2014-05-14 10:45:55 -03:00
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/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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#ifndef __AP_INERTIAL_SENSOR_LSM9DS0_H__
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#define __AP_INERTIAL_SENSOR_LSM9DS0_H__
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#include <stdint.h>
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#include <AP_HAL.h>
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#include <AP_Math.h>
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#include <AP_Progmem.h>
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#include "AP_InertialSensor.h"
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2014-07-06 16:51:40 -03:00
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// enable debug to see a register dump on startup
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#define LSM9DS0_DEBUG 1
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2014-05-14 10:45:55 -03:00
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// gyro_scale_lsm9ds0 defines the possible full-scale ranges of the gyroscope:
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enum gyro_scale_lsm9ds0
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{
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G_SCALE_245DPS, // 00: 245 degrees per second
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G_SCALE_500DPS, // 01: 500 dps
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G_SCALE_2000DPS, // 10: 2000 dps
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};
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// accel_scale defines all possible FSR's of the accelerometer:
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enum accel_scale
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{
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A_SCALE_2G, // 000: 2g
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A_SCALE_4G, // 001: 4g
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A_SCALE_6G, // 010: 6g
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A_SCALE_8G, // 011: 8g
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A_SCALE_16G // 100: 16g
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};
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// mag_scale defines all possible FSR's of the magnetometer:
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enum mag_scale
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{
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M_SCALE_2GS, // 00: 2Gs
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M_SCALE_4GS, // 01: 4Gs
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M_SCALE_8GS, // 10: 8Gs
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M_SCALE_12GS, // 11: 12Gs
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};
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// gyro_odr defines all possible data rate/bandwidth combos of the gyro:
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enum gyro_odr
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{ // ODR (Hz) --- Cutoff
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G_ODR_95_BW_125 = 0x0, // 95 12.5
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G_ODR_95_BW_25 = 0x1, // 95 25
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// 0x2 and 0x3 define the same data rate and bandwidth
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G_ODR_190_BW_125 = 0x4, // 190 12.5
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G_ODR_190_BW_25 = 0x5, // 190 25
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G_ODR_190_BW_50 = 0x6, // 190 50
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G_ODR_190_BW_70 = 0x7, // 190 70
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G_ODR_380_BW_20 = 0x8, // 380 20
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G_ODR_380_BW_25 = 0x9, // 380 25
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G_ODR_380_BW_50 = 0xA, // 380 50
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G_ODR_380_BW_100 = 0xB, // 380 100
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G_ODR_760_BW_30 = 0xC, // 760 30
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G_ODR_760_BW_35 = 0xD, // 760 35
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G_ODR_760_BW_50 = 0xE, // 760 50
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G_ODR_760_BW_100 = 0xF, // 760 100
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};
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// accel_oder defines all possible output data rates of the accelerometer:
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enum accel_odr
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{
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A_POWER_DOWN, // Power-down mode (0x0)
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A_ODR_3125, // 3.125 Hz (0x1)
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A_ODR_625, // 6.25 Hz (0x2)
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A_ODR_125, // 12.5 Hz (0x3)
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A_ODR_25, // 25 Hz (0x4)
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A_ODR_50, // 50 Hz (0x5)
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A_ODR_100, // 100 Hz (0x6)
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A_ODR_200, // 200 Hz (0x7)
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A_ODR_400, // 400 Hz (0x8)
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A_ODR_800, // 800 Hz (9)
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A_ODR_1600 // 1600 Hz (0xA)
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};
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// accel_abw defines all possible anti-aliasing filter rates of the accelerometer:
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enum accel_abw
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{
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A_ABW_773, // 773 Hz (0x0)
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A_ABW_194, // 194 Hz (0x1)
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A_ABW_362, // 362 Hz (0x2)
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A_ABW_50, // 50 Hz (0x3)
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};
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// mag_oder defines all possible output data rates of the magnetometer:
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enum mag_odr
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{
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M_ODR_3125, // 3.125 Hz (0x00)
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M_ODR_625, // 6.25 Hz (0x01)
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M_ODR_125, // 12.5 Hz (0x02)
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M_ODR_25, // 25 Hz (0x03)
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M_ODR_50, // 50 (0x04)
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M_ODR_100, // 100 Hz (0x05)
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};
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class AP_InertialSensor_LSM9DS0: public AP_InertialSensor
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{
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public:
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AP_InertialSensor_LSM9DS0();
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/* Concrete implementation of AP_InertialSensor functions: */
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bool update();
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float get_gyro_drift_rate();
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// wait for a sample to be available, with timeout in milliseconds
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bool wait_for_sample(uint16_t timeout_ms);
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// get_delta_time returns the time period in seconds overwhich the sensor data was collected
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float get_delta_time() const;
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uint16_t error_count(void) const { return _error_count; }
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bool healthy(void) const { return _error_count <= 4; }
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bool get_gyro_health(uint8_t instance) const { return healthy(); }
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bool get_accel_health(uint8_t instance) const { return healthy(); }
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protected:
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uint16_t _init_sensor( Sample_rate sample_rate );
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private:
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2014-06-03 10:13:59 -03:00
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AP_HAL::DigitalSource *_drdy_pin_a;
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AP_HAL::DigitalSource *_drdy_pin_m;
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2014-05-14 10:45:55 -03:00
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AP_HAL::DigitalSource *_drdy_pin_g;
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uint32_t _gRes, _aRes, _mRes;
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void _calcgRes(gyro_scale_lsm9ds0 gScl);
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void _calcaRes(accel_scale aScl);
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void _calcmRes(mag_scale mScl);
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// initGyro() -- Sets up the gyroscope to begin reading.
