei") while (1) { // Place your code here // if (key_stime_ok==1) // { key_stime_ok=0; // adc_to_disbuffer(adc_v); // } }; }