upm
0.5.1
Sensor/Actuator repository for libmraa (v0.9.1)
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API for MPU9150 chip (Accelerometer, Gyro and Magnometer Sensor) More...
This module defines the MPU9150 interface for libmpu9150
Public Member Functions | |
MPU9150 (int bus=MPU9150_I2C_BUS, int address=MPU9150_DEFAULT_I2C_ADDR, int magAddress=AK8975_DEFAULT_I2C_ADDR, bool enableAk8975=true) | |
~MPU9150 () | |
bool | init () |
void | update () |
void | getMagnetometer (float *x, float *y, float *z) |
Public Member Functions inherited from MPU60X0 | |
MPU60X0 (int bus=MPU60X0_I2C_BUS, uint8_t address=MPU60X0_DEFAULT_I2C_ADDR) | |
~MPU60X0 () | |
bool | init () |
void | update () |
uint8_t | readReg (uint8_t reg) |
void | readRegs (uint8_t reg, uint8_t *buffer, int len) |
bool | writeReg (uint8_t reg, uint8_t val) |
bool | setSleep (bool enable) |
bool | setClockSource (CLKSEL_T clk) |
bool | setGyroscopeScale (FS_SEL_T scale) |
bool | setAccelerometerScale (AFS_SEL_T scale) |
bool | setDigitalLowPassFilter (DLPF_CFG_T dlp) |
bool | setSampleRateDivider (uint8_t div) |
uint8_t | getSampleRateDivider () |
void | getAccelerometer (float *x, float *y, float *z) |
void | getGyroscope (float *x, float *y, float *z) |
virtual float | getTemperature () |
bool | enableTemperatureSensor (bool enable) |
bool | setExternalSync (EXT_SYNC_SET_T val) |
bool | enableI2CBypass (bool enable) |
bool | setMotionDetectionThreshold (uint8_t thr) |
uint8_t | getInterruptStatus () |
bool | setInterruptEnables (uint8_t enables) |
uint8_t | getInterruptEnables () |
bool | setInterruptPinConfig (uint8_t cfg) |
uint8_t | getInterruptPinConfig () |
void | installISR (int gpio, mraa::Edge level, void(*isr)(void *), void *arg) |
void | uninstallISR () |
Protected Attributes | |
AK8975 * | m_mag |
Protected Attributes inherited from MPU60X0 | |
float | m_accelX |
float | m_accelY |
float | m_accelZ |
float | m_gyroX |
float | m_gyroY |
float | m_gyroZ |
float | m_temp |
float | m_accelScale |
float | m_gyroScale |
Additional Inherited Members | |
Public Types inherited from MPU60X0 | |
enum | MPU60X0_REG_T { REG_SELF_TEST_X = 0x0d, REG_SELF_TEST_Y = 0x0e, REG_SELF_TEST_Z = 0x0f, REG_SELF_TEST_A = 0x10, REG_SMPLRT_DIV = 0x19, REG_CONFIG = 0x1a, REG_GYRO_CONFIG = 0x1b, REG_ACCEL_CONFIG = 0x1c, REG_FF_THR = 0x1d, REG_FF_DUR = 0x1e, REG_MOT_THR = 0x1f, REG_MOT_DUR = 0x20, REG_ZRMOT_THR = 0x21, REG_ZRMOT_DUR = 0x22, REG_FIFO_EN = 0x23, REG_I2C_MST_CTRL = 0x24, REG_I2C_SLV0_ADDR = 0x25, REG_I2C_SLV0_REG = 0x26, REG_I2C_SLV0_CTRL = 0x27, REG_I2C_SLV1_ADDR = 0x28, REG_I2C_SLV1_REG = 0x29, REG_I2C_SLV1_CTRL = 0x2a, REG_I2C_SLV2_ADDR = 0x2b, REG_I2C_SLV2_REG = 0x2c, REG_I2C_SLV2_CTRL = 0x2d, REG_I2C_SLV3_ADDR = 0x2e, REG_I2C_SLV3_REG = 0x2f, REG_I2C_SLV3_CTRL = 0x30, REG_I2C_SLV4_ADDR = 0x31, REG_I2C_SLV4_REG = 0x32, REG_I2C_SLV4_DO = 0x33, REG_I2C_SLV4_CTRL = 0x34, REG_I2C_SLV4_DI = 0x35, REG_I2C_MST_STATUS = 0x36, REG_INT_PIN_CFG = 0x37, REG_INT_ENABLE = 0x38, REG_INT_STATUS = 0x3a, REG_ACCEL_XOUT_H = 0x3b, REG_ACCEL_XOUT_L = 0x3c, REG_ACCEL_YOUT_H = 0x3d, REG_ACCEL_YOUT_L = 0x3e, REG_ACCEL_ZOUT_H = 0x3f, REG_ACCEL_ZOUT_L = 0x40, REG_TEMP_OUT_H = 0x41, REG_TEMP_OUT_L = 0x42, REG_GYRO_XOUT_H = 0x43, REG_GYRO_XOUT_L = 0x44, REG_GYRO_YOUT_H = 0x45, REG_GYRO_YOUT_L = 0x46, REG_GYRO_ZOUT_H = 0x47, REG_GYRO_ZOUT_L = 0x48, REG_EXT_SENS_DATA_00 = 0x49, REG_EXT_SENS_DATA_01 = 0x4a, REG_EXT_SENS_DATA_02 = 0x4b, REG_EXT_SENS_DATA_03 = 0x4c, REG_EXT_SENS_DATA_04 = 0x4d, REG_EXT_SENS_DATA_05 = 0x4e, REG_EXT_SENS_DATA_06 = 0x4f, REG_EXT_SENS_DATA_07 = 0x50, REG_EXT_SENS_DATA_08 = 0x51, REG_EXT_SENS_DATA_09 = 0x52, REG_EXT_SENS_DATA_10 = 0x53, REG_EXT_SENS_DATA_11 = 0x54, REG_EXT_SENS_DATA_12 = 0x55, REG_EXT_SENS_DATA_13 = 0x56, REG_EXT_SENS_DATA_14 = 0x57, REG_EXT_SENS_DATA_15 = 0x58, REG_EXT_SENS_DATA_16 = 0x59, REG_EXT_SENS_DATA_17 = 0x5a, REG_EXT_SENS_DATA_18 = 0x5b, REG_EXT_SENS_DATA_19 = 0x5c, REG_EXT_SENS_DATA_20 = 0x5d, REG_EXT_SENS_DATA_21 = 0x5e, REG_EXT_SENS_DATA_22 = 0x5f, REG_EXT_SENS_DATA_23 = 0x60, REG_MOT_DETECT_STATUS = 0x61, REG_I2C_SLV0_DO = 0x63, REG_I2C_SLV1_DO = 0x64, REG_I2C_SLV2_DO = 0x65, REG_I2C_SLV3_DO = 0x66, REG_I2C_MST_DELAY_CTRL = 0x67, REG_SIGNAL_PATH_RESET = 0x68, REG_MOT_DETECT_CTRL = 0x69, REG_USER_CTRL = 0x6a, REG_PWR_MGMT_1 = 0x6b, REG_PWR_MGMT_2 = 0x6c, REG_FIFO_COUNTH = 0x72, REG_FIFO_COUNTL = 0x73, REG_FIFO_R_W = 0x74, REG_WHO_AM_I = 0x75 } |
enum | CONFIG_BITS_T { CONFIG_DLPF_CFG0 = 0x01, CONFIG_DLPF_CFG1 = 0x02, CONFIG_DLPF_CFG2 = 0x04, _CONFIG_DLPF_SHIFT = 0, _CONFIG_DLPF_MASK = 7, CONFIG_EXT_SYNC_SET0 = 0x08, CONFIG_EXT_SYNC_SET1 = 0x10, CONFIG_EXT_SYNC_SET2 = 0x20, _CONFIG_EXT_SYNC_SET_SHIFT = 3, _CONFIG_EXT_SYNC_SET_MASK = 7 } |
enum | DLPF_CFG_T { DLPF_260_256 = 0, DLPF_184_188 = 1, DLPF_94_98 = 2, DLPF_44_42 = 3, DLPF_21_20 = 4, DLPF_10_10 = 5, DLPF_5_5 = 6, DLPF_RESERVED = 7 } |
enum | EXT_SYNC_SET_T { EXT_SYNC_DISABLED = 0, EXT_SYNC_TEMP_OUT = 1, EXT_SYNC_GYRO_XOUT = 2, EXT_SYNC_GYRO_YOUT = 3, EXT_SYNC_GYRO_ZOUT = 4, EXT_SYNC_ACCEL_XOUT = 5, EXT_SYNC_ACCEL_YOUT = 6, EXT_SYNC_ACCEL_ZOUT = 7 } |
enum | GRYO_CONFIG_BITS_T { FS_SEL0 = 0x08, FS_SEL1 = 0x10, _FS_SEL_SHIFT = 3, _FS_SEL_MASK = 3, ZG_ST = 0x20, YG_ST = 0x40, XG_ST = 0x80 } |
enum | FS_SEL_T { FS_250 = 0, FS_500 = 1, FS_1000 = 2, FS_2000 = 3 } |
enum | ACCEL_CONFIG_BITS_T { AFS_SEL0 = 0x08, AFS_SEL1 = 0x10, _AFS_SEL_SHIFT = 3, _AFS_SEL_MASK = 3, ZA_ST = 0x20, YA_ST = 0x40, XA_ST = 0x80 } |