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// This function steps through all five gyroscope control registers.
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// Upon exit, the following parameters will be set:
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// - CTRL_REG1_G = 0x0F: Normal operation mode, all axes enabled.
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// 95 Hz ODR, 12.5 Hz cutoff frequency.
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// - CTRL_REG2_G = 0x00: HPF set to normal mode, cutoff frequency
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// set to 7.2 Hz (depends on ODR).
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// - CTRL_REG3_G = 0x88: Interrupt enabled on INT_G (set to push-pull and
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// active high). Data-ready output enabled on DRDY_G.
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// - CTRL_REG4_G = 0x00: Continuous update mode. Data LSB stored in lower
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// address. Scale set to 245 DPS. SPI mode set to 4-wire.
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// - CTRL_REG5_G = 0x00: FIFO disabled. HPF disabled.
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void _initGyro();
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// initAccel() -- Sets up the accelerometer to begin reading.
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// This function steps through all accelerometer related control registers.
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// Upon exit these registers will be set as:
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// - CTRL_REG0_XM = 0x00: FIFO disabled. HPF bypassed. Normal mode.
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// - CTRL_REG1_XM = 0x57: 100 Hz data rate. Continuous update.
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// all axes enabled.
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// - CTRL_REG2_XM = 0x00: 2g scale. 773 Hz anti-alias filter BW.
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// - CTRL_REG3_XM = 0x04: Accel data ready signal on INT1_XM pin.
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void _initAccel();
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// initMag() -- Sets up the magnetometer to begin reading.
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// This function steps through all magnetometer-related control registers.
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// Upon exit these registers will be set as:
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// - CTRL_REG4_XM = 0x04: Mag data ready signal on INT2_XM pin.
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// - CTRL_REG5_XM = 0x14: 100 Hz update rate. Low resolution. Interrupt
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// requests don't latch. Temperature sensor disabled.
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// - CTRL_REG6_XM = 0x00: 2 Gs scale.
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// - CTRL_REG7_XM = 0x00: Continuous conversion mode. Normal HPF mode.
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// - INT_CTRL_REG_M = 0x09: Interrupt active-high. Enable interrupts.
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void _initMag();
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bool _sample_available();
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void _read_data_transaction_g();
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void _read_data_transaction_xm();
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2014-06-03 10:13:59 -03:00
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uint8_t _data_ready();
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2014-05-14 10:45:55 -03:00
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void _poll_data(void);
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uint8_t _register_read_xm( uint8_t reg );
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uint8_t _register_read_g( uint8_t reg );
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void _register_write_xm( uint8_t reg, uint8_t val );
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void _register_write_g( uint8_t reg, uint8_t val );
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bool _hardware_init(Sample_rate sample_rate);
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AP_HAL::SPIDeviceDriver *_spi;
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AP_HAL::Semaphore *_spi_sem;
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uint16_t _num_samples_g;
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uint16_t _num_samples_xm;
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static const float _gyro_scale;
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uint32_t _last_sample_time_micros;
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// ensure we can't initialise twice
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bool _initialised;
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int16_t _lsm9ds0_product_id;
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// how many hardware samples before we report a sample to the caller
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uint8_t _sample_shift;
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// support for updating filter at runtime
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uint8_t _last_filter_hz;
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void _set_filter_register(uint8_t filter_hz, uint8_t default_filter);
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uint16_t _error_count;
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// accumulation in timer - must be read with timer disabled
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// the sum of the values since last read
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Vector3l _accel_sum;
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Vector3l _gyro_sum;
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Vector3l _mag_sum;
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volatile int16_t _sum_count_g;
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volatile int16_t _sum_count_xm;
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#if LSM9DS0_DEBUG
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void _dump_registers(void);
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#endif
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};
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#endif // __AP_INERTIAL_SENSOR_LSM9DS0_H__
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