Hw-416-b Pir Sensor Datasheet High Quality Instant
Understanding the HW-416-B PIR Sensor: A Comprehensive Guide
| Parameter | Value / Range | | :--- | :--- | | | DC 5V – 20V (Standard: 5V for microcontrollers) | | Quiescent Current | < 50 μA (microamps) | | Output Signal | Digital (High/Low) – 3.3V / 5V TTL compatible | | Output High Level | Vcc – 0.3V (when triggered) | | Output Low Level | 0V (idle state) | | Detection Range | Up to 7 meters (adjustable) | | Detection Angle | < 120° (cone-shaped, via Fresnel lens) | | Time Delay Adjust | 0.3 seconds to 5 minutes (via onboard potentiometer) | | Sensitivity Adjust | 3m to 7m (via onboard potentiometer) | | Trigger Modes | Single (Non-repeatable) / Repeatable (Select via jumper) | | Operating Temperature | -15°C to +70°C | | Dimensions | 32mm x 24mm x 18mm (excluding lens) | | Lens Type | Standard PIR Fresnel lens (white/translucent) | hw-416-b pir sensor datasheet
The is a reliable, low-power motion detection module ideal for microcontroller projects requiring a fast response and compact footprint. While an official unified datasheet remains elusive, the specifications and behavior described in this article are based on reverse-engineered measurements and manufacturer-compliant components. Understanding the HW-416-B PIR Sensor: A Comprehensive Guide
On the back of the board, you will find two orange potentiometers and a jumper that allow you to customize how the sensor reacts: avoid prolonged exposure to humidity
This guide serves as a functional datasheet and implementation manual for engineers and hobbyists alike. 1. Technical Specifications
| Feature | HW-416-B | HC-SR501 | | :--- | :--- | :--- | | Size | Smaller (32x24mm) | Larger (32x24mm approx, thicker) | | Quiescent Current | < 50 µA | < 65 µA | | Adjustable Time Delay | Usually fixed or very short (2.5s) | Yes (0.3s – 600s) | | Retriggering Mode | Internal (automatic) | Jumper-selectable (single/retrigger) | | Best for | Battery-powered, short-lived triggers | Security lights, long delays |
She imagined the makers: someone soldering tiny resistors, testing detection angles, verifying hold times. The datasheet’s diagrams sketched the connector: Vcc, GND, OUT. A recommended application diagram suggested powering the HW-416-B from a microcontroller’s 3.3V rail and reading the OUT pin through a pull-down resistor. There were cautions too—don’t stare into the Fresnel lens with a laser, avoid prolonged exposure to humidity, and allow thirty seconds of stabilization when powering up; the sensor needed a moment of calm to learn the background temperature before it could tell friend from phantom.