#include "GY85.h" #include "board.h" #include "print.h" #include "delay.h" #define ADXL345_SCALE 0.0392266 // 4mg/LSB 4*9.80665 #define ITG3205_SCALE 0.001065264417860243 //rad/s 4000/65536*(PI/180) #define HMC5883L_SCALE 0.92 // mG/LSb #define WRITE_INTERVAL 20 bool GY85::init() { delay_ms(500); Board::get()->i2c_init(); if (!accel.testConnection()) { #if IMU_DEBUG_ENABLE pb_printf("ADXL345 NOT FOUND!"); #endif return false; } accel.initialize(); delay_ms(WRITE_INTERVAL); accel.setAutoSleepEnabled(false); delay_ms(WRITE_INTERVAL); accel.setFullResolution(1); delay_ms(WRITE_INTERVAL); accel.setRange(ADXL345_RANGE_4G); delay_ms(WRITE_INTERVAL); accel.setRate(ADXL345_RATE_50); delay_ms(WRITE_INTERVAL); #if IMU_DEBUG_ENABLE uint8_t buffer=0; Board::get()->i2c_read_byte(ADXL345_DEFAULT_ADDRESS, ADXL345_RA_POWER_CTL, &buffer); pb_printf("ADXL345_RA_POWER_CTL=%d", buffer); Board::get()->i2c_read_byte(ADXL345_DEFAULT_ADDRESS, ADXL345_RA_DATA_FORMAT, &buffer); pb_printf("ADXL345_RA_DATA_FORMAT=%d", buffer); Board::get()->i2c_read_byte(ADXL345_DEFAULT_ADDRESS, ADXL345_RA_BW_RATE, &buffer); pb_printf("ADXL345_RA_BW_RATE=%d", buffer); #endif if (!gyro.testConnection()) { #if IMU_DEBUG_ENABLE pb_printf("ITG3205 NOT FOUND!"); #endif return false; } gyro.initialize(); gyro.reset(); delay_ms(WRITE_INTERVAL); gyro.setFullScaleRange(ITG3200_FULLSCALE_2000); delay_ms(WRITE_INTERVAL); gyro.setDLPFBandwidth(ITG3200_DLPF_BW_42); delay_ms(WRITE_INTERVAL); gyro.setRate(0x13); //1khz/(1+0x13) 50hz delay_ms(WRITE_INTERVAL); gyro.setClockSource(ITG3200_CLOCK_PLL_ZGYRO); delay_ms(WRITE_INTERVAL); #if IMU_DEBUG_ENABLE Board::get()->i2c_read_byte(ITG3200_DEFAULT_ADDRESS, ITG3200_RA_PWR_MGM, &buffer); pb_printf("ITG3200_RA_PWR_MGM=%d", buffer); Board::get()->i2c_read_byte(ITG3200_DEFAULT_ADDRESS, ITG3200_RA_DLPF_FS, &buffer); pb_printf("ITG3200_RA_DLPF_FS=%d", buffer); Board::get()->i2c_read_byte(ITG3200_DEFAULT_ADDRESS, ITG3200_RA_SMPLRT_DIV, &buffer); pb_printf("ITG3200_RA_SMPLRT_DIV=%d", buffer); #endif if (!mag.testConnection()) { #if IMU_DEBUG_ENABLE pb_printf("HMC5883L NOT FOUND!"); #endif return false; } mag.initialize(); delay_ms(WRITE_INTERVAL); mag.setGain(HMC5883L_GAIN_1090); delay_ms(WRITE_INTERVAL); mag.setDataRate(HMC5883L_RATE_75); delay_ms(WRITE_INTERVAL); mag.setSampleAveraging(HMC5883L_AVERAGING_1); delay_ms(WRITE_INTERVAL); mag.setMode(HMC5883L_MODE_SINGLE); delay_ms(WRITE_INTERVAL); #if IMU_DEBUG_ENABLE Board::get()->i2c_read_byte(HMC5883L_DEFAULT_ADDRESS, HMC5883L_RA_CONFIG_B, &buffer); pb_printf("HMC5883L_RA_CONFIG_B=%d", buffer); Board::get()->i2c_read_byte(HMC5883L_DEFAULT_ADDRESS, HMC5883L_RA_CONFIG_A, &buffer); pb_printf("HMC5883L_RA_CONFIG_A=%d", buffer); Board::get()->i2c_read_byte(HMC5883L_DEFAULT_ADDRESS, HMC5883L_RA_MODE, &buffer); pb_printf("HMC5883L_RA_MODE=%d", buffer); #endif pb_printf("GY85 INIT SUCCESS!"); return true; } #define CYCLE_COUNT 3 void GY85::get_data(float* imu_data) { static int i=0; if (i%CYCLE_COUNT==0) { accel.getAcceleration(&ax, &ay, &az); } else if (i%CYCLE_COUNT==1) { gyro.getRotation(&gx, &gy, &gz); } else //if (i%CYCLE_COUNT==2) { mag.getHeading(&mx, &my, &mz); mag.setMode(HMC5883L_MODE_SINGLE); } i++; #if IMU_DEBUG_ENABLE pb_printf("[%d %d %d] [%d %d %d] [%d %d %d]", ax, ay, az, gx, gy, gz, mx, my, mz); #endif imu_data[0] = ax*ADXL345_SCALE; imu_data[1] = ay*ADXL345_SCALE; imu_data[2] = az*ADXL345_SCALE; imu_data[3] = gx*ITG3205_SCALE; imu_data[4] = gy*ITG3205_SCALE; imu_data[5] = gz*ITG3205_SCALE; imu_data[6] = mx*HMC5883L_SCALE; imu_data[7] = my*HMC5883L_SCALE; imu_data[8] = mz*HMC5883L_SCALE; }