Thông báo

**longdtskn** · 27-01-2013, 16:06

Nguyên văn bởi chand Xem bài viết

các bác cho em hỏi là : em làm mạch thì ok rồi,chạy ngon. mỗi tội là mức 0 của 595 em lại đo đc là ~2V ko biết là lỗi do đâu
các bác giúp em với

Bạn có thể cho mình xin mạch in để tham khảo k ? Thank

**chand** · 27-01-2013, 16:29

MACH.rar
của bạn.mình dùng altium10 nha.chưa update file pdf đc.mong các bạn thông cảm

**chand** · 27-01-2013, 19:56

led sáng dần thì đáng lẽ cái led trước phải tắt.đây nó lại sáng mờ mờ thế mới chán.chưa tìm đc nguyên nhân và cách khắc phục.bác nào biết cách chỉ em với

**chand** · 28-01-2013, 22:09

uppppppppppppppppppppppppppppppppppppp lên cho các bác giúp em
bác nào hay làm về món này giúp em chút.

các bác xem qua code rồi giúp em với.có chỗ nào sai không ak

Code:

/*****************************************************
Chip type               : ATmega16
Program type            : Application
AVR Core Clock frequency: 8.000000 MHz
Memory model            : Small
External RAM size       : 0
Data Stack size         : 256
*****************************************************/

#include <mega16.h>
#include <delay.h>

#define DATA         PORTA.2
#define SCK          PORTA.3
#define SCL          PORTA.4

#define DATA60       PORTA.5
#define SCK60        PORTA.6
#define SCL60        PORTA.7


unsigned char h,m,s;
unsigned char h1,h2,m1,m2,s1,s2;
unsigned char ma1[]={0xc0,0xf9,0xa4,0xb0,0x99,0x92,0x82,0xf8,0x80,0x90,0xFF};
unsigned char ma2[]={0x3F,0x06,0x5B,0x4F,0x66,0x6D,0x7D,0x07,0x7F,0x6F,0x00};
unsigned char MALED1[]={0xfe,0xfc,0xf8,0xf0,0xe0,0xc0,0x80,0x00};
unsigned char MALED2[]={0x01,0x03,0x07,0x0F,0x1F,0x3F,0x7F,0xFF};
unsigned char i,j,k;

// I2C Bus functions
#asm
   .equ __i2c_port=0x15 ;PORTC
   .equ __sda_bit=1
   .equ __scl_bit=0
#endasm
#include <i2c.h>

// DS1307 Real Time Clock functions
#include <ds1307.h>

// Timer 0 overflow interrupt service routine
static unsigned int counter;
interrupt [TIM0_OVF] void timer0_ovf_isr(void)
{
// Reinitialize Timer 0 value
TCNT0=0x06;
++counter;

}

#define FIRST_ADC_INPUT 0
#define LAST_ADC_INPUT 1
unsigned char adc_data[LAST_ADC_INPUT-FIRST_ADC_INPUT+1];
#define ADC_VREF_TYPE 0x60

// ADC interrupt service routine
// with auto input scanning
interrupt [ADC_INT] void adc_isr(void)
{
static unsigned char input_index=0;
// Read the 8 most significant bits
// of the AD conversion result
adc_data[input_index]=ADCH;
// Select next ADC input
if (++input_index > (LAST_ADC_INPUT-FIRST_ADC_INPUT))
   input_index=0;
ADMUX=(FIRST_ADC_INPUT | (ADC_VREF_TYPE & 0xff))+input_index;
// Delay needed for the stabilization of the ADC input voltage
delay_us(10);
// Start the AD conversion
ADCSRA|=0x40;
}

void Show_TIME(unsigned char x)
    {
        int i,temp;  
        for(i=0;i<8;i++)
            {
                temp=x;//gan bien
                temp=temp&0x80;//lay ra bit dau tien (bit 7)
                if(temp==0x80)//so sanh bit
                DATA=1; //bang 1 thi xuat vao chip =1
                else
                DATA=0; //nguoc lai bang 0
                x*=2; //dich bit lay bit trong so thap
                SCK=0; //tao xung tren chan 11
                SCK=1; //1 xung dua vào 1 bít
            }

        //SCL=0; 
       // SCL=1;
    } 
void Ghidich(unsigned char x)
    {
        int i,temp;  
        for(i=0;i<8;i++)
            {
                temp=x;//gan bien
                temp=temp&0x80;//lay ra bit dau tien (bit 7)
                if(temp==0x80)//so sanh bit
                DATA60=1; //bang 1 thi xuat vao chip =1
                else
                DATA60=0; //nguoc lai bang 0
                x*=2; //dich bit lay bit trong so thap
                SCK60=0; //tao xung tren chan 11
                SCK60=1; //1 xung dua vào 1 bít
            }
    }     

