Unlock the potential of your automation systems with Wenglor Inductive Sensors, designed for versatile and reliable performance across a broad range of applications. Featuring a variety of designs, housing materials, and operating principles, these sensors are characterised by their exceptional switching distances, enabling them to handle multiple standard applications with a single design. The absence of moving parts ensures that Wenglor inductive sensors are maintenance-free, wear-free, waterproof, and resistant to dirt and shocks, making them a robust and dependable choice for industrial environments.
Wenglor inductive sensors operate on the principle of an LC resonant circuit situated under the active surface, generating an electromagnetic field that detects the presence of metals such as steel, aluminium, or brass. The output switches immediately when the metal reaches the pre-set switching distance. These sensors are short-circuit proof and can be installed in any position, with a service life unaffected by switching frequency or measurement cycles. Enhance your automation processes with the durability and precision of Wenglor inductive sensors.
Features & Benefits
- Versatile Applications: Suitable for a wide range of industrial applications due to diverse designs and housing materials.
- High Switching Distances: Capable of handling various standard applications with a single design.
- Maintenance-Free: No moving parts mean no maintenance, ensuring long-term reliability.
- Wear-Free: Durable construction prevents wear and tear, extending sensor life.
- Waterproof and Dirt Resistant: Ideal for harsh environments, maintaining functionality in challenging conditions.
- Shock Resistant: Withstands physical impacts without compromising performance.
- Short-Circuit Proof: Designed to prevent electrical short circuits, ensuring safety and reliability.
- Flexible Installation: Can be installed in any position, offering versatile integration options.
- Consistent Performance: Service life is not affected by switching frequency or number of measurement cycles.
- Precise Metal Detection: Utilises an LC resonant circuit to accurately detect metals at set switching distances.