i have a Raspberry Pi 3 Model B connected to an Arduino Mega 2560 trough I2C using a level shifter because of the different GPIO voltages.

Raspberry Pi --- 3.3V --- Level Shifter --- 5V --- Arduino Mega

In my code i have the Arduino reading the analog value of a Potentiometer and sending it to the Raspberry Pi in 2 Bytes (max value = 1023). The Raspberry Pi receives the 2 Bytes and combine them together in 16 Bits, and divides the value by 4, to achieve a max value of 255.

The Raspberry Pi send this value back to the Arduino, which sets the PWM value of a LED to dimm it.

The code works fine, but just if i have a 2 seconds delay on the main Loop of the Raspberry Pi. As long as i remove it, the code runs for just 1 - 2 seconds before freezing the I2C Bus. If i run i2cdetect on terminal after the I2C stop working, i cant see its address anymore until i remove the I2C Connections and build it again before running the Programm again.

The smalles value for sleep in which the code works without losing I2C Connection ist 5ms.

Master Code (RPi):

#include <unistd.h>
#include <iostream>
#include <fstream>
#include <stdio.h>
#include <stdlib.h>
#include <sys/ioctl.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <linux/i2c-dev.h>

using namespace std;
int file_i2c;
int length_rcv = 30;
int length_snd = 9;
unsigned char buffer_rcv[30] = {0};
unsigned char buffer_snd[9] = {0};
uint8_t addr = 0x06;

using namespace std;

uint16_t ang;

int main(void)
        char *filename = (char*)"/dev/i2c-1";
        if((file_i2c = open(filename, O_RDWR))< 0 ){
                cout << "Failed to open the i2c bus" << endl;
                return 0;

        //Acquires buss access
        if (ioctl(file_i2c, I2C_SLAVE, addr) < 0){
                    cout << "Failed to acquire bus access and/or talk to slave" << endl;

        //Reads buffer
        if (read(file_i2c, buffer_rcv, length_rcv) != length_rcv){
                        cout <<"Failed to read from the i2c bus" << endl;
                } else {
                        cout << "Data read:" << buffer_rcv[0] << endl;          

        //Combine Bytes in 16 Bits and divide by 4
        ang = ((uint16_t)buffer_rcv[0] << 8 | (uint16_t)msg_rcv[1];
        ang = ang/4;

        cout << ang << endl;

                buffer_snd[0] = ang;

        //Writes buffer
                if (write(file_i2c, buffer_snd, length_snd) != length_snd){
                        cout << "Failed to write to the i2c bus " << endl;

        return 0;

Slave Code (Arduino):

#include <Wire.h>

//Input Pins
int angPin = 8;

//Output Pins
int pwmVLPin = 10;

//Input Values
volatile int ang;

//Byte Values
volatile byte ang_H, ang_L;

//Output Values
volatile byte pwmVL;

//Buffer for receiving I2C
volatile byte msg_rcv[9];

volatile int i = 0;

void setup() {



  //Input Pins
  pinMode(angPin, INPUT);

  //Output Pins
  pinMode(pwmVLPin, OUTPUT);


void loop() {

  //Read Inputs
  ang = analogRead(angPin);

  //Write Outputs
  analogWrite(pwmVLPin, pwmVL);


void receiveData(int HowMany) {

  //Read bytes  
  while (1 <= Wire.available()) {
    byte c = Wire.read();
    msg_rcv[i] = c;

  //Assings each byte of the incoming message to each output variable
  pwmVL = msg_rcv[0];


  i = 0;


void sendData() {

  //Split the values in bytes
  ang_H = (ang >> 8) & 0xFF;
  ang_L = ang & 0xFF;


  //Save Inputs into the message
  byte msg_snd[30] = {ang_H, ang_L, ...};

  //Send the message

Does anyone knows how to fix it? It should be able to communicate without the big delay in main().

PS: The message to be send is usualy bigger (30 Bytes) but i removed the ones that arent important.


  • It might simply be that receiveData receives more than 9 bytes in that loop, msg_rcv then overflows and some other important data is corrupted, resulting is malfunction of the software. – domen Sep 27 '18 at 8:05

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