A basic infrared motion sensor, also known as a Passive Infrared (PIR) sensor, is a device that detects motion by sensing changes in infrared radiation emitted by warm objects in its field of view. The operation of a PIR sensor can be summarized in the following steps:
Sensing Element: The heart of the PIR sensor is a pyroelectric sensor, which is made of a thin layer of pyroelectric material (usually lithium tantalate or polyvinyl fluorides) capable of generating an electric charge when exposed to variations in infrared radiation.
Detection Range: The sensor has a specific detection range and field of view. It can cover a certain area, and its effectiveness depends on factors such as distance, sensitivity settings, and the size of the sensor.
Sensitivity Adjustment: Some PIR sensors have adjustable sensitivity settings, allowing you to control the detection range and the minimum size of the object that will trigger the sensor.
Calibration Delay: PIR sensors often come with a calibration or delay circuit. This circuit ensures that the sensor remains inactive for a short period after it has been powered on or triggered. This prevents false alarms due to initial changes in ambient infrared radiation during startup.
Infrared Radiation Detection: The sensor passively detects infrared radiation emitted by objects in its field of view. Humans and animals, being warm-blooded, emit infrared radiation in the form of heat.
Dual Detection Zones: PIR sensors typically have two or more detection zones. These zones help the sensor differentiate between slow, continuous changes in infrared radiation (e.g., due to temperature changes in the environment) and rapid changes caused by moving objects.
Output Signal: When a significant change in infrared radiation is detected within the sensor's detection zones, it generates an electrical signal. This signal is sent to the output circuit of the sensor.
Output Activation: The output circuit of the PIR sensor can be connected to a variety of devices, such as a light, an alarm, or a camera. When the sensor detects motion, it triggers the connected device to activate, which results in turning on the light, sounding the alarm, or capturing an image or video.
Reset Period: After detecting motion and activating the output, the PIR sensor enters a reset period during which it ignores further motion to avoid continuous triggering. The duration of this reset period can also be adjustable in some PIR sensors.
Overall, the PIR sensor's ability to detect changes in infrared radiation emitted by warm objects makes it an effective and commonly used solution for motion detection in various applications, such as security systems, automatic lighting, and energy-saving devices.