File content as of revision 0:8aca38272614:

/******************************************************************************
 * SparkFun_VL6180X.h
 * Library for VL6180x time of flight range finder.
 * Casey Kuhns @ SparkFun Electronics
 * 10/29/2014
 * https://github.com/sparkfun/SparkFun_ToF_Range_Finder-VL6180_Arduino_Library
 * 
 * The VL6180x by ST micro is a time of flight range finder that
 * uses pulsed IR light to determine distances from object at close
 * range.  The average range of a sensor is between 0-200mm
 * 
 * In this file are the function prototypes in the VL6180x class
 * 
 * Resources:
 * This library uses the Arduino Wire.h to complete I2C transactions.
 * 
 * Development environment specifics:
 *  IDE: Arduino 1.0.5
 *  Hardware Platform: Arduino Pro 3.3V/8MHz
 *  VL6180x Breakout Version: 1.0
 
 **Updated for Arduino 1.6.4 5/2015**
 * 
 * Some settings and initial values come from code written by Kris Winer
 * VL6180X_t3 Basic Example Code
 * by: Kris Winer
 * date: September 1, 2014
 * license: Beerware - Use this code however you'd like. If you 
 * find it useful you can buy me a beer some time.
 * 
 * This code is beerware. If you see me (or any other SparkFun employee) at the
 * local pub, and you've found our code helpful, please buy us a round!
 * 
 * Distributed as-is; no warranty is given.
 ******************************************************************************/

#ifndef SparkFun_VL6180X_h
#define SparkFun_VL6180X_h

#include "mbed.h"

#define VL6180x_FAILURE_RESET  -1

#define VL6180X_IDENTIFICATION_MODEL_ID              0x0000
#define VL6180X_IDENTIFICATION_MODEL_REV_MAJOR       0x0001
#define VL6180X_IDENTIFICATION_MODEL_REV_MINOR       0x0002
#define VL6180X_IDENTIFICATION_MODULE_REV_MAJOR      0x0003
#define VL6180X_IDENTIFICATION_MODULE_REV_MINOR      0x0004
#define VL6180X_IDENTIFICATION_DATE                  0x0006 //16bit value
#define VL6180X_IDENTIFICATION_TIME                  0x0008 //16bit value

#define VL6180X_SYSTEM_MODE_GPIO0                    0x0010
#define VL6180X_SYSTEM_MODE_GPIO1                    0x0011
#define VL6180X_SYSTEM_HISTORY_CTRL                  0x0012
#define VL6180X_SYSTEM_INTERRUPT_CONFIG_GPIO         0x0014
#define VL6180X_SYSTEM_INTERRUPT_CLEAR               0x0015
#define VL6180X_SYSTEM_FRESH_OUT_OF_RESET            0x0016
#define VL6180X_SYSTEM_GROUPED_PARAMETER_HOLD        0x0017

#define VL6180X_SYSRANGE_START                       0x0018
#define VL6180X_SYSRANGE_THRESH_HIGH                 0x0019
#define VL6180X_SYSRANGE_THRESH_LOW                  0x001A
#define VL6180X_SYSRANGE_INTERMEASUREMENT_PERIOD     0x001B
#define VL6180X_SYSRANGE_MAX_CONVERGENCE_TIME        0x001C
#define VL6180X_SYSRANGE_CROSSTALK_COMPENSATION_RATE 0x001E
#define VL6180X_SYSRANGE_CROSSTALK_VALID_HEIGHT      0x0021
#define VL6180X_SYSRANGE_EARLY_CONVERGENCE_ESTIMATE  0x0022
#define VL6180X_SYSRANGE_PART_TO_PART_RANGE_OFFSET   0x0024
#define VL6180X_SYSRANGE_RANGE_IGNORE_VALID_HEIGHT   0x0025
#define VL6180X_SYSRANGE_RANGE_IGNORE_THRESHOLD      0x0026
#define VL6180X_SYSRANGE_MAX_AMBIENT_LEVEL_MULT      0x002C
#define VL6180X_SYSRANGE_RANGE_CHECK_ENABLES         0x002D
#define VL6180X_SYSRANGE_VHV_RECALIBRATE             0x002E
#define VL6180X_SYSRANGE_VHV_REPEAT_RATE             0x0031

#define VL6180X_SYSALS_START                         0x0038
#define VL6180X_SYSALS_THRESH_HIGH                   0x003A
#define VL6180X_SYSALS_THRESH_LOW                    0x003C
#define VL6180X_SYSALS_INTERMEASUREMENT_PERIOD       0x003E
#define VL6180X_SYSALS_ANALOGUE_GAIN                 0x003F
#define VL6180X_SYSALS_INTEGRATION_PERIOD            0x0040

