Description
Product Description
Overview
PR6423/10R-131 is a high-precision non-contact axial displacement sensor designed for use with the CON031 signal processing module. Utilizing the eddy current principle, it measures motion without physical contact, avoiding wear and contamination. Ideal for continuous monitoring and high-reliability industrial applications, it delivers accurate measurements of rotating shafts and thin plates.
Technical Specifications
| Parameter |
Specification |
| Measurement Principle |
Eddy Current Induction |
| Linear Measurement Range |
2 mm |
| Initial Air Gap |
0.5 mm |
| Incremental Scale Factor |
8 V/mm |
| Accuracy |
±5% (0–45°C) |
| Stability |
Deviation from Best Fit Straight Line (DSL) ±0.025 mm (0–45°C) |
| Output Interface |
Requires CON031 signal processing module |
| Operating Temperature |
0–45°C |
| Response Frequency |
High-speed dynamic response suitable for vibration monitoring |
| Installation |
Non-contact, ideal for shafts and thin plates |
Features and Benefits
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Non-Contact Measurement: Prevents wear and contamination while extending equipment life.
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High Accuracy and Stability: Minimal temperature drift ensures reliable measurements.
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Versatile Applications: Suitable for axial displacement, vibration monitoring, and thin plate thickness measurement.
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Easy Integration: Standard output interfaces for straightforward connection to industrial control systems.
Applications
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Shaft Axial Motion Monitoring: Measures axial displacement of motors, pumps, turbines, and other rotating equipment.
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Vibration Diagnostics: Monitors vibration levels in real time for fault detection and preventive maintenance.
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Thin Plate Thickness Measurement: Non-contact measurement of metal foils and precision thin sheets.
FAQ
Q: Can the PR6423/10R-131 measure high-speed rotating shafts?
A: Yes, its eddy current principle supports high-speed shaft displacement measurement with sufficient dynamic response.
Q: Is the initial air gap adjustable?
A: The standard air gap is 0.5 mm. Minor adjustments are possible, but the linear measurement range must be maintained.
Q: How much does temperature affect accuracy?
A: Within 0–45°C, measurement deviation remains within ±5%, with minimal temperature drift.