ardupilot/libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp

/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-

#include <AP_HAL.h>
#if CONFIG_HAL_BOARD == HAL_BOARD_APM1
#include "AP_InertialSensor_Oilpan.h"

// ADC channel mappings on for the APM Oilpan
// Sensors: GYROX, GYROY, GYROZ, ACCELX, ACCELY, ACCELZ
const uint8_t AP_InertialSensor_Oilpan::_sensors[6] = { 1, 2, 0, 4, 5, 6 };

// ADC result sign adjustment for sensors.
const int8_t AP_InertialSensor_Oilpan::_sensor_signs[6] =
{ 1, -1, -1, 1, -1, -1 };

// ADC channel reading the gyro temperature
const uint8_t AP_InertialSensor_Oilpan::_gyro_temp_ch = 3;

// Maximum possible value returned by an offset-corrected sensor channel
const float AP_InertialSensor_Oilpan::_adc_constraint = 900;

// ADC : Voltage reference 3.3v / 12bits(4096 steps) => 0.8mV/ADC step
// ADXL335 Sensitivity(from datasheet) => 330mV/g,
// 0.8mV/ADC step => 330/0.8 = 412
// Tested value : 418

// Oilpan accelerometer scaling & offsets
#define OILPAN_ACCEL_SCALE_1G   (GRAVITY * 2.0 / (2465.0 - 1617.0))
#define OILPAN_RAW_ACCEL_OFFSET ((2465.0 + 1617.0) * 0.5)
#define OILPAN_RAW_GYRO_OFFSET  1658.0

#define ToRad(x) radians(x)      // *pi/180
// IDG500 Sensitivity (from datasheet) => 2.0mV/degree/s,
// 0.8mV/ADC step => 0.8/3.33 = 0.4
// Tested values : 0.4026, ?, 0.4192
const float AP_InertialSensor_Oilpan::_gyro_gain_x = ToRad(0.4);
const float AP_InertialSensor_Oilpan::_gyro_gain_y = ToRad(0.41);
const float AP_InertialSensor_Oilpan::_gyro_gain_z = ToRad(0.41);

/* ------ Public functions -------------------------------------------*/

AP_InertialSensor_Oilpan::AP_InertialSensor_Oilpan( AP_ADC * adc ) :
    _adc(adc)
{
}

uint16_t AP_InertialSensor_Oilpan::_init_sensor( Sample_rate sample_rate)
{
    _adc->Init();

    switch (sample_rate) {
    case RATE_50HZ:
        _sample_threshold = 20;
        break;
    case RATE_100HZ:
        _sample_threshold = 10;
        break;
    case RATE_200HZ:
        _sample_threshold = 5;
        break;
    }

#if CONFIG_HAL_BOARD == HAL_BOARD_AVR_SITL
    return AP_PRODUCT_ID_SITL;
#elif defined(__AVR_ATmega1280__)
    return AP_PRODUCT_ID_APM1_1280;
#else
    return AP_PRODUCT_ID_APM1_2560;
#endif
}

bool AP_InertialSensor_Oilpan::update()
{
    float adc_values[6];
    Vector3f gyro_offset = _gyro_offset.get();
    Vector3f accel_scale = _accel_scale.get();
    Vector3f accel_offset = _accel_offset.get();


    _delta_time_micros = _adc->Ch6(_sensors, adc_values);
    _temp = _adc->Ch(_gyro_temp_ch);

    _gyro.x = _gyro_gain_x * _sensor_signs[0] * ( adc_values[0] - OILPAN_RAW_GYRO_OFFSET );
    _gyro.y = _gyro_gain_y * _sensor_signs[1] * ( adc_values[1] - OILPAN_RAW_GYRO_OFFSET );
    _gyro.z = _gyro_gain_z * _sensor_signs[2] * ( adc_values[2] - OILPAN_RAW_GYRO_OFFSET );
    _gyro -= gyro_offset;