enum | AFS_SEL_T { AFS_2 = 0, AFS_4 = 1, AFS_8 = 2, AFS_16 = 3 } |
enum | FIFO_EN_BITS_T { SLV0_FIFO_EN = 0x01, SLV1_FIFO_EN = 0x02, SLV2_FIFO_EN = 0x04, ACCEL_FIFO_EN = 0x08, ZG_FIFO_EN = 0x10, YG_FIFO_EN = 0x20, XG_FIFO_EN = 0x40, TEMP_FIFO_EN = 0x80 } |
enum | I2C_MST_CTRL_BITS_T { I2C_MST_CLK0 = 0x01, I2C_MST_CLK1 = 0x02, I2C_MST_CLK2 = 0x04, I2C_MST_CLK3 = 0x08, _I2C_MST_CLK_SHIFT = 0, _I2C_MST_CLK_MASK = 15, I2C_MST_P_NSR = 0x10, SLV_3_FIFO_EN = 0x20, WAIT_FOR_ES = 0x40, MULT_MST_EN = 0x80 } |
enum | I2C_MST_CLK_T { MST_CLK_348 = 0, MST_CLK_333 = 1, MST_CLK_320 = 2, MST_CLK_308 = 3, MST_CLK_296 = 4, MST_CLK_286 = 5, MST_CLK_276 = 6, MST_CLK_267 = 7, MST_CLK_258 = 8, MST_CLK_500 = 9, MST_CLK_471 = 10, MST_CLK_444 = 11, MST_CLK_421 = 12, MST_CLK_400 = 13, MST_CLK_381 = 14, MST_CLK_364 = 15 } |
enum | I2C_SLV_ADDR_BITS_T { I2C_SLV_ADDR0 = 0x01, I2C_SLV_ADDR1 = 0x02, I2C_SLV_ADDR2 = 0x04, I2C_SLV_ADDR3 = 0x08, I2C_SLV_ADDR4 = 0x10, I2C_SLV_ADDR5 = 0x20, I2C_SLV_ADDR6 = 0x40, _I2C_SLV_ADDR_SHIFT = 0, _I2C_SLV_ADDR_MASK = 127, I2C_SLV_RW = 0x80 } |
enum | I2C_SLV_CTRL_BITS_T { I2C_SLV_LEN0 = 0x01, I2C_SLV_LEN1 = 0x02, I2C_SLV_LEN2 = 0x04, I2C_SLV_LEN3 = 0x08, _I2C_SLV_LEN_SHIFT = 0, _I2C_SLV_LEN_MASK = 15, I2C_SLV_GRP = 0x10, I2C_SLV_REG_DIS = 0x20, I2C_SLV_BYTE_SW = 0x40, I2C_SLV_EN = 0x80 } |
enum | I2C_SLV4_CTRL_BITS_T { I2C_MST_DLY0 = 0x01, I2C_MST_DLY1 = 0x02, I2C_MST_DLY2 = 0x04, I2C_MST_DLY3 = 0x08, I2C_MST_DLY4 = 0x10, _I2C_MST_DLY_SHIFT = 0, _I2C_MST_DLY_MASK = 31, I2C_SLV4_REG_DIS = 0x20, I2C_SLV4_INT_EN = 0x40, I2C_SLV4_EN = 0x80 } |
enum | I2C_MST_STATUS_BITS_T { I2C_SLV0_NACK = 0x01, I2C_SLV1_NACK = 0x02, I2C_SLV2_NACK = 0x04, I2C_SLV3_NACK = 0x08, I2C_SLV4_NACK = 0x10, I2C_LOST_ARB = 0x20, I2C_SLV4_DONE = 0x40, PASS_THROUGH = 0x80 } |
enum | INT_PIN_CFG_BITS_T { CLKOUT_EN = 0x01, I2C_BYPASS_ENABLE = 0x02, FSYNC_INT_EN = 0x04, FSYNC_INT_LEVEL = 0x08, INT_RD_CLEAR = 0x10, LATCH_INT_EN = 0x20, INT_OPEN = 0x40, INT_LEVEL = 0x80 } |
enum | INT_ENABLE_BITS_T { DATA_RDY_EN = 0x01, I2C_MST_INT_EN = 0x08, FIFO_OFLOW_EN = 0x10, ZMOT_EN = 0x20, MOT_EN = 0x40, FF_EN = 0x80 } |
enum | INT_STATUS_BITS_T { DATA_RDY_INT = 0x01, I2C_MST_INT = 0x08, FIFO_OFLOW_INT = 0x10, ZMOT_INT = 0x20, MOT_INT = 0x40, FF_INT = 0x80 } |
enum | MOT_DETECT_STATUS_BITS_T { MOT_ZRMOT = 0x01, MOT_ZPOS = 0x04, MOT_ZNEG = 0x08, MOT_YPOS = 0x10, MOT_YNEG = 0x20, MOT_XPOS = 0x40, MOT_XNEG = 0x80 } |
enum | MST_DELAY_CTRL_BITS_T { I2C_SLV0_DLY_EN = 0x01, I2C_SLV1_DLY_EN = 0x02, I2C_SLV2_DLY_EN = 0x04, I2C_SLV3_DLY_EN = 0x08, I2C_SLV4_DLY_EN = 0x10, DELAY_ES_SHADOW = 0x80 } |
enum | SIGNAL_PATH_RESET_BITS_T { TEMP_RESET = 0x01, ACCEL_RESET = 0x02, GYRO_RESET = 0x04 } |
