A basic resistive humidity sensor, also known as a humidity-sensitive resistor or a hygrometer, is a type of sensor used to measure the relative humidity (RH) of the surrounding environment. It operates on the principle that the electrical resistance of certain materials changes in response to changes in humidity.
Here's how a basic resistive humidity sensor works:
Sensing Material: The sensor contains a humidity-sensitive material, often a hygroscopic (moisture-absorbing) substance, such as a polymer or a ceramic material. This sensing material adsorbs or absorbs water vapor from the environment, causing changes in its physical properties.
Resistance Change: The electrical resistance of the sensing material changes as it absorbs or releases water molecules due to changes in humidity. Higher humidity levels lead to greater absorption of water vapor, resulting in a decrease in the sensor's resistance. Conversely, lower humidity levels lead to less moisture absorption, causing an increase in resistance.
Measurement Circuit: The sensor is integrated into an electrical circuit. A known voltage is applied across the sensor, and the resulting current flowing through it is measured. The resistance of the sensor can be calculated using Ohm's law (Resistance = Voltage / Current).
Calibration: To convert the resistance measurement into a meaningful humidity value, the sensor is typically calibrated using a controlled environment with known humidity levels. This calibration process establishes a relationship between the sensor's resistance and the actual relative humidity.
Output: The calibrated sensor provides an electrical signal that corresponds to the relative humidity level of the environment. This output can be in the form of an analog voltage, current, or a digital signal that represents the humidity level.
Applications of basic resistive humidity sensors include climate control systems, weather stations, food storage monitoring, industrial processes, and various consumer electronics where maintaining a specific humidity level is important.
It's worth noting that while basic resistive humidity sensors are simple and cost-effective, they may have limitations in terms of accuracy, response time, and sensitivity compared to more advanced humidity sensing technologies like capacitive or thermal conductivity sensors.