The HS1101 humidity sensor is a cost-effective solution for measuring relative humidity within ±5% accuracy. The sensor’s design is based on a unique capacitive cell; therefore, by using simple RC circuit wiring it is easy to interface with any Parallax microcontroller, including the BASIC Stamp® and Propeller chip.
Specifications
Power requirements: 5 to 10 VDC
Communication: Analog output of varying capacitance in response to change in relative humidity
Humidity Measuring Range: 1 to 99% RH
Operating temperature: -40 to 212 °F (-40 to 100 °C)
Code
[codesyntax lang=”cpp”]
/* Demonstration of the Parallax HS1101 relative humidity sensor (#27920) The HS1101 sensor acts as a capacitor, and uses the circuit described in the product documentation to derive an RC (resistor-capacitor) time delay. By measuring the decay of the capacitor through a resistor, it is possible to obtain the current relative humidity. This demo shows the relative humidity (accuracy: +/-3.5%, as noted in product documentation), along with the RC delay timing. Readings repeat once every ½ second, and are displayed in the Arduino Serial Monitor window. This example code is for the Arduino Uno and direct compatible boards, using the Arduino 1.0 or later IDE software. It has not been tested, nor designed for, other Arduino boards, including the Arduino Due. Please note: Environmental factors - including use indoors or outdoors, and above and below typical room temperature ranges -- may affect the accuracy of the readings. The demo includes an RCdelay calibration value that can be adjusted against a known working humidity sensor used in the same environment. Important: the result is based on the clock speed of Arduino microcontroller. Other versions of Arduino (running at faster or slower clocks) will need recalibration of the RCdelay value. See comment below. Refer to the HS1101 product documentation for the connection diagram and circuit. The output of the sensor is connected to Arduino pin D4. Tips: The sensor is sensitive to stray capacitance. Keep lead lengths short. Results may vary when the test circuit is built on a solderless breadboard. Leads from sensor are slightly undersized for breadboard holes. Make sure they make adequate contact. When taking readings avoid contact or close proximity to sensor or bare circuit wires. */ int sensorPin = 4; // RC circuit with HS1101 sesnor connected to digital pin D4 long result = 0; int const RHconstant = 12169; // RH constant void setup() { Serial.begin(9600); // Use Serial Monitor window at 9600 baud Serial.println("Humidiy reading start"); Serial.print("RC delay"); Serial.print("\t"); Serial.println("Humidity"); } void loop() { long RCdelay = RCTime(sensorPin); // Take RC time reading of sensor Serial.print(RCdelay); // Display RC time delay Serial.print("\t\t"); RCdelay = RCdelay * 215; // Calibation to RC time delay; experiment with literal value int humidity = (RCdelay - RHconstant) / 24; Serial.println(humidity / 100, DEC); delay(500); // Wait 1/2 second for the next read } // Standard RC time function long RCTime(int sensePin){ long result = 0; pinMode(sensePin, OUTPUT); // Make pin OUTPUT, and turn HIGH digitalWrite(sensePin, HIGH); delay(1); // Wait 1 ms delay pinMode(sensePin, INPUT); // Make sensor INPUT digitalWrite(sensePin, LOW); // Turn off Arduino internal pullup resistor while(digitalRead(sensePin)){ // Loop until pin goes low result++; } return result; }
[/codesyntax]
Link
HS1101 humidity sensor RELATIVE, HUMIDITY, SENSOR
https://www.parallax.com/sites/default/files/downloads/27920-Humidity-Sensor-Datasheet.pdf