    _accel.x = accel_scale.x * _sensor_signs[3] * (adc_values[3] - OILPAN_RAW_ACCEL_OFFSET) * OILPAN_ACCEL_SCALE_1G;
    _accel.y = accel_scale.y * _sensor_signs[4] * (adc_values[4] - OILPAN_RAW_ACCEL_OFFSET) * OILPAN_ACCEL_SCALE_1G;
    _accel.z = accel_scale.z * _sensor_signs[5] * (adc_values[5] - OILPAN_RAW_ACCEL_OFFSET) * OILPAN_ACCEL_SCALE_1G;
    _accel -= accel_offset;

/*
 *  X  = 1619.30 to 2445.69
 *  Y =  1609.45 to 2435.42
 *  Z =  1627.44  to 2434.82
 */

    return true;
}

bool AP_InertialSensor_Oilpan::new_data_available( void )
{
    return _adc->new_data_available(_sensors);
}

float AP_InertialSensor_Oilpan::temperature() {
    return _temp;
}

uint32_t AP_InertialSensor_Oilpan::get_delta_time_micros() {
    return _delta_time_micros;
}

/* ------ Private functions -------------------------------------------*/

// return the oilpan gyro drift rate in radian/s/s
float AP_InertialSensor_Oilpan::get_gyro_drift_rate(void)
{
    // 3.0 degrees/second/minute
    return ToRad(3.0/60);
}

// get number of samples read from the sensors
uint16_t AP_InertialSensor_Oilpan::num_samples_available()
{
    return _adc->num_samples_available(_sensors) / _sample_threshold;
}
#endif // CONFIG_HAL_BOARD
added code format markers to AP_InertialSensor library 2011-12-21 00:30:22 -04:00			`/// -- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil --`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00
AP_InertialSensor: only build Oilpan driver on APM1 2013-01-10 06:01:55 -04:00			`#include <AP_HAL.h>`
			`#if CONFIG_HAL_BOARD == HAL_BOARD_APM1`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00			`#include "AP_InertialSensor_Oilpan.h"`

			`// ADC channel mappings on for the APM Oilpan`
			`// Sensors: GYROX, GYROY, GYROZ, ACCELX, ACCELY, ACCELZ`
			`const uint8_t AP_InertialSensor_Oilpan::_sensors[6] = { 1, 2, 0, 4, 5, 6 };`

			`// ADC result sign adjustment for sensors.`
uncrustify libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp 2012-08-17 03:19:56 -03:00			`const int8_t AP_InertialSensor_Oilpan::_sensor_signs[6] =`
			`{ 1, -1, -1, 1, -1, -1 };`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00
			`// ADC channel reading the gyro temperature`
			`const uint8_t AP_InertialSensor_Oilpan::_gyro_temp_ch = 3;`

			`// Maximum possible value returned by an offset-corrected sensor channel`
			`const float AP_InertialSensor_Oilpan::_adc_constraint = 900;`

			`// ADC : Voltage reference 3.3v / 12bits(4096 steps) => 0.8mV/ADC step`
			`// ADXL335 Sensitivity(from datasheet) => 330mV/g,`
			`// 0.8mV/ADC step => 330/0.8 = 412`
			`// Tested value : 418`

AP_InertialSensor: merge in calibration features from IMU library add gauss-newton method of accelerometer calibration 2012-11-05 00:27:03 -04:00			`// Oilpan accelerometer scaling & offsets`
			`#define OILPAN_ACCEL_SCALE_1G (GRAVITY * 2.0 / (2465.0 - 1617.0))`
INS: fixed raw accel offset for APM1 we now get reasonable offset values 2012-11-20 03:26:03 -04:00			`#define OILPAN_RAW_ACCEL_OFFSET ((2465.0 + 1617.0) * 0.5)`
AP_InertialSensor: merge in calibration features from IMU library add gauss-newton method of accelerometer calibration 2012-11-05 00:27:03 -04:00			`#define OILPAN_RAW_GYRO_OFFSET 1658.0`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00
Math: use common degrees() and radians() functions 2012-12-19 02:02:13 -04:00			`#define ToRad(x) radians(x) // *pi/180`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00			`// IDG500 Sensitivity (from datasheet) => 2.0mV/degree/s,`
			`// 0.8mV/ADC step => 0.8/3.33 = 0.4`
			`// Tested values : 0.4026, ?, 0.4192`
			`const float AP_InertialSensor_Oilpan::_gyro_gain_x = ToRad(0.4);`
			`const float AP_InertialSensor_Oilpan::_gyro_gain_y = ToRad(0.41);`
			`const float AP_InertialSensor_Oilpan::_gyro_gain_z = ToRad(0.41);`