enum | MOT_DETECT_CTRL_BITS_T { MOT_COUNT0 = 0x01, MOT_COUNT1 = 0x02, _MOT_COUNT_SHIFT = 0, _MOT_COUNT_MASK = 3, FF_COUNT0 = 0x04, FF_COUNT1 = 0x08, _FF_COUNT_SHIFT = 2, _FF_COUNT_MASK = 3, ACCEL_ON_DELAY0 = 0x10, ACCEL_ON_DELAY1 = 0x20, _ACCEL_ON_DELAY_SHIFT = 4, _ACCEL_ON_DELAY_MASK = 3 } |
enum | MOT_FF_COUNT_T { COUNT_0 = 0, COUNT_1 = 1, COUNT_2 = 2, COUNT_4 = 3 } |
enum | ACCEL_ON_DELAY_T { ON_DELAY_0 = 0, ON_DELAY_1 = 1, ON_DELAY_2 = 2, ON_DELAY_3 = 3 } |
enum | USER_CTRL_BITS_T { SIG_COND_RESET = 0x01, I2C_MST_RESET = 0x02, FIFO_RESET = 0x04, I2C_IF_DIS = 0x10, I2C_MST_EN = 0x20, FIFO_EN = 0x40 } |
enum | PWR_MGMT_1_BITS_T { CLKSEL0 = 0x01, CLKSEL1 = 0x02, CLKSEL2 = 0x04, _CLKSEL_SHIFT = 0, _CLKSEL_MASK = 7, TEMP_DIS = 0x08, PWR_CYCLE = 0x20, PWR_SLEEP = 0x40, DEVICE_RESET = 0x80 } |
enum | CLKSEL_T { INT_8MHZ = 0, PLL_XG = 1, PLL_YG = 2, PLL_ZG = 3, PLL_EXT_32KHZ = 4, PLL_EXT_19MHZ = 5, CLK_STOP = 7 } |
enum | PWR_MGMT_2_BITS_T { STBY_ZG = 0x01, STBY_YG = 0x02, STBY_XG = 0x04, STBY_ZA = 0x08, STBY_YA = 0x10, STBY_XA = 0x20, LP_WAKE_CTRL0 = 0x40, LP_WAKE_CTRL1 = 0x80, _LP_WAKE_CTRL_SHIFT = 6, _LP_WAKE_CTRL_MASK = 3 } |
enum | LP_WAKE_CRTL_T { LP_WAKE_1_25 = 0, LP_WAKE_5 = 1, LP_WAKE_20 = 2, LP_WAKE_40 = 3 } |
MPU9150 | ( | int | bus = MPU9150_I2C_BUS , |
int | address = MPU9150_DEFAULT_I2C_ADDR , |
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int | magAddress = AK8975_DEFAULT_I2C_ADDR , |
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bool | enableAk8975 = true |
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) |
MPU9150 constructor
bus | I2C bus to use |
address | The address for this device |
magAddress | The address of the connected magnetometer |
enableAk8975 | Enables i2c bypass mode for magnetometer, default is true |
bool init | ( | ) |
Set up initial values and start operation
void update | ( | void | ) |
Take a measurement and store the current sensor values internally. Note, these user facing registers are only updated from the internal device sensor values when the i2c serial traffic is 'idle'. So, if you are reading the values too fast, the bus may never be idle, and you will just end up reading the same values over and over.
Unfortunately, it is is not clear how long 'idle' actually means, so if you see this behavior, reduce the rate at which you are calling update().
void getMagnetometer | ( | float * | x, |
float * | y, | ||
float * | z | ||
) |
Return the compensated values for the x, y, and z axes. The unit of measurement is in micro-teslas (uT).
x | Pointer to returned X axis value |
y | Pointer to returned Y axis value |
z | Pointer to returned Z axis value |