/* * Board_APM1.cpp * * Created on: Dec 7, 2011 * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "Board_APM1.h" namespace apo { Board_APM1::Board_APM1(mode_e mode, MAV_TYPE vehicle, options_t options) : AP_Board(mode,vehicle,options) { const uint32_t debugBaud = 57600; const uint32_t telemBaud = 57600; const uint32_t gpsBaud = 38400; const uint32_t hilBaud = 115200; const uint8_t batteryPin = 0; const float batteryVoltageDivRatio = 6; const float batteryMinVolt = 10.0; const float batteryMaxVolt = 12.4; Matrix3f compassOrientation = AP_COMPASS_COMPONENTS_UP_PINS_FORWARD; AP_Var::load_all(); Wire.begin(); // debug Serial.begin(debugBaud, 128, 128); debug = &Serial; debug->println_P(PSTR("initialized debug port")); // hil Serial1.begin(hilBaud, 128, 128); hilPort = &Serial1; hilPort->println_P(PSTR("initialized hil port")); slideSwitchPin = 40; pushButtonPin = 41; aLedPin = 37; bLedPin = 36; cLedPin = 35; eepromMaxAddr = 1024; pinMode(aLedPin, OUTPUT); // extra led pinMode(bLedPin, OUTPUT); // imu ledclass AP_CommLink; pinMode(cLedPin, OUTPUT); // gps led pinMode(slideSwitchPin, INPUT); pinMode(pushButtonPin, INPUT); DDRL |= B00000100; // set port L, pint 2 to output for the relay isr_registry = new Arduino_Mega_ISR_Registry; radio = new APM_RC_APM1; radio->Init(isr_registry); dataFlash = new DataFlash_APM1; scheduler = new AP_TimerProcess; scheduler->init(isr_registry); adc = new AP_ADC_ADS7844; adc->Init(scheduler); /* * Sensor initialization */ if (getMode() == MODE_LIVE) { if (_options & opt_batteryMonitor) { batteryMonitor = new AP_BatteryMonitor(batteryPin,batteryVoltageDivRatio,batteryMinVolt,batteryMaxVolt); } if (_options & opt_gps) { Serial1.begin(gpsBaud, 128, 16); // gps debug->println_P(PSTR("initializing gps")); AP_GPS_Auto gpsDriver(&Serial1, &(gps)); gps = &gpsDriver; gps->callback = delay; gps->init(); } if (_options & opt_baro) { debug->println_P(PSTR("initializing baro")); baro = new APM_BMP085_Class; baro->Init(0,false); } if (_options & opt_compass) { debug->println_P(PSTR("initializing compass")); compass = new AP_Compass_HMC5843; compass->set_orientation(compassOrientation); compass->set_offsets(0,0,0); compass->set_declination(0.0); compass->init(); } } /** * Initialize ultrasonic sensors. If sensors are not plugged in, the navigator will not * initialize them and NULL will be assigned to those corresponding pointers. * On detecting NU/LL assigned to any ultrasonic sensor, its corresponding block of code * will not be executed by the navigator. * The coordinate system is assigned by the right hand rule with the thumb pointing down. * In set_orientation, it is defined as (front/back,left/right,down,up) */ // XXX this isn't really that general, should be a better way if (_options & opt_rangeFinderFront) { debug->println_P(PSTR("initializing front range finder")); RangeFinder * rangeFinder = new AP_RangeFinder_MaxsonarXL(new AP_AnalogSource_Arduino(1),new ModeFilter); rangeFinder->set_orientation(1, 0, 0); rangeFinders.push_back(rangeFinder); } if (_options & opt_rangeFinderBack) { debug->println_P(PSTR("initializing back range finder")); RangeFinder * rangeFinder = new AP_RangeFinder_MaxsonarXL(new AP_AnalogSource_Arduino(2),new ModeFilter); rangeFinder->set_orientation(-1, 0, 0); rangeFinders.push_back(rangeFinder); } if (_options & opt_rangeFinderLeft) { debug->println_P(PSTR("initializing left range finder")); RangeFinder * rangeFinder = new AP_RangeFinder_MaxsonarXL(new AP_AnalogSource_Arduino(3),new ModeFilter); rangeFinder->set_orientation(0, -1, 0); rangeFinders.push_back(rangeFinder); } if (_options & opt_rangeFinderRight) { debug->println_P(PSTR("initializing right range finder")); RangeFinder * rangeFinder = new AP_RangeFinder_MaxsonarXL(new AP_AnalogSource_Arduino(4),new ModeFilter); rangeFinder->set_orientation(0, 1, 0); rangeFinders.push_back(rangeFinder); } if (_options & opt_rangeFinderUp) { debug->println_P(PSTR("initializing up range finder")); RangeFinder * rangeFinder = new AP_RangeFinder_MaxsonarXL(new AP_AnalogSource_Arduino(5),new ModeFilter); rangeFinder->set_orientation(0, 0, -1); rangeFinders.push_back(rangeFinder); } if (_options & opt_rangeFinderDown) { debug->println_P(PSTR("initializing down range finder")); RangeFinder * rangeFinder = new AP_RangeFinder_MaxsonarXL(new AP_AnalogSource_Arduino(6),new ModeFilter); rangeFinder->set_orientation(0, 0, 1); rangeFinders.push_back(rangeFinder); } /* * navigation sensors */ debug->println_P(PSTR("initializing imu")); ins = new AP_InertialSensor_Oilpan(adc); ins->init(scheduler); //ins = new AP_InertialSensor_MPU6000(mpu6000SelectPin) debug->println_P(PSTR("initializing ins")); imu = new AP_IMU_INS(ins, k_sensorCalib); imu->init(IMU::WARM_START,delay,scheduler); debug->println_P(PSTR("setup completed")); // gcs Serial3.begin(telemBaud, 128, 128); gcsPort = &Serial3; gcsPort->println_P(PSTR("initialized gcs port")); } } // namespace apo // vim:ts=4:sw=4:expandtab