			`/* ------ Public functions -------------------------------------------*/`

			`AP_InertialSensor_Oilpan::AP_InertialSensor_Oilpan( AP_ADC * adc ) :`
uncrustify libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp 2012-08-17 03:19:56 -03:00			`_adc(adc)`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00			`{`
			`}`

AP_InertialSensor: ported to AP_HAL 2012-10-11 21:27:19 -03:00			`uint16_t AP_InertialSensor_Oilpan::_init_sensor( Sample_rate sample_rate)`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00			`{`
AP_InertialSensor: ported to AP_HAL 2012-10-11 21:27:19 -03:00			`_adc->Init();`
AP_InertialSensor: Return product ID from sensor initialization this exposes the product ID to the IMU Layer 2012-05-08 23:26:35 -03:00
AP_InertialSensor: allow specification of sample rate in init() call this lets the caller not need to know the underlying sample rate. They just ask for what rate updates happen. This also changes the MPU6k filtering to be less than half the sample rate 2012-11-29 07:56:13 -04:00			`switch (sample_rate) {`
			`case RATE_50HZ:`
			`_sample_threshold = 20;`
			`break;`
			`case RATE_100HZ:`
			`_sample_threshold = 10;`
			`break;`
			`case RATE_200HZ:`
			`_sample_threshold = 5;`
			`break;`
			`}`

Oilpan: removed reference to DESKTOP_BUILD 2013-01-02 00:39:41 -04:00			`#if CONFIG_HAL_BOARD == HAL_BOARD_AVR_SITL`
uncrustify libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp 2012-08-17 03:19:56 -03:00			`return AP_PRODUCT_ID_SITL;`
AP_InertialSensor: Return product ID from sensor initialization this exposes the product ID to the IMU Layer 2012-05-08 23:26:35 -03:00			`#elif defined(__AVR_ATmega1280__)`
uncrustify libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp 2012-08-17 03:19:56 -03:00			`return AP_PRODUCT_ID_APM1_1280;`
AP_InertialSensor: Return product ID from sensor initialization this exposes the product ID to the IMU Layer 2012-05-08 23:26:35 -03:00			`#else`
uncrustify libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp 2012-08-17 03:19:56 -03:00			`return AP_PRODUCT_ID_APM1_2560;`
AP_InertialSensor: Return product ID from sensor initialization this exposes the product ID to the IMU Layer 2012-05-08 23:26:35 -03:00			`#endif`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00			`}`

