void commanderGetThrust(uint16_t* thrust) { int usedSide = side; uint16_t rawThrust = targetVal[usedSide].thrust; if (rawThrust > 0) { *thrust = rawThrust; } else { *thrust = 0; } if (rawThrust > UINT16_MAX) { *thrust = MAX_THRUST; } commanderWatchdog(); }
void commanderGetThrust(uint16_t* thrust) { int usedSide = side; uint16_t rawThrust = targetVal[usedSide].thrust; if (thrustLocked) { *thrust = 0; } else if (rawThrust > MIN_THRUST) { *thrust = rawThrust; } else { *thrust = 0; } if (rawThrust > MAX_THRUST) { *thrust = MAX_THRUST; } commanderWatchdog(); }
static void stabilizerTask(void* param) { uint32_t attitudeCounter = 0; uint32_t altHoldCounter = 0; uint32_t lastWakeTime; vTaskSetApplicationTaskTag(0, (void*) TASK_STABILIZER_ID_NBR); //Wait for the system to be fully started to start stabilization loop systemWaitStart(); lastWakeTime = xTaskGetTickCount(); while (1) { vTaskDelayUntil(&lastWakeTime, F2T(IMU_UPDATE_FREQ)); // 500Hz // Magnetometer not yet used more then for logging. imu9Read(&gyro, &acc, &mag); if (imu6IsCalibrated()) { commanderGetRPY(&eulerRollDesired, &eulerPitchDesired, &eulerYawDesired); commanderGetRPYType(&rollType, &pitchType, &yawType); // 250HZ if (++attitudeCounter >= ATTITUDE_UPDATE_RATE_DIVIDER) { sensfusion6UpdateQ(gyro.x, gyro.y, gyro.z, acc.x, acc.y, acc.z, FUSION_UPDATE_DT); sensfusion6GetEulerRPY(&eulerRollActual, &eulerPitchActual, &eulerYawActual); accWZ = sensfusion6GetAccZWithoutGravity(acc.x, acc.y, acc.z); accMAG = (acc.x * acc.x) + (acc.y * acc.y) + (acc.z * acc.z); // Estimate speed from acc (drifts) vSpeed += deadband(accWZ, vAccDeadband) * FUSION_UPDATE_DT; controllerCorrectAttitudePID(eulerRollActual, eulerPitchActual, eulerYawActual, eulerRollDesired, eulerPitchDesired, -eulerYawDesired, &rollRateDesired, &pitchRateDesired, &yawRateDesired); attitudeCounter = 0; } // 100HZ if (imuHasBarometer() && (++altHoldCounter >= ALTHOLD_UPDATE_RATE_DIVIDER)) { stabilizerAltHoldUpdate(); altHoldCounter = 0; } if (rollType == RATE) { rollRateDesired = eulerRollDesired; } if (pitchType == RATE) { pitchRateDesired = eulerPitchDesired; } if (yawType == RATE) { yawRateDesired = -eulerYawDesired; } // TODO: Investigate possibility to subtract gyro drift. controllerCorrectRatePID(gyro.x, -gyro.y, gyro.z, rollRateDesired, pitchRateDesired, yawRateDesired); controllerGetActuatorOutput(&actuatorRoll, &actuatorPitch, &actuatorYaw); if (!altHold || !imuHasBarometer()) { // Use thrust from controller if not in altitude hold mode commanderGetThrust(&actuatorThrust); } else { // Added so thrust can be set to 0 while in altitude hold mode after disconnect commanderWatchdog(); } if (actuatorThrust > 0) { #if defined(TUNE_ROLL) distributePower(actuatorThrust, actuatorRoll, 0, 0); #elif defined(TUNE_PITCH) distributePower(actuatorThrust, 0, actuatorPitch, 0); #elif defined(TUNE_YAW) distributePower(actuatorThrust, 0, 0, -actuatorYaw); #else distributePower(actuatorThrust, actuatorRoll, actuatorPitch, -actuatorYaw); #endif } else { distributePower(0, 0, 0, 0); controllerResetAllPID(); } } } }