Making a stopwatch timer, the recording time of 0-15 seconds. It requires accurate and controllable.
1. Start the stopwatch can be controlled with the buttons
2. The button can be controlled by stopping the stopwatch
3. The key can be used to control the clock to zero
4. Use a timer to control the time precision is required.
5. Using a plurality of digital control and implement the functions keys.
code show as below:
#include<reg52.h> #define LED P0 sbit KEY1 = P1^0; sbit KEY2 = P1^1; unsigned int i = 0; unsigned char LED_NUM[] = {0xc0,0xf9,0xa4,0xb0,\ 0x99,0x92,0x82,0xf8,\ 0x80,0x90,0x88,0x83,\ 0xc6,0xa1, 0x86 , 0x8e }; unsigned char n-= 0 ; void INT_T0 ( void ) { the TMOD = 0X01 ; // open timer 0, timer 1 mode using TH0 is = 0xFC ; TL0 = 0X18 ; // Initial value EA = 1 ; / / Turn on the main switch the Reference Crop Evapotranspiration = . 1 ; // open the interrupt switch T0 } void main ( void ) { INT_T0 (); TR0 =0 ; // timer opens the while ( . 1 ) { IF (KEY1 == 0 ) { TR0 = . 1 ; } IF (the KEY2 == . 1 ) { I = 0 ; n- = 0 ; } } } void TIME0 ( void ) interrupt . 1 { TH0 is = 0xFC ; TL0 = 0X18; //初始值 if(i < 1000) { i++; } else { LED = NUM[n]; if(n<16) { n++; } else { n = 0; } i = 0; } }
Making a stopwatch timer, the recording time of 0-15 seconds. It requires accurate and controllable.
1. Start the stopwatch can be controlled with the buttons
2. The button can be controlled by stopping the stopwatch
3. The key can be used to control the clock to zero
4. Use a timer to control the time precision is required.
5. Using a plurality of digital control and implement the functions keys.
code show as below:
#include<reg52.h> #define LED P0 sbit KEY1 = P1^0; sbit KEY2 = P1^1; unsigned int i = 0; unsigned char LED_NUM[] = {0xc0,0xf9,0xa4,0xb0,\ 0x99,0x92,0x82,0xf8,\ 0x80,0x90,0x88,0x83,\ 0xc6,0xa1, 0x86 , 0x8e }; unsigned char n-= 0 ; void INT_T0 ( void ) { the TMOD = 0X01 ; // open timer 0, timer 1 mode using TH0 is = 0xFC ; TL0 = 0X18 ; // Initial value EA = 1 ; / / Turn on the main switch the Reference Crop Evapotranspiration = . 1 ; // open the interrupt switch T0 } void main ( void ) { INT_T0 (); TR0 =0 ; // timer opens the while ( . 1 ) { IF (KEY1 == 0 ) { TR0 = . 1 ; } IF (the KEY2 == . 1 ) { I = 0 ; n- = 0 ; } } } void TIME0 ( void ) interrupt . 1 { TH0 is = 0xFC ; TL0 = 0X18; //初始值 if(i < 1000) { i++; } else { LED = NUM[n]; if(n<16) { n++; } else { n = 0; } i = 0; } }