			`bool AP_InertialSensor_Oilpan::update()`
			`{`
uncrustify libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp 2012-08-17 03:19:56 -03:00			`float adc_values[6];`
AP_InertialSensor: merge in calibration features from IMU library add gauss-newton method of accelerometer calibration 2012-11-05 00:27:03 -04:00			`Vector3f gyro_offset = _gyro_offset.get();`
			`Vector3f accel_scale = _accel_scale.get();`
			`Vector3f accel_offset = _accel_offset.get();`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00
INS: use vector subtraction to make code clearer 2012-11-20 03:25:36 -04:00
AP_InertialSensor: merge in calibration features from IMU library add gauss-newton method of accelerometer calibration 2012-11-05 00:27:03 -04:00			`_delta_time_micros = _adc->Ch6(_sensors, adc_values);`
uncrustify libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp 2012-08-17 03:19:56 -03:00			`_temp = _adc->Ch(_gyro_temp_ch);`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00
INS: use vector subtraction to make code clearer 2012-11-20 03:25:36 -04:00			`_gyro.x = _gyro_gain_x * _sensor_signs[0] * ( adc_values[0] - OILPAN_RAW_GYRO_OFFSET );`
			`_gyro.y = _gyro_gain_y * _sensor_signs[1] * ( adc_values[1] - OILPAN_RAW_GYRO_OFFSET );`
			`_gyro.z = _gyro_gain_z * _sensor_signs[2] * ( adc_values[2] - OILPAN_RAW_GYRO_OFFSET );`
			`_gyro -= gyro_offset;`
Oilpan ADC parameters added including a function that configures each Accel Axis Defaults matching old behavior Added param group 2012-07-19 02:56:13 -03:00
INS: use vector subtraction to make code clearer 2012-11-20 03:25:36 -04:00			`_accel.x = accel_scale.x * _sensor_signs[3] * (adc_values[3] - OILPAN_RAW_ACCEL_OFFSET) * OILPAN_ACCEL_SCALE_1G;`
			`_accel.y = accel_scale.y * _sensor_signs[4] * (adc_values[4] - OILPAN_RAW_ACCEL_OFFSET) * OILPAN_ACCEL_SCALE_1G;`
			`_accel.z = accel_scale.z * _sensor_signs[5] * (adc_values[5] - OILPAN_RAW_ACCEL_OFFSET) * OILPAN_ACCEL_SCALE_1G;`
			`_accel -= accel_offset;`
Oilpan ADC parameters added including a function that configures each Accel Axis Defaults matching old behavior Added param group 2012-07-19 02:56:13 -03:00
			`/*`
uncrustify libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp 2012-08-17 03:19:56 -03:00			`* X = 1619.30 to 2445.69`
			`* Y = 1609.45 to 2435.42`
			`* Z = 1627.44 to 2434.82`
			`*/`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00
uncrustify libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp 2012-08-17 03:19:56 -03:00			`return true;`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00			`}`

AP_InertialSensor: added new_data_available() interface 2012-03-03 03:31:31 -04:00			`bool AP_InertialSensor_Oilpan::new_data_available( void )`
			`{`
			`return _adc->new_data_available(_sensors);`
			`}`

uncrustify libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp 2012-08-17 03:19:56 -03:00			`float AP_InertialSensor_Oilpan::temperature() {`
			`return _temp;`
			`}`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00
AP_InertialSensor: merge in calibration features from IMU library add gauss-newton method of accelerometer calibration 2012-11-05 00:27:03 -04:00			`uint32_t AP_InertialSensor_Oilpan::get_delta_time_micros() {`
			`return _delta_time_micros;`
uncrustify libraries/AP_InertialSensor/AP_InertialSensor_Oilpan.cpp 2012-08-17 03:19:56 -03:00			`}`
purple: added AP_InertialSensor library this abstracts the way of getting inertial sensor (gyro and accelerometer) data for the APM1 and purple hardware. The Oilpan code is based closely on the old APM1 code 2011-11-12 23:20:25 -04:00
			`/* ------ Private functions -------------------------------------------*/`

AP_InertialSensor: added a get_gyro_drift_rate() interface this returns the expected max drift rate for the particular type of gyro being used 2012-03-08 03:10:27 -04:00			`// return the oilpan gyro drift rate in radian/s/s`
			`float AP_InertialSensor_Oilpan::get_gyro_drift_rate(void)`
			`{`
			`// 3.0 degrees/second/minute`
			`return ToRad(3.0/60);`
			`}`
AP_InertialSensor: changed read of sensor from MPU6000 to happen immediately This reduces the delay between when data arrives and when it is used by up to 1ms. Added num_samples_available method to all InertialSensors to allow main loop timing to be synced with sensors. 2012-08-30 04:48:36 -03:00
			`// get number of samples read from the sensors`
			`uint16_t AP_InertialSensor_Oilpan::num_samples_available()`
			`{`
AP_InertialSensor: return the example sample count in Oilpan 2012-11-29 15:39:24 -04:00			`return _adc->num_samples_available(_sensors) / _sample_threshold;`
AP_InertialSensor: changed read of sensor from MPU6000 to happen immediately This reduces the delay between when data arrives and when it is used by up to 1ms. Added num_samples_available method to all InertialSensors to allow main loop timing to be synced with sensors. 2012-08-30 04:48:36 -03:00			`}`
AP_InertialSensor: only build Oilpan driver on APM1 2013-01-10 06:01:55 -04:00			`#endif // CONFIG_HAL_BOARD`