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  1. I have tried the below program to interface mpu6050 with esp8266-12e and arduino uno both show fifo overflow issue when additional program is used. And it's giving this issue only when I include some delay in program like 1sec delay removing that delay it will work fine with no problems (now I have added delay just for test purpose that is:I will actually be throwing the data in firebase which will have more than 5 seconds delay when throwing angular data that time also it's going to give me overflow which happened) how do I sort this issue? Here is my code: #include "I2Cdev.h" #include "MPU6050_6Axis_MotionApps20.h" //#include "MPU6050.h" // not necessary if using MotionApps include file // Arduino Wire library is required if I2Cdev I2CDEV_ARDUINO_WIRE implementation // is used in I2Cdev.h #if I2CDEV_IMPLEMENTATION == I2CDEV_ARDUINO_WIRE #include "Wire.h" #endif MPU6050 mpu; #define OUTPUT_READABLE_EULER //#define OUTPUT_READABLE_YAWPITCHROLL //#define OUTPUT_READABLE_REALACCEL //#define OUTPUT_READABLE_WORLDACCEL //#define OUTPUT_TEAPOT #define INTERRUPT_PIN 2 // use pin 2 on Arduino Uno & most boards //#define LED_PIN 13 // (Arduino is 13, Teensy is 11, Teensy++ is 6) bool blinkState = false; // MPU control/status vars bool dmpReady = false; // set true if DMP init was successful uint8_t mpuIntStatus; // holds actual interrupt status byte from MPU uint8_t devStatus; // return status after each device operation (0 = success, !0 = error) uint16_t packetSize; // expected DMP packet size (default is 42 bytes) uint16_t fifoCount; // count of all bytes currently in FIFO uint8_t fifoBuffer[64]; // FIFO storage buffer // orientation/motion vars Quaternion q; // [w, x, y, z] quaternion container VectorInt16 aa; // [x, y, z] accel sensor measurements VectorInt16 aaReal; // [x, y, z] gravity-free accel sensor measurements VectorInt16 aaWorld; // [x, y, z] world-frame accel sensor measurements VectorFloat gravity; // [x, y, z] gravity vector float euler[3]; // [psi, theta, phi] Euler angle container float ypr[3]; // [yaw, pitch, roll] yaw/pitch/roll container and gravity vector // packet structure for InvenSense teapot demo uint8_t teapotPacket[14] = { '$', 0x02, 0,0, 0,0, 0,0, 0,0, 0x00, 0x00, '\r', '\n' }; // ================================================================ // === INTERRUPT DETECTION ROUTINE === // ================================================================ volatile bool mpuInterrupt = true; // indicates whether MPU interrupt pin has gone high void dmpDataReady() { mpuInterrupt = true; } // ================================================================ // === INITIAL SETUP === // ================================================================ void setup() { Serial.begin(9600); // join I2C bus (I2Cdev library doesn't do this automatically) #if I2CDEV_IMPLEMENTATION == I2CDEV_ARDUINO_WIRE //Wire.begin(4,5); Wire.begin(); //Wire.setClock(400000); // 400kHz I2C clock. Comment this line if having compilation difficulties #elif I2CDEV_IMPLEMENTATION == I2CDEV_BUILTIN_FASTWIRE Fastwire::setup(400, true); #endif while (!Serial); // wait for Leonardo enumeration, others continue immediately Serial.println(F("Initializing I2C devices...")); mpu.initialize(); pinMode(INTERRUPT_PIN, INPUT); // verify connection Serial.println(F("Testing device connections...")); Serial.println(mpu.testConnection() ? F("MPU6050 connection successful") : F("MPU6050 connection failed")); // wait for ready Serial.println(F("\nSend any character to begin DMP programming and demo: ")); while (Serial.available() && Serial.read()); // empty buffer while (!Serial.available()); // wait for data while (Serial.available() && Serial.read()); // empty buffer again // load and configure the DMP Serial.println(F("Initializing DMP...")); devStatus = mpu.dmpInitialize(); // supply your own gyro offsets here, scaled for min sensitivity mpu.setXGyroOffset(-4); mpu.setYGyroOffset(7); mpu.setZGyroOffset(65); mpu.setZAccelOffset(1318); // 1688 factory default for my test chip // make sure it worked (returns 0 if so) if (devStatus == 0) { // turn on the DMP, now that it's ready Serial.println(F("Enabling DMP...")); mpu.setDMPEnabled(true); // enable Arduino interrupt detection Serial.println(F("Enabling interrupt detection (Arduino external interrupt 0)...")); // attachInterrupt(digitalPinToInterrupt(INTERRUPT_PIN), dmpDataReady, RISING); //mpuInterrupt = true; mpuIntStatus = mpu.getIntStatus(); // set our DMP Ready flag so the main loop() function knows it's okay to use it //Serial.println(F("DMP ready! Waiting for first interrupt...")); dmpReady = true; // get expected DMP packet size for later comparison packetSize = mpu.dmpGetFIFOPacketSize(); } else { // ERROR! // 1 = initial memory load failed // 2 = DMP configuration updates failed // (if it's going to break, usually the code will be 1) Serial.print(F("DMP Initialization failed (code ")); Serial.print(devStatus); Serial.println(F(")")); } // configure LED for output // pinMode(LED_PIN, OUTPUT); } // ================================================================ // === MAIN PROGRAM LOOP === // ================================================================ void loop() { // if programming failed, don't try to do anything mpu_data(); delay(1000); } void mpu_data(void) { if (!dmpReady) return; // wait for MPU interrupt or extra packet(s) available //while (!mpuInterrupt && fifoCount < packetSize) // { // other program behavior stuff here // . // . // . // if you are really paranoid you can frequently test in between other // stuff to see if mpuInterrupt is true, and if so, "break;" from the // while() loop to immediately process the MPU data // . // . // . //} fifoCount = mpu.getFIFOCount(); // check for overflow (this should never happen unless our code is too inefficient) if(fifoCount == 1024) { // reset so we can continue cleanly mpu.resetFIFO(); Serial.println(F("FIFO overflow!")); // otherwise, check for DMP data ready interrupt (this should happen frequently) } else { // wait for correct available data length, should be a VERY short wait while (fifoCount < packetSize) { fifoCount = mpu.getFIFOCount();} // read a packet from FIFO mpu.getFIFOBytes(fifoBuffer, packetSize); mpu.resetFIFO(); // track FIFO count here in case there is > 1 packet available // (this lets us immediately read more without waiting for an interrupt) fifoCount -= packetSize; Serial.println(fifoCount); if (fifoCount > 2) { ////// clear fifo buffer mpu.resetFIFO(); } #ifdef OUTPUT_READABLE_QUATERNION // display quaternion values in easy matrix form: w x y z mpu.dmpGetQuaternion(&q, fifoBuffer); Serial.print("quat\t"); Serial.print(q.w); Serial.print("\t"); Serial.print(q.x); Serial.print("\t"); Serial.print(q.y); Serial.print("\t"); Serial.println(q.z); #endif #ifdef OUTPUT_READABLE_EULER // display Euler angles in degrees mpu.dmpGetQuaternion(&q, fifoBuffer); mpu.dmpGetEuler(euler, &q); Serial.print("euler\t"); Serial.print(euler[0] * 180/M_PI); Serial.print("\t"); Serial.print(euler[1] * 180/M_PI); Serial.print("\t"); Serial.println(euler[2] * 180/M_PI); #endif #ifdef OUTPUT_READABLE_YAWPITCHROLL // display Euler angles in degrees mpu.dmpGetQuaternion(&q, fifoBuffer); mpu.dmpGetGravity(&gravity, &q); mpu.dmpGetYawPitchRoll(ypr, &q, &gravity); Serial.print("ypr\t"); Serial.print(ypr[0] * 180/M_PI); Serial.print("\t"); Serial.print(ypr[1] * 180/M_PI); Serial.print("\t"); Serial.println(ypr[2] * 180/M_PI); #endif #ifdef OUTPUT_READABLE_REALACCEL // display real acceleration, adjusted to remove gravity mpu.dmpGetQuaternion(&q, fifoBuffer); mpu.dmpGetAccel(&aa, fifoBuffer); mpu.dmpGetGravity(&gravity, &q); mpu.dmpGetLinearAccel(&aaReal, &aa, &gravity); Serial.print("areal\t"); Serial.print(aaReal.x); Serial.print("\t"); Serial.print(aaReal.y); Serial.print("\t"); Serial.println(aaReal.z); #endif #ifdef OUTPUT_READABLE_WORLDACCEL // display initial world-frame acceleration, adjusted to remove gravity // and rotated based on known orientation from quaternion mpu.dmpGetQuaternion(&q, fifoBuffer); mpu.dmpGetAccel(&aa, fifoBuffer); mpu.dmpGetGravity(&gravity, &q); mpu.dmpGetLinearAccel(&aaReal, &aa, &gravity); mpu.dmpGetLinearAccelInWorld(&aaWorld, &aaReal, &q); Serial.print("aworld\t"); Serial.print(aaWorld.x); Serial.print("\t"); Serial.print(aaWorld.y); Serial.print("\t"); Serial.println(aaWorld.z); #endif #ifdef OUTPUT_TEAPOT // display quaternion values in InvenSense Teapot demo format: teapotPacket[2] = fifoBuffer[0]; teapotPacket[3] = fifoBuffer[1]; teapotPacket[4] = fifoBuffer[4]; teapotPacket[5] = fifoBuffer[5]; teapotPacket[6] = fifoBuffer[8]; teapotPacket[7] = fifoBuffer[9]; teapotPacket[8] = fifoBuffer[12]; teapotPacket[9] = fifoBuffer[13]; Serial.write(teapotPacket, 14); teapotPacket[11]++; // packetCount, loops at 0xFF on purpose #endif } } I saw this link :http://arduino.stackexchange.com/questions/10308/how-to-clear-fifo-buffer-on-mpu6050 and made changes but, no effect (note: I get proper data if I remove 1s delay in main void() loop if not it will give this fifo problem)
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