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Interrupt mode. How to Adjust Calibration of LIS2MDL Sensor for Temperature Variations?

ngrigoriadis
Senior

Hello

I am working with an ST magnetometer sensor to detect movement along the X-axis. I have a custom board featuring an L4 microcontroller, which enters STOP MODE 2 until an interrupt is triggered. I use the following function to initialize the sensor for this mode, after which the device goes to sleep. When the magnetic data exceeds a specified threshold, the magnetometer generates an interrupt and the device wakes up.

However, I am facing a challenge regarding maintaining the device's proper functionality when exposed to temperature variations. The interrupt generation is based on raw magnetic data returned by the function lis2mdl_magnetic_raw_get(). I am aware that the temperature fluctuations, such as reaching 50 C, can distort the magnetic readings, potentially causing inaccuracies. The magnetometer will require calibration, but my question is how to apply the calibrated values in the system?

 

Currently, my approach is to keep the device in sleep mode and wake it up only when the magnetic data exceeds the threshold. Should I recalibrate the threshold based on the magnetic data to account for temperature changes?

Below is the function I use for sensor initialization:

 

 

 

int LIS2MDL_init(lis2mdlType magnet)
{
    lis2mdl_int_crtl_reg_t int_ctrl;

    /*Initialize driver interface*/
    dev_ctx.write_reg = platform_write;
    dev_ctx.read_reg = platform_read;
    dev_ctx.mdelay = platform_delay;
    dev_ctx.handle = &SENSOR_BUS;

    /*Wait for sensor boot*/
    platform_delay(20);

    /*Check device ID*/
    magnet.whoamI = LIS2MDL_get_id();
    if (magnet.whoamI != LIS2MDL_ID)
    {
        LOG_ERR("Device is not accessible");
        return -1;
    }

    /*Reset and reinitialize sensor*/
    lis2mdl_reset_set(&dev_ctx, PROPERTY_ENABLE);
    uint8_t rst;
    do {
        lis2mdl_reset_get(&dev_ctx, &rst);
    } while (rst);

    /*Enable block data update*/
    lis2mdl_block_data_update_set(&dev_ctx, PROPERTY_ENABLE);

    /*Set output data rate to 10 Hz*/
    lis2mdl_data_rate_set(&dev_ctx, LIS2MDL_ODR_10Hz);

    /*Set magnetic condition restoration policy*/
    lis2mdl_set_rst_mode_set(&dev_ctx, LIS2MDL_SET_SENS_ONLY_AT_POWER_ON);

    /*Enable temperature compensation if needed*/
    lis2mdl_offset_temp_comp_set(&dev_ctx, PROPERTY_ENABLE);

    /*Set continuous mode for measurement*/
    lis2mdl_operating_mode_set(&dev_ctx, LIS2MDL_CONTINUOUS_MODE);

    /*Set low-power mode*/
    lis2mdl_power_mode_set(&dev_ctx, LIS2MDL_LOW_POWER);

    /*Enable interrupt on INT pin*/
    lis2mdl_int_on_pin_set(&dev_ctx, PROPERTY_ENABLE);

    /*Set interrupt threshold*/
    lis2mdl_int_gen_threshold_set(&dev_ctx, NORMAL_THRESHOLD);

    /*Configure interrupt control*/
    int_ctrl.iea = PROPERTY_ENABLE;    // Interrupt signal active HIGH
    int_ctrl.ien = PROPERTY_ENABLE;    // Enable interrupt system
    int_ctrl.iel = PROPERTY_DISABLE;   // Pulse interrupt signal

    /*Enable X-axis interrupt only*/
    int_ctrl.zien = PROPERTY_DISABLE;  // Disable Z-axis interrupt
    int_ctrl.yien = PROPERTY_DISABLE;  // Disable Y-axis interrupt
    int_ctrl.xien = PROPERTY_ENABLE;   // Enable X-axis interrupt

    /*Apply interrupt configuration*/
    lis2mdl_int_gen_conf_set(&dev_ctx, &int_ctrl);

    LOG_INF("LIS2MDL configured for continuous low-power mode with X-axis interrupt enabled");

    return 0;
} 

 

 

 

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