Thread Rating:
  • 1 Vote(s) - 5 Average
  • 1
  • 2
  • 3
  • 4
  • 5
[Arduino demo source code for KC868-A4]-10 infrared signal receive and decoding
#1
Heart 
 Code 9: //The demo code is IR-ReceiveAndSend2     You can copy the code to your Arduino IDE.
Code:
#include <Arduino.h>
#include "PinDefinitionsAndMore.h"

//#define EXCLUDE_EXOTIC_PROTOCOLS // saves around 900 bytes program space

#include <IRremote.h>

int SEND_BUTTON_PIN = APPLICATION_PIN;
int STATUS_PIN = LED_BUILTIN;

int DELAY_BETWEEN_REPEAT = 50;

// On the Zero and others we switch explicitly to SerialUSB
#if defined(ARDUINO_ARCH_SAMD)
#define Serial SerialUSB
#endif

// Storage for the recorded code
struct storedIRDataStruct {
    IRData receivedIRData;
    // extensions for sendRaw
    uint8_t rawCode[RAW_BUFFER_LENGTH]; // The durations if raw
    uint8_t rawCodeLength; // The length of the code
} sStoredIRData;

int lastButtonState;

void storeCode(IRData *aIRReceivedData);
void sendCode(storedIRDataStruct *aIRDataToSend);

void setup() {
    Serial.begin(115200);
#if defined(__AVR_ATmega32U4__) || defined(SERIAL_USB) || defined(SERIAL_PORT_USBVIRTUAL)  || defined(ARDUINO_attiny3217)
    delay(4000); // To be able to connect Serial monitor after reset or power up and before first print out. Do not wait for an attached Serial Monitor!
#endif
    // Just to know which program is running on my Arduino
    Serial.println(F("START " __FILE__ " from " __DATE__ "\r\nUsing library version " VERSION_IRREMOTE));

    IrReceiver.begin(IR_RECEIVE_PIN, ENABLE_LED_FEEDBACK); // Start the receiver, enable feedback LED, take LED feedback pin from the internal boards definition

    IrSender.begin(IR_SEND_PIN, ENABLE_LED_FEEDBACK); // Specify send pin and enable feedback LED at default feedback LED pin

    pinMode(STATUS_PIN, OUTPUT);

    Serial.print(F("Ready to receive IR signals at pin "));
#if defined(ARDUINO_ARCH_STM32) || defined(ESP8266)
    Serial.println(IR_RECEIVE_PIN_STRING);
#else
    Serial.println(IR_RECEIVE_PIN);
#endif

    Serial.print(F("Ready to send IR signals at pin "));
#if defined(ARDUINO_ARCH_STM32) || defined(ESP8266)
    Serial.println(IR_SEND_PIN_STRING);
#else
    Serial.print(IR_SEND_PIN);
#endif
    Serial.print(F(" on press of button at pin "));
    Serial.println(SEND_BUTTON_PIN);

}

void loop() {

    // If button pressed, send the code.
    int buttonState = digitalRead(SEND_BUTTON_PIN); // Button pin is active LOW

    /*
     * Check for button just released in order to activate receiving
     */
    if (lastButtonState == LOW && buttonState == HIGH) {
        // Re-enable receiver
        Serial.println(F("Button released"));
        IrReceiver.start();
    }

    /*
     * Check for static button state
     */
    if (buttonState == LOW) {
        IrReceiver.stop();
        /*
         * Button pressed send stored data or repeat
         */
        Serial.println(F("Button pressed, now sending"));
        digitalWrite(STATUS_PIN, HIGH);
        if (lastButtonState == buttonState) {
            sStoredIRData.receivedIRData.flags = IRDATA_FLAGS_IS_REPEAT;
        }
        sendCode(&sStoredIRData);
        digitalWrite(STATUS_PIN, LOW);
        delay(DELAY_BETWEEN_REPEAT); // Wait a bit between retransmissions

        /*
         * Button is not pressed, check for incoming data
         */
    } else if (IrReceiver.available()) {
        storeCode(IrReceiver.read());
        IrReceiver.resume(); // resume receiver
    }

    lastButtonState = buttonState;
}

// Stores the code for later playback in sStoredIRData
// Most of this code is just logging
void storeCode(IRData *aIRReceivedData) {
    if (aIRReceivedData->flags & IRDATA_FLAGS_IS_REPEAT) {
        Serial.println(F("Ignore repeat"));
        return;
    }
    if (aIRReceivedData->flags & IRDATA_FLAGS_IS_AUTO_REPEAT) {
        Serial.println(F("Ignore autorepeat"));
        return;
    }
    if (aIRReceivedData->flags & IRDATA_FLAGS_PARITY_FAILED) {
        Serial.println(F("Ignore parity error"));
        return;
    }
    /*
     * Copy decoded data
     */
    sStoredIRData.receivedIRData = *aIRReceivedData;

    if (sStoredIRData.receivedIRData.protocol == UNKNOWN) {
        Serial.print(F("Received unknown code and store "));
        Serial.print(IrReceiver.decodedIRData.rawDataPtr->rawlen - 1);
        Serial.println(F(" timing entries as raw "));
        IrReceiver.printIRResultRawFormatted(&Serial, true); // Output the results in RAW format
        sStoredIRData.rawCodeLength = IrReceiver.decodedIRData.rawDataPtr->rawlen - 1;
        /*
         * Store the current raw data in a dedicated array for later usage
         */
        IrReceiver.compensateAndStoreIRResultInArray(sStoredIRData.rawCode);
    } else {
        IrReceiver.printIRResultShort(&Serial);
        sStoredIRData.receivedIRData.flags = 0; // clear flags -esp. repeat- for later sending
        Serial.println();
    }
}

void sendCode(storedIRDataStruct *aIRDataToSend) {
    if (aIRDataToSend->receivedIRData.protocol == UNKNOWN /* i.e. raw */) {
        // Assume 38 KHz
        IrSender.sendRaw(aIRDataToSend->rawCode, aIRDataToSend->rawCodeLength, 38);

        Serial.print(F("Sent raw "));
        Serial.print(aIRDataToSend->rawCodeLength);
        Serial.println(F(" marks or spaces"));
    } else {

        /*
         * Use the write function, which does the switch for different protocols
         */
        IrSender.write(&aIRDataToSend->receivedIRData, NO_REPEATS);

        Serial.print(F("Sent: "));
        printIRResultShort(&Serial, &aIRDataToSend->receivedIRData);
    }
}

.zip   ReceiveAndSend2.zip (Size: 4.73 KB / Downloads: 363)
Reply


Messages In This Thread
[Arduino demo source code for KC868-A4]-10 infrared signal receive and decoding - by KinCony Support - 01-07-2022, 05:27 AM

Forum Jump:


Users browsing this thread: