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  1. Hi, I am using MPU6050 with your written code in DMP mode on Arduino due and it's working fine stand alone.. But I have to integrate some other things into my code like (Due timer library to generate software interrupt every second, external interrupt on pin 52 to count pulses ). when i tried to integrate them in one code i have FIFO Overflow problem. even though i tried to run it at as low as 20hz by changing the registers value in the "3dmath.h" file. can you please help me out with this problem i am facing. my project is kind of stuck at this point. Thank you. #include <DueTimer.h> #include "I2Cdev.h" #include "MPU6050_6Axis_MotionApps20.h" #if I2CDEV_IMPLEMENTATION == I2CDEV_ARDUINO_WIRE #include "Wire.h" #endif MPU6050 mpu; //#define OUTPUT_READABLE_WORLDACCEL #define OUTPUT_READABLE_REALACCEL #define LED_PIN 13 // (Arduino is 13, Teensy is 11, Teensy++ is 6) #define LED_PIN1 12 bool blinkState = false; bool blinkState1 = 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 double vel_data; double vel; double Dummy = 0 ; double t_s = 0; double S[2] = {0,0}; double Q[2] = {0.05,0.05}; double R[2] = {0.5, 0.01}; double Y[2] = {0,0}; double X[2] ={0,0}; double P[2] = {0.5,0.5}; double K[2] = {0, 0}; uint32_t timer = 0; uint32_t dt = 0; int16_t sample,sped=0; int16_t ax, ay, az; int16_t gx, gy, gz; int16_t sensorValue; char val; int count; bool flag; // ================================================================ // === INTERRUPT DETECTION ROUTINE === // ================================================================ volatile bool mpuInterrupt = false; // indicates whether MPU interrupt pin has gone high void dmpDataReady() { mpuInterrupt = true; } // ================================================================ // === INITIAL SETUP === // ================================================================ void setup() { // join I2C bus (I2Cdev library doesn't do this automatically) #if I2CDEV_IMPLEMENTATION == I2CDEV_ARDUINO_WIRE Wire.begin(); Wire1.begin(); //TWBR = 24; // 400kHz I2C clock (200kHz if CPU is 8MHz) #elif I2CDEV_IMPLEMENTATION == I2CDEV_BUILTIN_FASTWIRE Fastwire::setup(400, true); #endif Serial1.begin(115200); //115200 or 19200 while (!Serial1); // wait for Leonardo enumeration, others continue immediately Serial1.println(F("Initializing I2C devices...")); mpu.initialize(); // verify connection Serial1.println(F("Testing device connections...")); Serial1.println(mpu.testConnection() ? F("MPU6050 connection successful") : F("MPU6050 connection failed")); // wait for ready // Serial1.println(F("\nSend any character to begin DMP programming and demo: ")); // while (Serial1.available() && Serial1.read()); // empty buffer // while (!Serial1.available()); // wait for data // while (Serial1.available() && Serial1.read()); // empty buffer again // load and configure the DMP Serial1.println(F("Initializing DMP...")); devStatus = mpu.dmpInitialize(); // supply your own gyro offsets here, scaled for min sensitivity mpu.setXGyroOffset(-1); //220 inc. will inc. mpu.setYGyroOffset(-24); //76 mpu.setZGyroOffset(51); //-85 mpu.setZAccelOffset(1788); // increasing number will increase 16384 // make sure it worked (returns 0 if so) if (devStatus == 0) { // turn on the DMP, now that it's ready Serial1.println(F("Enabling DMP...")); mpu.setDMPEnabled(true); // enable Arduino interrupt detection Serial1.println(F("Enabling interrupt detection (Arduino Due external interrupt 2)...")); attachInterrupt(2, dmpDataReady, RISING); mpuIntStatus = mpu.getIntStatus(); // set our DMP Ready flag so the main loop() function knows it's okay to use it Serial1.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) Serial1.print(F("DMP Initialization failed (code ")); Serial1.print(devStatus); Serial1.println(F(")")); } // configure LED for output pinMode(LED_PIN, OUTPUT); delay(5000); attachInterrupt(52, rpm_fun, FALLING); Timer.getAvailable().attachInterrupt(firstHandler).start(1000000); // from DueTimer library delay(50); } void firstHandler(){ // Software interrupt every one second. Serial1.println("int"); flag = true; } void rpm_fun() // Hardware interrupt to count external pulses. { count = count + 1; } // ================================================================ // === MAIN PROGRAM LOOP === // ================================================================ void loop() { // if programming failed, don't try to do anything 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 // . // . // . } // reset interrupt flag and get INT_STATUS byte mpuInterrupt = false; mpuIntStatus = mpu.getIntStatus(); // get current FIFO count fifoCount = mpu.getFIFOCount(); // check for overflow (this should never happen unless our code is too inefficient) if ((mpuIntStatus & 0x10) || fifoCount == 1024) { // reset so we can continue cleanly mpu.resetFIFO(); Serial1.println(F("FIFO overflow!")); // otherwise, check for DMP data ready interrupt (this should happen frequently) } else if (mpuIntStatus & 0x02) { // 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); // track FIFO count here in case there is > 1 packet available // (this lets us immediately read more without waiting for an interrupt) fifoCount -= packetSize; #ifdef OUTPUT_READABLE_REALACCEL // display real acceleration, adjusted to remove gravity // -----Get data from MPU-6050----- mpu.dmpGetQuaternion(&q, fifoBuffer); mpu.dmpGetAccel(&aa, fifoBuffer); mpu.dmpGetGravity(&gravity, &q); mpu.dmpGetLinearAccel(&aaReal, &aa, &gravity); mpu.dmpGetYawPitchRoll(ypr, &q, &gravity); sample = -(aaReal.x); //Dummy = (abs(sample)>80) ? ((double)sample/16384)*9.81 : 0; Dummy = (double)sample/16384 * 9.81; t_s = (((double)micros() - timer)/1000000); // -----Get data from Arduino UNO----- Wire1.requestFrom(2, 1); // request 1 byte from slave device #2 while(Wire1.available()) // slave may send less than requested { sped = Wire1.read(); // receive a byte as character vel_data = ( 0.85 *((double)(sped)* 0.216)) + (0.15 * X[1]); // Serial1.println(sped); // print the character } //--------Prediction------- X[0] = X[0]; // Velocity X[1] = X[1]; // Acceleration P[0] = Q[0]; P[1] = t_s * Q[1]; //-------Kalman Gain-------- S[0] = P[0] + R[0]; S[1] = P[1] + R[1]; K[0] = P[0]/S[0]; K[1] = P[1]/S[1]; //--------Update------------- //vel = vel + t_s * Dummy; Y[0] = vel_data - X[0]; Y[1] = Dummy - X[1]; // Y[1] = Dummy - X[1]; X[0] = X[0] + (K[0]*Y[0]); X[1] = X[1] + (K[1]*Y[1]); P[0] = P[0] - (K[0]*P[0]); P[1] = P[1] - (K[1]*P[1]); timer = micros(); #endif // blink LED to indicate activity blinkState = !blinkState; digitalWrite(LED_PIN, blinkState); } }
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