ardupilot/libraries/AP_InertialSensor/AP_InertialSensor_MPU6000.h

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

#ifndef __AP_INERTIAL_SENSOR_MPU6000_H__
#define __AP_INERTIAL_SENSOR_MPU6000_H__

#include <string.h>
#include <stdint.h>

#include "../AP_PeriodicProcess/AP_PeriodicProcess.h"
#include "../AP_Math/AP_Math.h"
#include "AP_InertialSensor.h"

#define DMP_FIFO_BUFFER_SIZE 72        // DMP FIFO buffer size

//dmpMem from dmpDefaultMantis.c
extern unsigned char dmpMem[8][16][16] PROGMEM;

class AP_InertialSensor_MPU6000 : public AP_InertialSensor
{
  public:

  AP_InertialSensor_MPU6000( uint8_t cs_pin );

  uint16_t init( AP_PeriodicProcess * scheduler );
  static void dmp_init();       // Initialise MPU6000's DMP
  static void dmp_reset();		// Reset the DMP (required for changes in gains or offsets to take effect)

  /* Concrete implementation of AP_InertialSensor functions: */
  bool update();
  bool new_data_available();
  float gx();
  float gy();
  float gz();
  void get_gyros( float * );
  float ax();
  float ay();
  float az();
  void get_accels( float * );
  void get_sensors( float * );
  float temperature();
  uint32_t sample_time();
  void reset_sample_time();
  float get_gyro_drift_rate();

  // set_gyro_offsets - updates gyro offsets in mpu6000 registers
  static void set_gyro_offsets_scaled(float offX, float offY, float offZ);
  static void set_gyro_offsets(int16_t offsetX, int16_t offsetY, int16_t offsetZ);

  // set_accel_offsets - updates accel offsets in DMP registers
  static void set_accel_offsets_scaled(float offX, float offY, float offZ);
  static void set_accel_offsets(int16_t offsetX, int16_t offsetY, int16_t offsetZ);

  private:

  static void read(uint32_t);
  static void data_interrupt(void);
  static uint8_t register_read( uint8_t reg );
  static void register_write( uint8_t reg, uint8_t val );
  static void hardware_init();

  Vector3f _gyro;
  Vector3f _accel;
  float _temp;

  uint32_t _last_sample_micros;

  float _temp_to_celsius( uint16_t );

  static const float _accel_scale;
  static const float _gyro_scale;

  static const uint8_t _gyro_data_index[3];
  static const  int8_t _gyro_data_sign[3];

  static const uint8_t _accel_data_index[3];
  static const  int8_t _accel_data_sign[3];

  static const uint8_t _temp_data_index;

  /* TODO deprecate _cs_pin */
  static uint8_t _cs_pin;

  // ensure we can't initialise twice
  bool _initialised;

  // dmp related methods and parameters
  static void dmp_register_write(uint8_t bank, uint8_t address, uint8_t num_bytes, uint8_t data[]);  // Method to write multiple bytes into dmp registers.  Requires a "bank" 
  static void dmp_set_rate(uint8_t rate);  // set DMP output rate (see constants)

public:
  static Quaternion quaternion;				// holds the 4 quaternions representing attitude taken directly from the DMP

  static bool FIFO_ready();					// returns true if new attitude data is available in FIFO buffer
  static void FIFO_reset();					// clear attitude data from FIFO buffer
  static void FIFO_getPacket();				// get latest attitude data from FIFO buffer
  static void dmp_set_gyro_calibration();
  static void dmp_set_accel_calibration();
  static void dmp_apply_endian_accel();
  static void dmp_set_mpu_sensors();			// To configure for SIX_AXIS output
  static void dmp_set_bias_from_no_motion();	// Turn on bias from no motion
  static void dmp_set_bias_none();				// Turn off internal bias correction (we will use this and we handle the gyro bias correction externally)
  static void dmp_set_fifo_interrupt();
  static void dmp_send_quaternion();			// Send quaternion data to FIFO
  static void dmp_send_gyro();					// Send gyro data to FIFO
  static void dmp_send_accel();				// Send accel data to FIFO
  static void dmp_set_fifo_rate(uint8_t rate);	// This functions defines the rate at wich attitude data is send to FIFO.  Rate: 0 => SAMPLE_RATE(ex:200Hz), 1=> SAMPLE_RATE/2 (ex:100Hz), 2=> SAMPLE_RATE/3 (ex:66Hz)
  static void dmp_set_sensor_fusion_accel_gain(uint8_t gain);	// This function defines the weight of the accel on the sensor fusion. Default value is 0x80. The official invensense name is inv_key_0_96 (?)
  static void dmp_load_mem();					// Load initial memory values into DMP memory banks