#define VL6180X_RESULT_RANGE_STATUS                  0x004D
#define VL6180X_RESULT_ALS_STATUS                    0x004E
#define VL6180X_RESULT_INTERRUPT_STATUS_GPIO         0x004F
#define VL6180X_RESULT_ALS_VAL                       0x0050
#define VL6180X_RESULT_HISTORY_BUFFER                0x0052 
#define VL6180X_RESULT_RANGE_VAL                     0x0062
#define VL6180X_RESULT_RANGE_RAW                     0x0064
#define VL6180X_RESULT_RANGE_RETURN_RATE             0x0066
#define VL6180X_RESULT_RANGE_REFERENCE_RATE          0x0068
#define VL6180X_RESULT_RANGE_RETURN_SIGNAL_COUNT     0x006C
#define VL6180X_RESULT_RANGE_REFERENCE_SIGNAL_COUNT  0x0070
#define VL6180X_RESULT_RANGE_RETURN_AMB_COUNT        0x0074
#define VL6180X_RESULT_RANGE_REFERENCE_AMB_COUNT     0x0078
#define VL6180X_RESULT_RANGE_RETURN_CONV_TIME        0x007C
#define VL6180X_RESULT_RANGE_REFERENCE_CONV_TIME     0x0080

#define VL6180X_READOUT_AVERAGING_SAMPLE_PERIOD      0x010A
#define VL6180X_FIRMWARE_BOOTUP                      0x0119
#define VL6180X_FIRMWARE_RESULT_SCALER               0x0120
#define VL6180X_I2C_SLAVE_DEVICE_ADDRESS             0x0212
#define VL6180X_INTERLEAVED_MODE_ENABLE              0x02A3


enum vl6180x_als_gain { //Data sheet shows gain values as binary list

GAIN_20 = 0, // Actual ALS Gain of 20
GAIN_10,     // Actual ALS Gain of 10.32
GAIN_5,      // Actual ALS Gain of 5.21
GAIN_2_5,    // Actual ALS Gain of 2.60
GAIN_1_67,   // Actual ALS Gain of 1.72
GAIN_1_25,   // Actual ALS Gain of 1.28
GAIN_1 ,     // Actual ALS Gain of 1.01
GAIN_40,     // Actual ALS Gain of 40

};

struct VL6180xIdentification
{
  uint8_t idModel;
  uint8_t idModelRevMajor;
  uint8_t idModelRevMinor;
  uint8_t idModuleRevMajor;
  uint8_t idModuleRevMinor;
  uint16_t idDate;
  uint16_t idTime;
};


class VL6180x
{
public: 
    /** Create a VL6180 object at I2C address 0x29 (7 bit).
     * 
     * @param sda I2C sda pin number
     * @param scl I2C scl pin number
     */
    VL6180x(PinName sda, PinName scl);
    
    //Send manditory settings as stated in ST datasheet.
    // http://www.st.com/st-web-ui/static/active/en/resource/technical/document/application_note/DM00122600.pdf (Section 1.3)
    uint8_t VL6180xInit(void);
    // Use default settings from ST data sheet section 9.
    // http://www.st.com/st-web-ui/static/active/en/resource/technical/document/application_note/DM00122600.pdf
    void VL6180xDefautSettings(void);
    
    // Trigger sensor to measure range distance
    void triggerDistance();
    // Wait sensor to be ready and get range distance in (mm)    
    uint8_t pollDistance();

    // Get Range distance in (mm)
    uint8_t getDistance();
    // Get ALS level in Lux
    float getAmbientLight(vl6180x_als_gain VL6180X_ALS_GAIN);
    
    //Load structure provided by the user with identification info
    //Structure example:
    // struct VL6180xIdentification
    //  {
    //   uint8_t idModel;
    //   uint8_t idModelRevMajor;
    //   uint8_t idModelRevMinor;
    //   uint8_t idModuleRevMajor;
    //   uint8_t idModuleRevMinor;
    //   uint16_t idDate;
    //   uint16_t idTime;
    //   };
    void getIdentification(struct VL6180xIdentification *temp);
    
    //Change the default address of the device to allow multiple
    //sensors on the bus.  Can use up to 127 sensors. New address
    //is saved in non-volatile device memory.
    uint8_t changeAddress(uint8_t old_address, uint8_t new_address);


private:
  //Store address given when the class is initialized.
  //This value can be changed by the changeAddress() function
    I2C _i2c;
    int _res;
    static const int _addr = 0x52;

    uint8_t VL6180x_getRegister(uint16_t registerAddr);
    uint16_t VL6180x_getRegister16bit(uint16_t registerAddr);
    
    void VL6180x_setRegister(uint16_t registerAddr, uint8_t data);
    void VL6180x_setRegister16bit(uint16_t registerAddr, uint16_t data);


};

#endif