.. highlight:: javascript Humidity ======== A humidity sensor senses relative humidity. This means that it measures both air temperature and moisture. Relative humidity, expressed as a percent, is the ratio of actual moisture in the air to the highest amount of moisture air at that temperature can hold. MetaEnvironment and MTR boards have a Bosch `BME280 `_ integrated environmental unit. Humidity functionality of that sensor are controlled by the functions in the `humidity.h `_ header file. Oversampling ------------ The humidity sensing portion of the BME280 chip only has 1 configurable parameter which is the oversampling mode. This is set by calling `mbl_mw_humidity_bme280_set_oversampling `_. Unlike other configuration functions, this function will immediately write the change to the sensor. :: MetaWear.mbl_mw_humidity_bme280_set_oversampling(board, MBL_MW_HUMIDITY_BME280_OVERSAMPLING_16X); Humidity Measurement -------------------- Measuring humidity is manually triggered by calling `mbl_mw_datasignal_read `_ with a humidity data signal. Humidity data is percetange from 0 to 100 represented as a float. :: // Setup barometer MetaWear.mbl_mw_humidity_bme280_set_oversampling(device.board, MBL_MW_HUMIDITY_BME280_OVERSAMPLING_1X); // Get humidity signal var hum = MetaWear.mbl_mw_humidity_bme280_get_percentage_data_signal(device.board); // Subscribe to it console.log('Subscribe'); MetaWear.mbl_mw_datasignal_subscribe(hum, ref.NULL, MetaWear.FnVoid_VoidP_DataP.toPointer((ctx, pointer) => { var data = pointer.deref(); var value = data.parseValue(); console.log('epoch: ' + data.epoch + ' humidity: ' + value); })); // Read MetaWear.mbl_mw_datasignal_read(hum);