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sâmbătă, 25 ianuarie 2014

Variator de tensiune pentru bec cu Arduino (VII)

   Dupa cum am scris si in articlul anterior, Smartphone ca telecomanda prin bluetooth pentru Arduino (II), acum am completat partea de variator de tensiune pentru becuri cu incandescenta cu comanda prin bluetooth de pe un telefon cu Android, care era prezentata in articolul Variator de tensiune pentru bec cu Arduino (VI).
   Schemele de conectare sunt combinatia celor 2:
iar modulul notat in schema "AC dimmer unit" are schema:
   Nota: Detalii de realizare a acestuia gasiti in articolul Variator de tensiune pentru bec folosind un Arduino !!!
   Am folosit urmatorul sketch (care nu-i "periat", dar e functional):
/*
AC Light Control
 Updated by Robert Twomey <rtwomey@u.washington.edu>
 Thanks to http://www.andrewkilpatrick.org/blog/?page_id=445 
 and http://www.hoelscher-hi.de/hendrik/english/dimmer.htm
 adapted sketch by niq_ro from
 http://www.tehnic.go.ro 
 http://www.niqro.3x.ro 
 http://nicuflorica.blogspot.com 

IR Remote Kit Test
 Uses YourDuino.com IR Infrared Remote Control Kit 2
 http://arduino-direct.com/sunshop/index.php?l=product_detail&p=153
 based on code by Ken Shirriff - http://arcfn.com
 Get Library at: https://github.com/shirriff/Arduino-IRremote

Bluetooth:
// adapted sketch from http://english.cxem.net/arduino/arduino4.php
*/

#include <LiquidCrystal.h>
// use LiquidCrystal.h library for alphanumerical display 1602
LiquidCrystal lcd(13,12,11,10,9,8);
/*                                     -------------------
                                       |  LCD  | Arduino |
                                       -------------------
 LCD RS pin to digital pin 13          |  RS   |   D13   |
 LCD Enable pin to digital pin 12      |  E    |   D12   |
 LCD D4 pin to digital pin 11          |  D4   |   D11   |
 LCD D5 pin to digital pin 10          |  D5   |   D10   |
 LCD D6 pin to digital pin 9           |  D6   |    D9   |
 LCD D7 pin to digital pin 8           |  D7   |    D8   |
 LCD R/W pin to ground                 |  R/W  |   GND   |
                                       -------------------
*/

#include "IRremote.h"
//-----( Declare Constants )-----
int receiver = 7; // pin 1 of IR receiver to Arduino digital pin 7
//-----( Declare objects )-----
IRrecv irrecv(receiver);           // create instance of 'irrecv'
decode_results results;            // create instance of 'decode_results'
//-----( Declare Variables )-----


#include <TimerOne.h>           // Avaiable from http://www.arduino.cc/playground/Code/Timer1

volatile int i=0;               // Variable to use as a counter
volatile boolean zero_cross=0;  // Boolean to store a "switch" to tell us if we have crossed zero
int AC_pin = 3;                 // Output to Opto Triac
int buton1 = 4;                 // first button at pin 4
int buton2 = 5;                 // second button at pin 5
int dim2 = 0;                   // led control
int dim = 128;                  // Dimming level (0-128)  0 = on, 128 = 0ff
int pas = 8;                    // step for count;
// version: 4m7 (15.04.2013 - Craiova, Romania) - 16 steps, 4 button & LED blue to red (off to MAX) 
// version: 7m6.1 (23.01.2014 - Craiova, Romania) - 16 steps, 2 button & LCD1602

int freqStep = 75;    // This is the delay-per-brightness step in microseconds.