void ghi_dich(unsigned char t1,unsigned char t2,unsigned char t3,unsigned char t4,unsigned char t5,unsigned char t6,unsigned char t7,unsigned char t8)
{unsigned char i,Q; 
Q=t8;  for(i=0;i<8;i++){DATA60=(Q&0x01)?1:0;SCK60=1;SCK60=0;Q>>=1; } 
Q=t7;  for(i=0;i<8;i++){DATA60=(Q&0x01)?1:0;SCK60=1;SCK60=0;Q>>=1; }
Q=t6;  for(i=0;i<8;i++){DATA60=(Q&0x01)?1:0;SCK60=1;SCK60=0;Q>>=1; } 
Q=t5;  for(i=0;i<8;i++){DATA60=(Q&0x01)?1:0;SCK60=1;SCK60=0;Q>>=1; }
Q=t4;  for(i=0;i<8;i++){DATA60=(Q&0x01)?1:0;SCK60=1;SCK60=0;Q>>=1; } 
Q=t3;  for(i=0;i<8;i++){DATA60=(Q&0x01)?1:0;SCK60=1;SCK60=0;Q>>=1; }
Q=t2;  for(i=0;i<8;i++){DATA60=(Q&0x01)?1:0;SCK60=1;SCK60=0;Q>>=1; } 
Q=t1;  for(i=0;i<8;i++){DATA60=(Q&0x01)?1:0;SCK60=1;SCK60=0;Q>>=1; }
SCL60=0; SCL60=1;   
} 
void Clear_60LED(void)
    {
    ghi_dich(0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00); 
    } 
void Clear_TIME(void)
    {
    Show_TIME(0x00);
    Show_TIME(0x00); 
    Show_TIME(0x00);
    Show_TIME(0x00);
    SCL=0; 
    SCL=1;
    }
void Show_LED1(unsigned char gia_tri)
	{unsigned char k1,k2,k3;
	 k1=0;
     k2=MALED1[gia_tri%8];
     k3=0xFF;
	 if((gia_tri>=0)&&(gia_tri<8))  ghi_dich(k2,k3,k3,k3,k3,k3,k3,k3);
	 if((gia_tri>=8)&&(gia_tri<16)) ghi_dich(k1,k2,k3,k3,k3,k3,k3,k3);
	 if((gia_tri>=16)&&(gia_tri<24))ghi_dich(k1,k1,k2,k3,k3,k3,k3,k3);
	 if((gia_tri>=24)&&(gia_tri<32))ghi_dich(k1,k1,k1,k2,k3,k3,k3,k3);
	 if((gia_tri>=32)&&(gia_tri<40))ghi_dich(k1,k1,k1,k1,k2,k3,k3,k3);
	 if((gia_tri>=40)&&(gia_tri<48))ghi_dich(k1,k1,k1,k1,k1,k2,k3,k3);
	 if((gia_tri>=48)&&(gia_tri<56))ghi_dich(k1,k1,k1,k1,k1,k1,k2,k3);
	 if((gia_tri>=56)&&(gia_tri<60))ghi_dich(k1,k1,k1,k1,k1,k1,k1,k2);
	}
void Show_LED2(unsigned char gia_tri)
	{unsigned char k1,k2,k3;
	 k1=0;
     k2=MALED2[gia_tri%8];
     k3=0xFF;
	 if((gia_tri>=0)&&(gia_tri<8))  ghi_dich(k2,k1,k1,k1,k1,k1,k1,k1);
	 if((gia_tri>=8)&&(gia_tri<16)) ghi_dich(k3,k2,k1,k1,k1,k1,k1,k1);
	 if((gia_tri>=16)&&(gia_tri<24))ghi_dich(k3,k3,k2,k1,k1,k1,k1,k1);
	 if((gia_tri>=24)&&(gia_tri<32))ghi_dich(k3,k3,k3,k2,k1,k1,k1,k1);
	 if((gia_tri>=32)&&(gia_tri<40))ghi_dich(k3,k3,k3,k3,k2,k1,k1,k1);
	 if((gia_tri>=40)&&(gia_tri<48))ghi_dich(k3,k3,k3,k3,k3,k2,k1,k1);
	 if((gia_tri>=48)&&(gia_tri<56))ghi_dich(k3,k3,k3,k3,k3,k3,k2,k1);
	 if((gia_tri>=56)&&(gia_tri<60))ghi_dich(k3,k3,k3,k3,k3,k3,k3,k2); 
     delay_ms(5);Clear_60LED();delay_us(200);
	}  

void TIME(void)
    {
            m1=m%10;
            m2=m/10; 
            h1=h%10;
            h2=h/10;  
            Show_TIME(ma2[m1]);
            Show_TIME(ma2[m2]); 
            Show_TIME(ma2[h1]);
            Show_TIME(ma2[h2]);
            SCL=0; 
            SCL=1;

              
              
    }
void main(void)
{
// Input/Output Ports initialization
// Port A initialization
// Func7=Out Func6=Out Func5=Out Func4=Out Func3=Out Func2=Out Func1=In Func0=In 
// State7=0 State6=0 State5=0 State4=0 State3=0 State2=0 State1=T State0=T 
PORTA=0xFC;
DDRA=0xFC;
// Timer/Counter 0 initialization
// Clock source: System Clock
// Clock value: 125.000 kHz
// Mode: Normal top=0xFF
// OC0 output: Disconnected
TCCR0=0x03;
TCNT0=0x06;
OCR0=0x00;
// Timer(s)/Counter(s) Interrupt(s) initialization
TIMSK=0x01;
// ADC initialization
// ADC Clock frequency: 1000.000 kHz
// ADC Voltage Reference: AVCC pin
// ADC Auto Trigger Source: Free Running
// Only the 8 most significant bits of
// the AD conversion result are used
ADMUX=FIRST_ADC_INPUT | (ADC_VREF_TYPE & 0xff);
ADCSRA=0xEB;
SFIOR&=0x1F;
// I2C Bus initialization
i2c_init();

// DS1307 Real Time Clock initialization
// Square wave output on pin SQW/OUT: On
// Square wave frequency: 1Hz
rtc_init(0,1,0);
rtc_set_time(01,59,50);
// Global enable interrupts
#asm("sei")


while (1)
      {
      rtc_get_time(&h,&m,&s); 
      Show_LED2(s);
      TIME();
      }
}

**chand** · 28-01-2013, 22:21

uppppppppppppppppppppppppppp cho các bác giúp em với

**chand** · 29-01-2013, 01:11

uppppppppppppppppppppppppppp cho các bác giúp em với

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