Würth Elektronik has developed a micro-electro-mechanical system (MEMS) sensor only 2 × 2 × 0.9 mm in size. Thanks to its low energy requirement and its calibrated and temperature-compensated digital output, the sensor measures humidity and temperature with long-term stability. The WSEN-HIDS humidity sensor is based on advanced MEMS technology: A dielectric polymer absorbs or releases water molecules in proportion to the relative humidity in the surroundings, thereby changing the permeability of a capacitor structure. The humidity sensor with integrated analog-digital converter and temperature sensor can be connected to commonly used microcontrollers via an I2C or SPI interface. With the help of the software development kit, which is also available, there is no faster/easier way to individually set data rates and use the interrupt pin.
Alongside classical applications, such as heating, ventilation, air conditioning, building automation, and cooling systems, thanks to its small size and minimized energy requirement, the WSEN-HIDS humidity sensor is also suitable for dataloggers, as well as stationary and portable IoT applications. For modern applications, Würth Elektronik provides developers with an evaluation board. The MEMS sensor delivers calibrated measurement results with superb accuracy of ±3.5% RH in the 20% to 80% RH humidity range. The sensor outputs at a data rate in the millisecond range. Condensate forming on the surface of the polymer structure can be removed again by activating a built-in heater – so the sensor can generate measured data again within a very short time. The operating temperature range of the robust sensor is –40 to +120 °C.
|Alternatively, Würth Elektronik eiSos Amber-Pi, an add-on module for the
Raspberry Pi can be used to connect the sensor evaluation board directly
to the Raspberry Pi.
Easy to integrate
"With WSEN-HIDS, we are pleased to be able to offer one of the most innovative humidity and temperature sensors. The sensor promotes rapid terminal device development because developers can use a digital output directly via I2C or SPI and do not have to worry about calibration or temperature compensation," explains Vinod Kumar Ramu, Product Manager at Würth Elektronik eiSos. "Very practical: The sensor’s interrupt pin can also be used to wake up the microcontroller if the humidity changes. This is ideal for economical and low-maintenance monitoring functions."
The current consumption of the humidity sensor is 8.9 µA in continuous operation with measurement data available every second. Using a CR2032 button cell with 230 mAh capacity, this corresponds to a battery life of about three years. If the sampling rate is reduced, applications stay maintenance-free even longer.
The sensor is now available from stock without a minimum order quantity as a belt section or tape & reel package.