A Passive Infrared (PIR) motion sensor is a type of electronic device commonly used in security systems, automatic lighting systems, and other applications that require detecting human or animal movement. It works by detecting changes in infrared radiation within its field of view. Here's how a PIR motion sensor operates:
Basic Principle: PIR sensors are based on the principle that all objects with a temperature above absolute zero emit infrared radiation in the form of heat. The sensor is designed to detect variations in this infrared radiation caused by the movement of warm objects within its range.
Sensor Construction: A PIR sensor typically consists of a thin pyroelectric sensor, which is a crystal that generates a voltage when exposed to heat changes. This crystal is divided into multiple segments, each connected to a specific electronic circuit.
Lens and Housing: The sensor is housed in a protective casing with a specialized Fresnel lens in front. The lens is designed to focus and direct infrared radiation onto the pyroelectric sensor in a way that covers a specific area or field of view.
Dual Element Design: Most PIR sensors use a dual element configuration, where two pyroelectric sensors are placed side by side. This helps to minimize false alarms caused by changes in temperature that are not due to actual motion (e.g., changes in ambient temperature).
Detection Process:
When the sensor is powered on, it starts to monitor the infrared radiation within its field of view.
The dual elements continuously compare the amount of infrared radiation hitting them. When the radiation levels from the two elements are balanced, the sensor considers this as the baseline or "no-motion" state.
Motion Detection:
When a warm object (like a person or an animal) moves within the sensor's detection area, it enters the field of view of one or both of the pyroelectric elements.
The warm object emits infrared radiation, which is directed by the lens onto the pyroelectric sensors.
As the warm object moves, the balance of infrared radiation between the two elements is disrupted. One element receives more radiation while the other receives less.
This temperature difference is detected by the sensor's circuitry, and it interprets it as motion.
Signal Processing:
The sensor's internal circuitry processes the signal generated by the pyroelectric sensors.
If the change in radiation level is consistent with motion (e.g., a sudden and significant increase), the sensor triggers an output signal. This signal can be used to activate alarms, lights, cameras, or other connected devices.
Delay and Reset:
PIR sensors often include adjustable settings for sensitivity, detection range, and delay time.
After detecting motion, the sensor might have a built-in delay before it can detect motion again. This helps prevent false triggers from continuous motion.
In summary, a PIR motion sensor operates by detecting changes in infrared radiation caused by the movement of warm objects within its field of view. It's a passive technology, meaning it doesn't emit any radiation itself but relies on detecting changes in the existing radiation emitted by objects.