<p>The HL-G1 Safety Sensor is a robust and reliable solution for industrial and commercial applications where precision and safety are paramount. Designed to ensure accurate detection, this sensor offers a sensing range of +/-20 mm, making it suitable for various setups that demand meticulous measurement.</p><p>Operating within a rated voltage of 12-24 VDC and consuming a current of 100 mA, the HL-G1 caters to energy efficiency without compromising on performance. Its dual output type—NPN Open Collector Transistor and PNP Open Collector Transistor—provides flexibility in integration with existing systems, allowing seamless compatibility with different control units.</p><p>One of the standout features is its precise beam diameter of 1 mm x 1.5 mm, powered by a red semiconductor laser classified under Class 2 standards. This ensures not only accuracy but also adherence to safety regulations concerning laser emissions in workplace environments.</p><p>Durability is another key aspect of the HL-G1 Safety Sensor. The housing material comprises PBT for the enclosure paired with an acrylic front cover, ensuring resilience against environmental factors while maintaining clarity for sensor operation. The PVC cable further enhances durability by providing resistance against wear and tear in demanding conditions.</p><p>With an operational humidity range between 35-85%, this sensor is designed to function reliably even in varied atmospheric conditions typical in industrial settings. Furthermore, its IP67 degree of protection guarantees complete dust ingress protection while safeguarding against water immersion up to specified depths, making it ideal for harsh environments where moisture or particulate matter could be concerns.</p><p>In summary, the HL-G1 Safety Sensor embodies reliability and precision through its thoughtful design and technical specifications. It stands as a dependable choice for professionals seeking effective solutions that align with stringent industry standards while offering ease of integration into diverse systems.</p>