  static uint8_t _received_packet[DMP_FIFO_BUFFER_SIZE];    // FIFO packet buffer
  static uint8_t _fifoCountH;					// high byte of number of elements in fifo buffer
  static uint8_t _fifoCountL;					// low byte of number of elements in fifo buffer

  static bool _dmp_initialised;
};

#endif // __AP_INERTIAL_SENSOR_MPU6000_H__
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
			`#ifndef __AP_INERTIAL_SENSOR_MPU6000_H__`
			`#define __AP_INERTIAL_SENSOR_MPU6000_H__`

			`#include <string.h>`
			`#include <stdint.h>`

			`#include "../AP_PeriodicProcess/AP_PeriodicProcess.h"`
			`#include "../AP_Math/AP_Math.h"`
			`#include "AP_InertialSensor.h"`

AP_InertialSensor: methods added to access DMP functionality 2012-07-28 02:14:43 -03:00			`#define DMP_FIFO_BUFFER_SIZE 72 // DMP FIFO buffer size`

			`//dmpMem from dmpDefaultMantis.c`
			`extern unsigned char dmpMem[8][16][16] PROGMEM;`

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			`class AP_InertialSensor_MPU6000 : public AP_InertialSensor`
			`{`
			`public:`

MPU6000: minor fixes the hardware functions should be private, and cs_pin should be uint8_t 2011-12-26 16:34:18 -04:00			`AP_InertialSensor_MPU6000( uint8_t cs_pin );`
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: Return product ID from sensor initialization this exposes the product ID to the IMU Layer 2012-05-08 23:26:35 -03:00			`uint16_t init( AP_PeriodicProcess * scheduler );`
AP_InertialSensor: methods added to access DMP functionality 2012-07-28 02:14:43 -03:00			`static void dmp_init(); // Initialise MPU6000's DMP`
			`static void dmp_reset(); // Reset the DMP (required for changes in gains or offsets to take effect)`
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
			`/* Concrete implementation of AP_InertialSensor functions: */`
			`bool update();`
AP_InertialSensor: added new_data_available() interface 2012-03-03 03:31:31 -04:00			`bool new_data_available();`
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			`float gx();`
			`float gy();`
			`float gz();`
			`void get_gyros( float * );`
			`float ax();`
			`float ay();`
			`float az();`
			`void get_accels( float * );`
			`void get_sensors( float * );`
			`float temperature();`
			`uint32_t sample_time();`
			`void reset_sample_time();`
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			`float get_gyro_drift_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: methods added to access DMP functionality 2012-07-28 02:14:43 -03:00			`// set_gyro_offsets - updates gyro offsets in mpu6000 registers`
			`static void set_gyro_offsets_scaled(float offX, float offY, float offZ);`
			`static void set_gyro_offsets(int16_t offsetX, int16_t offsetY, int16_t offsetZ);`

			`// set_accel_offsets - updates accel offsets in DMP registers`
			`static void set_accel_offsets_scaled(float offX, float offY, float offZ);`
			`static void set_accel_offsets(int16_t offsetX, int16_t offsetY, int16_t offsetZ);`

MPU6000: minor fixes the hardware functions should be private, and cs_pin should be uint8_t 2011-12-26 16:34:18 -04:00			`private:`

