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I need help urgently if anyone can give me code to the Arduino controller.

I need to transmit an infrared signal using the Arduino to run a Samsung TV.

I tried the following code:

// Lucas Eckels
// Http://lucaseckels.com

// IR remote control emitter for NEC protocol remote, as described at
// Http://www.sbprojects.com/knowledge/ir/nec.htm
// Tested on a Samsung LCD TV.

#include <util/delay.h>

#define IR_PIN 13

// With CONTINOUS defined, the first command is repeated continuously until
// You reset the Arduino. Otherwise, it sends the code once, then waits for
// Another command.
#define CONTINUOUS

// Times are in microseconds
#define ON_START_TIME 4500
#define OFF_START_TIME 4500
#define ON_TIME 580
#define OFF_TIME_ONE 1670
#define OFF_TIME_ZERO 540

#define DEVICE_1 7
#define DEVICE_2 7

void setup() {
  pinMode (IR_PIN, OUTPUT);
  digitalWrite(IR_PIN, LOW);
  Serial.begin(9600);
  delay(1000);
  Serial.write("Starting up..\n");
}

byte command = 0;
int commandCount = 0;
bool commandReady = false;

void loop() {
  if (commandReady) {
    Serial.print("Writing command");
    Serial.print(command, DEC);
    Serial.print("\n");

    writeStart();
    // Writing device code
    writeByte(DEVICE_1);
    writeByte(DEVICE_2);

    // Writing command code
    writeByte(command);
    writeByte(~command);
    writeEnd();
    delay(100);

#ifndef CONTINUOUS
    commandReady = false;
    command = 0;
    commandCount = 0;
#endif
    return;
  }

  if (Serial.available () > 0) {
    // Read in a 3-digit decimal command code.
    byte incoming = Serial.read();
    if (incoming <= '9 ' || incoming >= '0') {
      command *= 10;
      command += incoming - '0 ';
      ++commandCount;
    }
    if (commandCount == 3) {
      commandReady = true;
    }
  }
}

void writeStart() {
  modulate(ON_START_TIME);
  delayMicroseconds(OFF_START_TIME);
}

void writeEnd() {
  modulate(ON_TIME);
}

void writeByte(byte val) {
  // Starting with the LSB, write out the
  for (int i = 0x01; i & 0xFF; i <<= 1) {
    modulate(ON_TIME);
    if (val & i) {
      delayMicroseconds (OFF_TIME_ONE);
    } else {
      delayMicroseconds (OFF_TIME_ZERO);
    }
  }
}

void modulate(int time) {
  int count = time / 26;
  byte portb = PORTB;
  byte portbHigh = portb | 0x20; // Pin 13 is controlled by 0x20 on PORTB.
  byte portbLow = portb & ~0x20;
  for (int i = 0; i <= count; i++) {
    // The ideal version of this loop would be:
    // DigitalWrite(IR_PIN, HIGH);
    // DelayMicroseconds(13);
    // DigitalWrite(IR_PIN, LOW);
    // DelayMicroseconds(13);
    // But I had a hard time getting the timing to work right. This approach was found
    // Through experimentation.
    PORTB = portbHigh;
    _delay_loop_1(64);
    PORTB = portbLow;
    _delay_loop_1(64);
  }
  PORTB = portb;
}

The code compiles but is not working for me.

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1  
The "i + +" looks suspicious to me -- perhaps "i++" would work better? –  David Cary Dec 24 '11 at 1:13
    
You had a considerable amount of errors in your code so I edited and fixed them to at least have it compile properly. Not saying I added anything that will actually make it work as expected though. See my answer for that. –  gotnull Feb 17 '12 at 5:09
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2 Answers

I wrote this to control an LG TV and Sony Amplifier. You would just need to save your own raw codes to the header file and off you go:

https://github.com/gotnull/SiriProxy-TV-Control/blob/master/arduino-remote/Remote/Remote.pde

// This procedure sends a 38KHz pulse to the IRledPin
// for a certain # of microseconds. We'll use this whenever we need to send codes
void pulseIR(long microsecs) {
  // we'll count down from the number of microseconds we are told to wait

  cli(); // this turns off any background interrupts

  while (microsecs > 0) {
    // 38 kHz is about 13 microseconds high and 13 microseconds low
   digitalWrite(IRledPin, HIGH); // this takes about 3 microseconds to happen
   delayMicroseconds(10); // hang out for 10 microseconds
   digitalWrite(IRledPin, LOW); // this also takes about 3 microseconds
   delayMicroseconds(10); // hang out for 10 microseconds

   // so 26 microseconds altogether
   microsecs -= 26;
  }

  sei(); // this turns them back on
}

I'd also recommend taking a read through Ladyada's wonderful tutorial:

Sensor tutorials - IR remote receiver/decoder tutorial

share|improve this answer
    
@orenberkovich Did this help at all? –  gotnull Feb 19 '12 at 23:56
    
Fixed github URL. –  gotnull Jan 31 '13 at 0:14
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DelayMicroseconds is fairly accurate, and will be precise enough for your task. However you are right in staying away from DigitalWrite. It takes about 50 times as many clock-cycles to complete compared to direct port assignment (PORTB=... ) which takes exactly one. You will only be able to time a 38MHz pulse that way. I don't know what your _delay_loop_1 does, but everything else seems okay. (aside from the "i + +" but that's a cut'n'paste typo I guess)

Have you checked that it actually lights up? a phone or cheap digicam will actually show you the IR on the screen.

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