X-On Electronics has gained recognition as a prominent supplier of OT590580 Photoelectric Sensors across the USA, India, Europe, Australia, and various other global locations. OT590580 Photoelectric Sensors are a product manufactured by IPF ELECTRONIC. We provide cost-effective solutions for Photoelectric Sensors, ensuring timely deliveries around the world.
We are delighted to provide the OT590580 from our Photoelectric Sensors category, at competitive rates not only in the United States, Australia, and India, but also across Europe and beyond. A long established and extensive electronic component distribution network has enhanced our global reach and dependability, ensuring cost savings through prompt deliveries worldwide. Client satisfaction is at the heart of our business, where every component counts and every customer matters. Our technical service team is ready to assist you. From product selection to after-sales support, we strive to deliver a seamless and satisfying experience. Are you ready to experience the best in electronic component distribution? Contact X-ON Electronics today and discover why X-On are a preferred choice for the OT590580 and other electronic components in the Photoelectric Sensors category and beyond.
The OT590580 Photoelectric Sensor manufactured by IPF ELECTRONIC is an industrial, highly reliable sensor designed for detecting objects (transparent, reflective, high-contrast) in a range of 200 to 1000 mm. Its PNP/NPN NO/NC output allows for hookups with any kind of PLC/drive/controller and provides a 100 mA current when activated. The Sensor offers built-in temperature compensation which ensures highly accurate detection with negligible temperature drift and high EMC robustness. The Sensor is equipped with configurable logic and output functions and the integrated LED controller makes the setup and maintenance of the Sensor easier. The Sensor also features improved electronic noise immunity, enabling it to operate reliably in industrial applications with varying levels of electromagnetic interference.