.. highlight:: cpp Barometer ========= A barometer is a scientific instrument that is used to measure air pressure in a certain environment. The absolute barometric pressure sensor can measure pressure from 300 Pascal to 1100 hPa. MetaWear RPro and Cpro, MMR, MMC, MTR, and MetaEnvironment boards come with a Bosch barometer. The specific barometer model varies between the boards although both barometers are nearly identical save for a few settings. Bosch barometer functions are defined in the `barometer_bosch.h `_ header file where functions containing ``baro_bosch`` are barometer agnostic where as functions with ``baro_bmp280`` and ``baro_bme280`` are for those specific barometers. Users can programatically determine which barometer is on their board with the `mbl_mw_metawearboard_lookup_module `_ function. :: #include "metawear/sensor/barometer_bosch.h" void barometer_who_am_i(MblMwMetaWearBoard* board) { switch (mbl_mw_metawearboard_lookup_module(board, MBL_MW_MODULE_BAROMETER)) { case MBL_MW_MODULE_TYPE_NA: printf("no barometer on this board\n"); break; case MBL_MW_MODULE_BARO_TYPE_BMP280: printf("barometer type = BMP280\n"); break; case MBL_MW_MODULE_BARO_TYPE_BME280: printf("barometer type = BME280\n"); break; default: printf("unknown barometer type\n"); break; } } Sensor Configuration -------------------- The Bosch barometers have 3 configurable parameters: * Oversampling * Infinite impulse filter (iir) coefficient * Standby time These operational parameters work in conjunction to control the noise, output resolution, and sampling rate. When you are done setting the configuration, call `mbl_mw_baro_bosch_write_config `_ to write the changes to the sensor. :: void configure_barometer(MblMwMetaWearBoard* board) { // Set oversampling to ultra high resolution mbl_mw_baro_bosch_set_oversampling(board, MBL_MW_BARO_BOSCH_OVERSAMPLE_ULTRA_HIGH); // Set standby time to 62.5ms or closest valid valud mbl_mw_baro_bosch_set_standby_time(board, 62.5f); // Set iir filter coefficient mbl_mw_baro_bosch_set_iir_filter(board, MBL_MW_BARO_BOSCH_IIR_FILTER_AVG_4); // Write configuration to the sensor mbl_mw_baro_bosch_write_config(board); } Pressure Sampling ----------------- Pressure data is represented as a float and is in units of Pascals. To receive pressure data, simply subscribe or log the pressure data signal and then start the sensor. :: #include "metawear/core/datasignal.h" void setup_pressure_stream(MblMwMetaWearBoard* board) { auto data_handler = [](const MblMwData* data) -> void { // Cast value to float* printf("%.3fPa\n", *((float*) data->value)); }; auto pa_signal= mbl_mw_baro_bosch_get_pressure_data_signal(board); mbl_mw_datasignal_subscribe(pa_signal, data_handler); mbl_mw_baro_bosch_start(board); } Altitude Sampling ----------------- Altitude data is represented as a float and is in units of meters. To receive altitude data, simply subscribe or log the altitude data signal and then start the sensor. :: #include "metawear/core/datasignal.h" void setup_altitude_stream(MblMwMetaWearBoard* board) { auto data_handler = [](const MblMwData* data) -> void { // Cast value to float* printf("%.3fm\n", *((float*) data->value)); }; auto m_signal= mbl_mw_baro_bosch_get_altitude_data_signal(board); mbl_mw_datasignal_subscribe(m_signal, data_handler); mbl_mw_baro_bosch_start(board); }