MPU6k: update driver for new ap_proceduce prototype 2011-12-21 08:22:07 -04:00			`static void read(uint32_t);`
MPU6000: use data ready interrupt to prevent stale data We listen for a data ready interrupt and only read new data in read() if there is new data 2011-12-25 05:37:50 -04:00			`static void data_interrupt(void);`
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			`static uint8_t register_read( uint8_t reg );`
			`static void register_write( uint8_t reg, uint8_t val );`
			`static void hardware_init();`

			`Vector3f _gyro;`
			`Vector3f _accel;`
			`float _temp;`

			`uint32_t _last_sample_micros;`

			`float _temp_to_celsius( uint16_t );`

			`static const float _accel_scale;`
			`static const float _gyro_scale;`

			`static const uint8_t _gyro_data_index[3];`
			`static const int8_t _gyro_data_sign[3];`

			`static const uint8_t _accel_data_index[3];`
			`static const int8_t _accel_data_sign[3];`

			`static const uint8_t _temp_data_index;`

			`/* TODO deprecate _cs_pin */`
MPU6000: minor fixes the hardware functions should be private, and cs_pin should be uint8_t 2011-12-26 16:34:18 -04:00			`static uint8_t _cs_pin;`
MPU6000: protect the driver from double initialisation initialising twice can lockup the driver 2011-12-26 16:38:36 -04:00
			`// ensure we can't initialise twice`
AP_InertialSensor: methods added to access DMP functionality 2012-07-28 02:14:43 -03:00			`bool _initialised;`

			`// dmp related methods and parameters`
			`static void dmp_register_write(uint8_t bank, uint8_t address, uint8_t num_bytes, uint8_t data[]); // Method to write multiple bytes into dmp registers. Requires a "bank"`
			`static void dmp_set_rate(uint8_t rate); // set DMP output rate (see constants)`

			`public:`
			`static Quaternion quaternion; // holds the 4 quaternions representing attitude taken directly from the DMP`

			`static bool FIFO_ready(); // returns true if new attitude data is available in FIFO buffer`
			`static void FIFO_reset(); // clear attitude data from FIFO buffer`
			`static void FIFO_getPacket(); // get latest attitude data from FIFO buffer`
			`static void dmp_set_gyro_calibration();`
			`static void dmp_set_accel_calibration();`
			`static void dmp_apply_endian_accel();`
			`static void dmp_set_mpu_sensors(); // To configure for SIX_AXIS output`
			`static void dmp_set_bias_from_no_motion(); // Turn on bias from no motion`
			`static void dmp_set_bias_none(); // Turn off internal bias correction (we will use this and we handle the gyro bias correction externally)`
			`static void dmp_set_fifo_interrupt();`
			`static void dmp_send_quaternion(); // Send quaternion data to FIFO`
			`static void dmp_send_gyro(); // Send gyro data to FIFO`
			`static void dmp_send_accel(); // Send accel data to FIFO`
			`static void dmp_set_fifo_rate(uint8_t rate); // This functions defines the rate at wich attitude data is send to FIFO. Rate: 0 => SAMPLE_RATE(ex:200Hz), 1=> SAMPLE_RATE/2 (ex:100Hz), 2=> SAMPLE_RATE/3 (ex:66Hz)`
			`static void dmp_set_sensor_fusion_accel_gain(uint8_t gain); // This function defines the weight of the accel on the sensor fusion. Default value is 0x80. The official invensense name is inv_key_0_96 (?)`
			`static void dmp_load_mem(); // Load initial memory values into DMP memory banks`

			`static uint8_t _received_packet[DMP_FIFO_BUFFER_SIZE]; // FIFO packet buffer`
			`static uint8_t _fifoCountH; // high byte of number of elements in fifo buffer`
			`static uint8_t _fifoCountL; // low byte of number of elements in fifo buffer`

			`static bool _dmp_initialised;`
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			`};`

			`#endif // __AP_INERTIAL_SENSOR_MPU6000_H__`