base program for tilt measurement

Dependencies:   COG4050_ADT7420 ADXL362

Fork of COG4050_adxl355_adxl357-ver2 by ADI_CAC

ADXL35x/ADXL355.h

Committer:
vtoffoli
Date:
2018-08-21
Revision:
8:9e6ead2ee8d7
Parent:
7:5aaa09c40283
Child:
10:f5ba762b58b4

File content as of revision 8:9e6ead2ee8d7:


#ifndef ADXL355_H_
#define ADXL355_H_

class ADXL355
{
public: 
    // -------------------------- //
    // CONST AND VARIABLES        // 
    const static float t_sens = -9.05;    
    const static float t_bias = 1852;    
    float axis355_sens;
    float axis357_sens;     
    // -------------------------- //
    // REGISTERS                  // 
    // -------------------------- //
    typedef enum {
        DEVID_AD = 0x00,
        DEVID_MST = 0x01,
        PARTID = 0x02,
        REVID = 0x03,
        STATUS = 0x04,
        FIFO_ENTRIES = 0x05,
        TEMP2 = 0x06,
        TEMP1 = 0x07,
        XDATA3 = 0x08,
        XDATA2 = 0x09,
        XDATA1 = 0x0A,
        YDATA3 = 0x0B,
        YDATA2 = 0x0C,
        YDATA1 = 0x0D,
        ZDATA3 = 0x0E,
        ZDATA2 = 0x0F,
        ZDATA1 = 0x10,
        FIFO_DATA = 0x11,
        OFFSET_X_H = 0x1E,
        OFFSET_X_L = 0x1F,
        OFFSET_Y_H = 0x20,
        OFFSET_Y_L = 0x21,
        OFFSET_Z_H = 0x22,
        OFFSET_Z_L = 0x23,
        ACT_EN = 0x24,
        ACT_THRESH_H = 0x25,
        ACT_THRESH_L = 0x26,
        ACT_COUNT = 0x27,
        FILTER = 0x28,
        FIFO_SAMPLES = 0x29,
        INT_MAP = 0x2A,
        SYNC = 0x2B,
        RANGE = 0x2C,
        POWER_CTL = 0x2D,
        SELF_TEST = 0x2E,
        RESET = 0x2F
    } ADXL355_register_t;
    // -------------------------- //
    // REGISTERS - DEFAULT VALUES //
    // -------------------------- //
    // Modes - POWER_CTL  
    typedef enum {
        DRDY_OFF = 0x04,
        TEMP_OFF = 0x02,
        STANDBY = 0x01,
        MEASUREMENT = 0x00
    } ADXL355_modes_t;    
    // Activate Threshold - ACT_EN  
    typedef enum {
        ACT_Z = 0x04,
        ACT_Y = 0x02,
        ACT_X = 0x01
    } ADXL355_act_ctl_t;
    // High-Pass and Low-Pass Filter - FILTER 
    typedef enum {
        HPFOFF = 0x00,
        HPF247 = 0x10,
        HPF62 = 0x20,
        HPF15 = 0x30,
        HPF3 = 0x40,
        HPF09 = 0x50,
        HPF02 = 0x60,
        ODR4000HZ = 0x00,
        ODR2000HZ = 0x01,
        ODR1000HZ = 0x02,
        ODR500HZ = 0x03,
        ODR250HZ = 0x04,
        ODR125Hz = 0x05,
        ODR62HZ = 0x06,
        ODR31Hz = 0x07,
        ODR15Hz = 0x08,
        ODR7Hz = 0x09,
        ODR3HZ = 0x0A
    } ADXL355_filter_ctl_t;
    // External timing register - INT_MAP 
    typedef enum {
        OVR_EN = 0x04,
        FULL_EN = 0x02,
        RDY_EN = 0x01
    } ADXL355_intmap_ctl_t;
    // External timing register - SYNC 
    typedef enum {
        EXT_CLK = 0x04,
        INT_SYNC = 0x00,
        EXT_SYNC_NO_INT = 0x01,
        EXT_SYNC_INT = 0x02
    } ADXL355_sync_ctl_t; 
    // polarity and range - RANGE 
    typedef enum {
        RANGE2G = 0x01,
        RANGE4G = 0x02,
        RANGE8G = 0x03,
        RANGE10 = 0x01,
        RANGE20 = 0x02,
        RANGE40 = 0x03
    } ADXL355_range_ctl_t;
    // self test interrupt - INT 
    typedef enum {
        ST2 = 0x02,
        ST1 = 0x01
    } ADXL355_int_ctl_t;
    // -------------------------- //
    // FUNCTIONS                  //  
    // -------------------------- //
    // SPI configuration & constructor 
    ADXL355(PinName cs_pin , PinName MOSI , PinName MISO , PinName SCK );
    void frequency(int hz);
    // Low level SPI bus comm methods 
    void reset(void);
    void write_reg(ADXL355_register_t reg, uint8_t data);
    void write_reg_u16(ADXL355_register_t reg, uint16_t data);
    uint8_t read_reg(ADXL355_register_t reg);
    uint16_t read_reg_u16(ADXL355_register_t reg);
    uint32_t read_reg_u20(ADXL355_register_t reg);
    // ADXL general register R/W methods 
    void set_power_ctl_reg(uint8_t data);
    void set_filter_ctl_reg(ADXL355_filter_ctl_t hpf, ADXL355_filter_ctl_t odr);
    void set_clk(ADXL355_sync_ctl_t data);
    void set_device(ADXL355_range_ctl_t range);
    uint8_t read_status();
    // ADXL X/Y/Z/T scanning methods   
    uint32_t scanx();
    uint32_t scany();
    uint32_t scanz();
    uint16_t scant();
    // ADXL activity methods 
    void set_activity_axis(ADXL355_act_ctl_t axis);
    void set_activity_cnt(uint8_t count);
    void set_activity_threshold(uint8_t data_h, uint8_t data_l);
    void set_inactivity();
    // ADXL interrupt methods 
    void set_interrupt1_pin(PinName in, ADXL355_intmap_ctl_t mode);
    void set_interrupt2_pin(PinName in, ADXL355_intmap_ctl_t mode);
    void enable_interrupt1();
    void enable_interrupt2();
    void disable_interrupt1();
    void disable_interrupt2();
    void set_polling_interrupt1_pin(uint8_t data);
    void set_polling_interrupt2_pin(uint8_t data);
    bool get_int1();
    bool get_int2();
    // ADXL FIFO methods 
    uint8_t fifo_read_nr_of_entries();
    void fifo_setup(uint8_t nr_of_entries);
    uint32_t fifo_read_u32();
    uint64_t fifo_scan();
    // ADXL conversion
    float convert(uint32_t data);
    
private:
    // SPI adxl355;                 ///< SPI instance of the ADXL
    SPI adxl355; DigitalOut cs;
    const static uint8_t _DEVICE_AD = 0xAD;     // contect of DEVID_AD (only-read) register 
    const static uint8_t _RESET = 0x52;         // reset code 
    const static uint8_t _DUMMY_BYTE = 0xAA;    // 10101010
    const static uint8_t _WRITE_REG_CMD = 0x00; // write register
    const static uint8_t _READ_REG_CMD = 0x01;  // read register
    const static uint8_t _READ_FIFO_CMD = 0x23; // read FIFO
    const static uint8_t _SPI_MODE = 0;         // timing scheme
};
 
#endif