char incomingByte;  // incoming data from serial 9bluetooth)
 
void setup() {  // Begin setup

  Serial.begin(9600); // initialization
  
  irrecv.enableIRIn(); // Start the IR receiver (classic remote)

  pinMode(buton1, INPUT);  // set buton1 pin as input
  pinMode(buton2, INPUT);  // set buton1 pin as input
  pinMode(AC_pin, OUTPUT);                          // Set the Triac pin as output
  attachInterrupt(0, zero_cross_detect, RISING);    // Attach an Interupt to Pin 2 (interupt 0) for Zero Cross Detection
  Timer1.initialize(freqStep);                      // Initialize TimerOne library for the freq we need
  Timer1.attachInterrupt(dim_check, freqStep);      
  // Use the TimerOne Library to attach an interrupt

 lcd.begin(16, 2); // set up the LCD's number of columns and rows: 
 lcd.clear(); // clear the screen
 lcd.setCursor(2, 0); // put cursor at colon 0 and row 0
 lcd.print("16 steps AC"); // print a text
 lcd.setCursor(0, 1); // put cursor at colon 0 and row 1
 lcd.print("dimmer for bulb"); // print a text
 delay (3000);
 lcd.clear(); // clear the screen
 lcd.setCursor(1, 0); // put cursor at colon 0 and row 0
 lcd.print("this sketch is"); // print a text
 lcd.setCursor(1, 1); // put cursor at colon 0 and row 1
 lcd.print("made by niq_ro"); // print a text
 delay (3000);
 lcd.clear(); // clear the screen
}

void zero_cross_detect() {    
  zero_cross = true;               // set the boolean to true to tell our dimming function that a zero cross has occured
  i=0;
  digitalWrite(AC_pin, LOW);
}                                 

// Turn on the TRIAC at the appropriate time
void dim_check() {                   
  if(zero_cross == true) {              
    if(i>=dim) {                     
      digitalWrite(AC_pin, HIGH);  // turn on light       
      i=0;  // reset time step counter                         
      zero_cross=false;    // reset zero cross detection
    } 
    else {
      i++;  // increment time step counter                     
    }                                
  }    
}                                      


//-----( Declare User-written Functions )-----
void translateIR() // takes action based on IR code received

// describing Car MP3 IR codes 
{
  switch(results.value)
  {
  case 0xFFA25D:  
    Serial.println(" CH-            "); 
    break;

  case 0xFF629D:  
    Serial.println(" CH             "); 
    break;

  case 0xFFE21D:  
    Serial.println(" CH+            "); 
    break;

  case 0xFF22DD:  
    {
    Serial.println(" PREV           "); 
    dim=128;
    }
    break;

  case 0xFF02FD:  
    {
    Serial.println(" NEXT           "); 
    dim=0;
    }
    break;

  case 0xFFC23D:  
    Serial.println(" PLAY/PAUSE     "); 
    break;

  case 0xFFE01F:  
    {
    Serial.println(" VOL-           "); 
    if (dim<127)  
   {
    dim = dim + pas;
    if (dim>127) 
    {
      dim=128; // in vechiul sketch era 127
    }
    }
    }
    break;

  case 0xFFA857:  
    {
    Serial.println(" VOL+           "); 
      {
  if (dim>5)  
  {
     dim = dim - pas;
  if (dim<0) 
    {
      dim=0;  // in vechiul sketch era 1
    }
   }
   }
   }
    break;

  case 0xFF906F:  
    Serial.println(" EQ             "); 
    break;

  case 0xFF6897:  
    {
    Serial.println(" 0              "); 
 //   analogWrite(ledr, 0); 
 //   analogWrite(leda, 0); 
 //   analogWrite(ledv, 0); 
     }
    break;

  case 0xFF9867:  
    Serial.println(" 100+           "); 
    break;

  case 0xFFB04F:  
    Serial.println(" 200+           "); 
    break;

  case 0xFF30CF:  
    {
    Serial.println(" 1              "); 
 //   analogWrite(leda, 255);
    }
    break;

  case 0xFF18E7:  
    {  
    Serial.println(" 2              "); 
 //   analogWrite(ledv, 255);
    }
    break;

  case 0xFF7A85:  
    {
    Serial.println(" 3              "); 
 //   analogWrite(ledr, 255);
    }
    break;

  case 0xFF10EF:  
    {
    Serial.println(" 4              "); 
 //   analogWrite(leda, 122);
    }
    break;

  case 0xFF38C7:  
    {
    Serial.println(" 5              "); 
 //   analogWrite(ledv, 122);
    }
    break;

  case 0xFF5AA5:  
    {
    Serial.println(" 6              "); 
 //   analogWrite(ledr, 122);
    }
    break;

  case 0xFF42BD:  
    {
    Serial.println(" 7              "); 
 //   analogWrite(leda, 0);
    }
    break;

  case 0xFF4AB5:  
    {
    Serial.println(" 8              "); 
 //   analogWrite(ledv, 0);
    }
    break;

  case 0xFF52AD:  
    {
    Serial.println(" 9              "); 
 //   analogWrite(ledr, 0);
    }
    break;

  default: 
    Serial.println(" other button   ");

