PR6426/000-131 CON041 Système de mesure par courant de Foucault Emerson Epro

Product Overview

The PR6426/000-131 CON041 (PR6426/000-131 CON041) is an integrated eddy current measurement system designed for non-contact displacement and vibration monitoring in high-criticality turbomachinery. This industrial-grade solution combines a high-sensitivity 12 mm sensor with a dedicated signal converter to deliver precise measurements in power plants, oil refineries, and large-scale mining operations.

By converting physical distance changes into proportional voltage signals, the system provides real-time data to Turbine Supervisory Instrumentation (TSI) for detecting shaft vibration, axial position, and eccentricity. The ruggedized design ensures reliable operation in harsh environments with oil mist and extreme temperatures, significantly reducing the risk of catastrophic mechanical failure and unplanned plant downtime.

Technical Configuration (Deep Dive)

The system operates on the inductive eddy current principle, using a tuned resonance circuit between the sensor and the converter.

Sensor Head Architecture

The PR6426 sensor features a 12 mm diameter tip, providing a wider magnetic field and a longer linear measuring range compared to standard 8 mm probes.

Signal Converter Logic

The CON041 acts as the driver unit, supplying high-frequency excitation to the sensor and demodulating the returned signal into a linear negative voltage output.

Impedance Matching

The system is factory-calibrated as a matched pair. The inductance characteristics of the PR6426/000-131 are precisely aligned with the CON041 circuitry to minimize drift and maintain measurement stability.

System Compatibility

This configuration is fully compatible with Emerson AMS 6500 and MMS 6000 protection systems, allowing seamless integration into plant-wide condition monitoring and asset management platforms.

Technical Specifications

Technical FAQs

How does the CON041 handle long-distance signal transmission?

The converter outputs a low-impedance voltage signal that remains stable over long cable runs. Using shielded twisted-pair cables helps prevent EMI interference and ensures measurement accuracy.

Is this system compatible with different shaft materials?

The standard calibration is optimized for 42CrMo4 steel. If the shaft material differs, material-specific calibration may be required to maintain the 1.5% linearity specification.

Can the PR6426 sensor be replaced independently?

The sensor and converter are modular, but they must share the same configuration. After replacing either component, recalibration of the gap voltage is required to ensure correct operation.

Engineering & Installation Guide

Gap Voltage Optimization

For an 8.0 mm range, adjust the probe gap so the static output voltage sits near the center of the linear range, typically around -10 VDC. This configuration allows maximum vibration amplitude measurement without signal clipping.

Side Clearance Protocol

Maintain at least 20 mm radial clearance from surrounding metallic structures. Nearby metal objects can distort the magnetic field and introduce measurement errors.

Mounting Rigidity

Use rigid stainless-steel brackets for mounting. Any vibration from the mounting structure may be interpreted as shaft vibration and trigger false alarms.

Engineering Advantages

The PR6426/000-131 CON041 system offers excellent thermal stability, with the sensor tip capable of continuous operation up to 175°C. The 12 mm probe diameter allows a larger operating gap, reducing the risk of mechanical contact during transient surge conditions.

Its backward compatibility with legacy Philips epro equipment also makes it ideal for retrofitting existing turbomachinery protection systems without requiring mechanical redesign or major installation changes.