Linear Measurement Range:2 mm
Initial Air Gap:0.5 mm
Minimum Shaft Diameter:25 mm
Weight:0.26 kg
Sensor Type:Eddy Current Sensor
Material:High-strength alloy
Environmental Conditions:IP67 rated for dust and water resistance
Operating Temperature Range:-20°C to +85°C
The EPRO PR6423/012-010 CON021 eddy current sensor is designed to meet the stringent demands of modern industrial settings, offering unparalleled precision in linear measurement tasks. This sensor boasts an advanced eddy current technology that ensures exceptional accuracy and reliability in a variety of applications, from quality control in manufacturing lines to precise positioning in automated systems.
With a compact design and lightweight structure weighing in at 0.26 kg, this sensor is easily integrated into existing machinery without compromising on functionality. Its ability to operate within a temperature range of -25°C to +70°C makes it suitable for a wide array of industrial environments, ensuring consistent performance throughout varying conditions.
Featuring an IP67 protection class, the EPRO PR6423/012-010 CON021 is designed to withstand harsh environmental conditions, including dust and water ingress, guaranteeing durability and longevity in industrial applications. Its 4-20 mA signal output provides compatibility with various control systems, facilitating seamless integration into existing industrial automation setups.
This eddy current sensor is meticulously crafted from high-quality materials, ensuring not only durability but also precision in measurements. It utilizes advanced signal processing techniques to minimize errors and provide reliable data, which is crucial for applications requiring high accuracy and consistency.
Ideal for industries such as automotive, aerospace, and manufacturing, the EPRO PR6423/012-010 CON021 eddy current sensor offers a comprehensive solution for linear measurement needs. Its combination of robustness, accuracy, and ease of integration makes it an indispensable tool for enhancing productivity and efficiency in today’s dynamic industrial environments.
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