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ATtiny單片機(jī)電子蠟燭,ATtiny candle

關(guān)鍵字：ATTINY85,電子蠟燭電路

想想當(dāng)你好不容易跟女朋友共度燭光晚餐，卻因?yàn)橄灎T點(diǎn)沒了或打翻著火了，那是一件多么坑爹的事啊！今天為你分享一款自己diy的超自然的燭光蠟燭。

ATtiny 電子蠟燭，皮特?米爾斯開發(fā)這個(gè)偉大的蠟燭，正如我們圖片所見到的一樣，但怎樣讓這蠟燭的光芒像傳統(tǒng)的蠟燭一樣閃爍呢。

皮特使用一個(gè)高亮的LED和一些模擬的輔助軟件，這樣就使得ATtiny 電子蠟燭的燭光和傳統(tǒng)蠟燭擁有一樣的閃爍的燭光，并且優(yōu)于傳統(tǒng)蠟燭，因?yàn)樗话橛忻骰鸬奈ｋU(xiǎn)。

ATtiny 電子蠟燭最難的部分就閃爍神態(tài)逼真，所以皮特做了一個(gè)蠟燭光檢測電阻（ LDR ）和固定電阻作為一個(gè)分壓器。這是作為ATTINY85 ADC之中的一個(gè)輸入端，并離散時(shí)間間隔的進(jìn)行采樣。采樣速率為100毫秒。然后將采集的8bit的電頻值存儲(chǔ)到EEPROM中，以便記錄蠟燭的閃爍圖譜，驅(qū)動(dòng)將其連接的LED、PWM形成通路。在用三節(jié)干電池供電。最后您只需編程程序，然后通過開關(guān)進(jìn)行控制。

下面是ATtiny 電子蠟燭的電路圖

下面是程序的代碼以及寫入EEPROM的數(shù)據(jù)

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/* 
Program Description: This program reads a light detecting resistor thru an internal ADC and stores the value,  
after scaling it, to eeprom.  This ADC value is sent to a PWM channel with attached led.  This is essentially a data logger 
for light and replay by LED.  If, if you aim the LDR at a flickering candle during its recording phase, you have a flickering  
led candle.   
 
A circuit description and other details can be found at http://petemills.blogspot.com 
 
Filename: ATTiny_Candle_v1.0.c 
Author: Pete Mills 
 
Int. RC Osc. 8 MHz; Start-up time PWRDWN/RESET: 6 CK/14 CK + 64 ms 
 
*/  
  
  
  
//********** Includes **********  
  
#include        
#include      
#include   
  
  
  
  
//********** Definitions **********  
  
// LED for flame simulation  
  
#define LED   PB0    
#define LED_PORT PORTB  
#define LED_DDR  DDRB  
  
  
  
// Light Detecting Resistor for recording a live flame  
  
#define LDR   PINB3   
#define LDR_PORT PINB  
#define LDR_DDR  DDRB  
  
  
  
// Tactile Switch Input  
  
#define SW1   PINB4  
#define SW1_PORT PINB  
#define SW1_DDR  DDRB  
  
  
#define ARRAY_SIZE 500  // size of the flicker array  
#define SAMPLE_RATE 100  // ms delay for collecting and reproducing the flicker  
  
  
  
//********** Function Prototypes **********  
  
void setup(void);  
void toggle_led(void);  
void program_flicker(void);  
void led_alert(void);  
void eeprom_save_array(void);  
void eeprom_read_array(void);  
void scale_array(void);  
uint8_t get_adc(void);  
uint8_t scale( uint8_t input, uint8_t inp_low, uint8_t inp_hi, uint8_t outp_low, uint8_t outp_hi);  
uint8_t is_input_low(char port, char channel, uint8_t debounce_time, int input_block);  
  
  
  
  
//********** Global Variables **********  
  
uint8_t flicker_array[ ARRAY_SIZE ] = { 0 };  
uint8_t EEMEM ee_flicker_array[ ARRAY_SIZE ] = { 0 };  
  
  
int main(void)  
{  
  
uint16_t replay = 0;  
  
setup();  
  
eeprom_read_array();  
  
  
  
 while(1)  
 {   
   
    
    
    
  if( is_input_low( SW1_PORT, SW1, 25, 250 ) )  
  {  
     
   // program the flicker  
   // after entering and upon completion, a predetermined flash pattern will occur as described in led_alert()    
   // aim the ldr at a flickering candle or any other light source ( like a laser ) you want to record during this time  
   // and upon completion the values are stored to eeprom.  They are played back immediately as well   
   // as being recalled from eeprom upon first start up  
     
   led_alert();  
   program_flicker();  
   scale_array();  
   eeprom_save_array();  
   led_alert();  
  }  
    
    
    
  // replay the recorded flicker pattern   
    
  OCR0A = flicker_array[ replay ];  
  ++replay;  
    
  if( replay >= ( ARRAY_SIZE - 13 ) ) // if the end of the stored array has been reached  
  {   
   replay = 0;          // start again from the beginning  
   //led_alert();  
  }  
    
  _delay_ms( SAMPLE_RATE );  
  _delay_ms( 3 );    // ADC Conversion time  
     
 }  
}  
  
  
  
