Philips LD5004M Linear Displacement Transducer – Precision Measurement Solution

Sensor Type:Linear Displacement Transducer

Model:LD5004M

Manufacturer:Philips

Operating Range:0 to 500mm

Accuracy:+/- 0.01% of F.S.

Resolution:0.001mm

Output Signal:4-20mA

Power Consumption:Max. 1W

Temperature Range:-20°C to +85°C

IP Rating:IP65

Material:Stainless Steel

Operating Voltage:12V DC

Mounting Style:Snap-In Mount

Connection:4-Pin Connector

Lifetime:Over 10 Years

    Engineered for durability and precision, the Philips LD5004M Linear Displacement Transducer is designed to withstand harsh industrial environments while maintaining exceptional accuracy. Its robust construction ensures reliable performance over a wide temperature range, making it ideal for use in manufacturing lines, automation processes, and quality control systems.

    Featuring a high-resolution output signal, this transducer provides precise measurements down to 0.01 micrometers, enabling intricate adjustments and monitoring of movements with unmatched detail. Whether tracking conveyor belt positions, guiding robotic arms, or ensuring consistent production outputs, the Philips LD5004M excels in delivering critical information.

    Built with advanced materials and state-of-the-art technology, the LD5004M is not only accurate but also highly resistant to dust and water ingress, thanks to its IP67 protection rating. This ensures uninterrupted operation even in the most demanding conditions, reducing downtime and maintenance costs.

    Ease of integration is another key aspect of the Philips LD5004M. The device comes equipped with an M12 connector, facilitating quick and secure installation. Its compact size and modular design make it adaptable to various mounting scenarios, enhancing flexibility on the factory floor.

    For users seeking a combination of precision, reliability, and ease of use in their linear displacement measurement solutions, the Philips LD5004M Linear Displacement Transducer is an outstanding choice. It stands at the forefront of technological advancements in industrial automation, providing unparalleled insights into the operational dynamics of modern manufacturing processes.