  }

}

void blustuf()
{
    incomingByte = Serial.read(); // read byte
    if(incomingByte == '0') {
       }
    if(incomingByte == '1') {
    }
    if(incomingByte == '2') {
    }
    if(incomingByte == '3') {
    }
    if(incomingByte == '4') {
    }
    if(incomingByte == '5') {
    }
    if(incomingByte == '6') {
    }
    if(incomingByte == '7') {
    }
  if(incomingByte == 'a') {   //step up
  if (dim<127)  
   {
    dim = dim + pas;
    if (dim>127) 
    {
      dim=128; 
    }
    }  
  }
  
  if(incomingByte == 's') {  //step down
  if (dim>5)  
   {
    dim = dim - pas;
    if (dim<0) 
    {
      dim=0; 
    }
    }  
  }
 
  if(incomingByte == 'w') {  // power is 100%
    dim=0; 
  }
  if(incomingByte == 'z') {  // power is 0% (off)
    dim=128; 
  }
}

void stelute()
{
if (dim2<1) lcd.print("----------------");
else 
if (dim2<9) lcd.print("*---------------");
else 
if (dim2<17) lcd.print("-*--------------");
else
if (dim2<25) lcd.print("--*-------------");
else
if (dim2<33) lcd.print("---*------------");
else
if (dim2<41) lcd.print("----*-----------");
else
if (dim2<49) lcd.print("-----*----------");
else
if (dim2<57) lcd.print("------*---------");
else
if (dim2<65) lcd.print("-------*--------");
else
if (dim2<73) lcd.print("--------*-------");
else
if (dim2<81) lcd.print("---------*------");
else
if (dim2<89) lcd.print("----------*-----");
else
if (dim2<97) lcd.print("-----------*----");
else
if (dim2<105) lcd.print("------------*---");
else
if (dim2<113) lcd.print("-------------*--");
else
if (dim2<121) lcd.print("--------------*-");
else
if (dim2>127) lcd.print("---------------*");
}


void loop() {  
  digitalWrite(buton1, HIGH);
  digitalWrite(buton2, HIGH);

 if (Serial.available() > 0) blustuf();  // if bluetooth is present

 if (digitalRead(buton1) == LOW)   
   {
  if (dim<127)  
  {
    dim = dim + pas;
    if (dim>127) 
    {
      dim=128; // in vechiul sketch era 127
    }
  }
   }
  if (digitalRead(buton2) == LOW)   
   {
  if (dim>5)  
  {
     dim = dim - pas;
  if (dim<0) 
    {
      dim=0;  // in vechiul sketch era 1
    }
   }
   }
    while (digitalRead(buton1) == LOW) {  }              
    delay(10); // waiting little bit...  
    while (digitalRead(buton2) == LOW) {  }              
    delay(10); // waiting little bit...    

 
// remote
   if (irrecv.decode(&results)) // have we received an IR signal?
  {
    translateIR(); 
    irrecv.resume(); // receive the next value
  }  

 delay (100);
 lcd.setCursor(2, 0); // put cursor at colon 0 and row 0
 lcd.print("power is "); // print a text
 lcd.print(100*(128-dim)/128);
 lcd.print("%    "); // print a text

lcd.setCursor(0, 1); // put cursor at colon 0 and row 1

dim2=128-dim; // variable use for graphics
stelute();
}

   Am facut si 2 filmulete (primul in romana si al doilea in engleza):
ac light dimmer with Arduino (XXI)
ac light dimmer with Arduino (XXII)