  
//********** Functions **********  
  
void setup(void)  
{  
  
  
  
 //********* Port Config *********  
  
 LED_DDR |= ( 1 << LED);   // set PB0 to "1" for output   
 LED_PORT &= ~( 1 << LED );   // turn the led off  
  
 LDR_DDR &= ~( 1 << LDR );   // set LDR pin to 0 for input  
 LDR_PORT |= ( 1 << LDR );   // write 1 to enable internal pullup  
  
 SW1_DDR &= ~( 1 << SW1 );   // set sw1 pin to 0 for input  
 SW1_PORT |= ( 1 << SW1 );   // write a 1 to sw1 to enable the internal pullup  
  
  
  
 //********** PWM Config *********  
   
 TCCR0A |= ( ( 1 << COM0A1 ) | ( 1 << WGM01 ) | ( 1 << WGM00 ) ); // non inverting fast pwm  
 TCCR0B |= ( 1 << CS00 ); // start the timer  
   
   
   
 //********** ADC Config **********  
   
 ADMUX |= ( ( 1 << ADLAR ) | ( 1 << MUX1 ) | ( 1 << MUX0 ) );  // left adjust and select ADC3  
 ADCSRA |= ( ( 1 << ADEN ) | ( 1 << ADPS2 ) | ( 1 << ADPS1 ) ); // ADC enable and clock divide 8MHz by 64 for 125khz sample rate  
 DIDR0 |= ( 1 << ADC3D ); // disable digital input on analog input channel to conserve power  
  
}  
  
  
  
  
void toggle_led()  
{  
    LED_PORT ^= ( 1 << LED );  
}  
  
  
  
  
uint8_t is_input_low( char port, char channel, uint8_t debounce_time, int input_block )  
{  
  
/*  
This function is for debouncing a switch input  
Debounce time is a blocking interval to wait until the input is tested again.  
If the input tests low again, a delay equal to input_block is executed and the function returns ( 1 )  
*/  
          
 if ( bit_is_clear( port, channel ) )  
 {  
  _delay_ms( debounce_time );  
     
   if ( bit_is_clear( port, channel ) )   
   {  
    _delay_ms( input_block );  
    return 1;  
   }  
   
 }  
  
 return 0;  
}  
  
  
  
  
uint8_t get_adc()  
{  
 ADCSRA |= ( 1 << ADSC );   // start the ADC Conversion  
   
 while( ADCSRA & ( 1 << ADSC ));  // wait for the conversion to be complete  
   
 return ~ADCH; // return the inverted 8-bit left adjusted adc val  
  
}  
  
  
  
  
void program_flicker()  
{   
 // build the flicker array  
   
 for( int i = 0; i < ARRAY_SIZE; i++ )  
 {  
  flicker_array[ i ] = get_adc();    
  _delay_ms( SAMPLE_RATE );  
 }  
  
}  
  
  
  
  
void led_alert()  
{  
 // this is a function to create a visual alert that an event has occured within the program  
 // it toggles the led 10 times.  
   
 for( int i = 0; i < 10; i++ )  
 {  
  OCR0A = 0;  
  _delay_ms( 40 );  
  OCR0A = 255;  
  _delay_ms( 40 );  
 }  
  
}  
  
  
  
  
void eeprom_save_array()  
{   
 for( int i = 0; i < ARRAY_SIZE; i++ )  
 {  
  eeprom_write_byte( &ee_flicker_array[ i ], flicker_array[ i ] );  
    
 }  
}  
  
  
  
  
void eeprom_read_array()  
{  
 for( int i = 0; i < ARRAY_SIZE; i++ )  
 {  
  flicker_array[ i ] = eeprom_read_byte( &ee_flicker_array[ i ] );  
    
 }  
}  
  
  
  
  
uint8_t scale( uint8_t input, uint8_t inp_low, uint8_t inp_hi, uint8_t outp_low, uint8_t outp_hi)  
{  
return ( ( ( input - inp_low ) * ( outp_hi - outp_low ) ) / ( ( inp_hi - inp_low ) + outp_low ) );  
}  
  
  
  
  
void scale_array()  
{  
 uint8_t arr_min = 255;  
 uint8_t arr_max = 0;  
 uint8_t out_low = 20;  
 uint8_t out_high = 255;  
   
   
   
 // find the min and max values  
   
 for( int i = 0; i < ARRAY_SIZE; i++ )  
 {  
  if( flicker_array[ i ] < arr_min )  
   arr_min = flicker_array[ i ];  
     
  if( flicker_array[ i ] > arr_max )  
   arr_max = flicker_array[ i ];  
 }  
   
   
   
 // now that we know the range, scale it  
   
 for( int i = 0; i < ARRAY_SIZE; i++ )  
 {  
  flicker_array[ i ] = scale( flicker_array[ i ], arr_min, arr_max, out_low, out_high );  
 }  
   
}   igh );  
 }  
   
}   igh );  
 }  
   
}    
 }  
   
}    
 }  
   
}    
 }  
   
}    }  
   
}    }  
   
}    }  
   
}

EEPROM的數(shù)據(jù)

rom.rar

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ATtiny單片機(jī)電子蠟燭,ATtiny candle

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