ardupilot/libraries/AP_InertialSensor/AP_InertialSensor_Invensens...

148 lines
4.9 KiB
C++

#pragma once
/*
driver for the invensensev3 range of IMUs
These are the ICM-4 series of IMUs
*/
#include <stdint.h>
#include <AP_HAL/AP_HAL.h>
#include <AP_HAL/utility/OwnPtr.h>
#include <AP_Math/AP_Math.h>
#include <Filter/LowPassFilter2p.h>
#include "AP_InertialSensor.h"
#include "AP_InertialSensor_Backend.h"
class AP_InertialSensor_Invensensev3 : public AP_InertialSensor_Backend
{
public:
virtual ~AP_InertialSensor_Invensensev3();
static AP_InertialSensor_Backend *probe(AP_InertialSensor &imu,
AP_HAL::OwnPtr<AP_HAL::Device> dev,
enum Rotation rotation);
/* update accel and gyro state */
bool update() override;
void accumulate() override;
void start() override;
// get a startup banner to output to the GCS
bool get_output_banner(char* banner, uint8_t banner_len) override;
enum class Invensensev3_Type : uint8_t {
ICM40609 = 0, // No HiRes
ICM42688, // HiRes 19bit
ICM42605, // No HiRes
ICM40605, // No HiRes
IIM42652, // HiRes 19bit
ICM42670, // HiRes 19bit
ICM45686 // HiRes 20bit
};
// acclerometers on Invensense sensors will return values up to 32G
const uint16_t multiplier_accel = INT16_MAX/(32*GRAVITY_MSS);
private:
AP_InertialSensor_Invensensev3(AP_InertialSensor &imu,
AP_HAL::OwnPtr<AP_HAL::Device> dev,
enum Rotation rotation);
/* Initialize sensor*/
bool hardware_init();
bool check_whoami();
void set_filter_and_scaling(void);
void set_filter_and_scaling_icm42670(void);
void set_filter_and_scaling_icm456xy(void);
void fifo_reset();
uint16_t calculate_fast_sampling_backend_rate(uint16_t base_odr, uint16_t max_odr) const;
/* Read samples from FIFO */
void read_fifo();
bool block_read(uint8_t reg, uint8_t *buf, uint32_t size);
uint8_t register_read(uint8_t reg);
void register_write(uint8_t reg, uint8_t val, bool checked=false);
uint8_t register_read_bank(uint8_t bank, uint8_t reg);
void register_write_bank(uint8_t bank, uint8_t reg, uint8_t val);
uint8_t register_read_bank_icm456xy(uint16_t bank_addr, uint16_t reg);
void register_write_bank_icm456xy(uint16_t bank_addr, uint16_t reg, uint8_t val);
bool accumulate_samples(const struct FIFOData *data, uint8_t n_samples);
bool accumulate_highres_samples(const struct FIFODataHighRes *data, uint8_t n_samples);
// instance numbers of accel and gyro data
uint8_t gyro_instance;
uint8_t accel_instance;
// reset FIFO configure1 register
uint8_t fifo_config1;
// temp scaling for FIFO temperature
float temp_sensitivity;
const float temp_zero = 25; // degC
const enum Rotation rotation;
static constexpr float SCALE_RANGE_16BIT = 32768; // 2^15;
// HiRes support is either 20bit (19bit accel) or 19bit (18bit accel)
static constexpr float SCALE_RANGE_20BIT = 524288; // 2^19;
static constexpr float SCALE_RANGE_19BIT = 262144; // 2^18;
/*
gyro as 16.4 LSB/DPS at scale factor of +/- 2000dps (FS_SEL==0)
*/
static constexpr float GYRO_SCALE_2000DPS = radians(1) / (SCALE_RANGE_16BIT / 2000.0);
/*
gyro as 8.2 LSB/DPS at scale factor of +/- 4000dps (FS_SEL==0)
*/
static constexpr float GYRO_SCALE_4000DPS = radians(1) / (SCALE_RANGE_16BIT / 4000.0);
/*
highres gyro is always 131 LSB/DPS modified by the data size transmitted
*/
static constexpr float GYRO_SCALE_HIGHRES_2000DPS = radians(1) / (SCALE_RANGE_20BIT / 2000.0);
static constexpr float GYRO_SCALE_HIGHRES_4000DPS = radians(1) / (SCALE_RANGE_20BIT / 4000.0);
/*
Accel scale 16g (2048 LSB/g)
*/
static constexpr float ACCEL_SCALE_16G = (GRAVITY_MSS / (SCALE_RANGE_16BIT / 16));
/*
Accel scale 32g (1024 LSB/g)
*/
static constexpr float ACCEL_SCALE_32G = (GRAVITY_MSS / (SCALE_RANGE_16BIT / 32));
/*
highres accel is 16384 LSB/g on 45686 amd 8192 LSB/g on all others
*/
static constexpr float ACCEL_SCALE_HIGHRES_16G = (GRAVITY_MSS / (SCALE_RANGE_20BIT / 16));
static constexpr float ACCEL_SCALE_HIGHRES_32G = (GRAVITY_MSS / (SCALE_RANGE_20BIT / 32));
float accel_scale = ACCEL_SCALE_16G;
float gyro_scale = GYRO_SCALE_2000DPS;
// are we doing more than 1kHz sampling?
bool fast_sampling;
#if HAL_INS_HIGHRES_SAMPLE
bool highres_sampling;
#endif
// what rate are we generating samples into the backend for gyros and accels?
uint16_t backend_rate_hz;
// pre-calculated backend period
uint32_t backend_period_us;
AP_HAL::OwnPtr<AP_HAL::Device> dev;
AP_HAL::Device::PeriodicHandle periodic_handle;
// which sensor type this is
enum Invensensev3_Type inv3_type;
// buffer for fifo read
void* fifo_buffer;
float temp_filtered;
LowPassFilter2pFloat temp_filter;
};