Product Short Description
Product Overview
The PR6423000-111 is a standard eddy current proximity probe manufactured under the Bently Nevada brand (Emerson Automation Solutions). It forms the front-end sensing component of the 3300 XL monitoring system, used to measure non-contact radial shaft vibration, axial thrust position, shaft eccentricity and rotational speed of rotating machinery. It works paired with matching extension cable and 3300 XL signal conditioner, creating a complete high-precision displacement measurement chain for critical turbomachinery protection.
Description
Core Technical Specifications
- Sensing Principle: High-frequency eddy current inductive non-contact measurement
- Nominal Target Measurement Range: 0–2.0mm linear working gap range
- Output Sensitivity: 7.874 V/mm standard linear output slope
- Probe Tip Diameter: 8mm standard metal sensing tip
- Integral Cable Length: 1m factory molded integral cable; compatible with standard 3300 XL extension cables
- Operating Frequency Bandwidth: 10Hz – 10kHz, suitable for low-speed and high-speed turbine rotor vibration capture
- Operating Temperature Range: -35°C ~ +175°C continuous probe tip temperature; cable rating -35°C ~ +125°C
- Insulation & Voltage Rating: Dielectric withstand 500VAC between cable conductors and outer shield
- Mechanical Thread Mount: M10×1 standard metric mounting thread for machine bearing housing installation
- Shield Structure: Double-layer copper braided cable shielding for superior EMC noise suppression
- Linear Measurement Accuracy: ±1.25% full scale linearity error within working gap range
- Environmental Resistance: Resistant to oil mist, light hydrocarbon fluids, steam and industrial lubricants inside bearing housings
- Certifications: CE industrial EMC, ATEX intrinsic safety certification for hazardous gas zone installations
- Physical Dimensions: Probe body length 42mm, M10 threaded section 18mm; total integral cable length 1000mm
Function & Performance Features
- Non-contact measurement design eliminates mechanical wear between probe and rotating metal shaft target, zero friction measurement for long-term continuous monitoring
- Wide linear gap window provides stable vibration reading during thermal shaft expansion and minor rotor misalignment
- Double-shielded molded integral cable reduces electromagnetic interference from variable frequency drives, high-voltage motor wiring and power transformers
- High temperature rated probe tip withstands continuous high heat inside gas turbine, steam turbine and centrifugal compressor bearing enclosures
- ATEX intrinsic safety classification allows direct installation inside Class I hazardous process zones without additional flameproof enclosures
- Consistent factory calibrated sensitivity ensures interchangeability of identical PR6423 probes without re-calibration of monitoring system channels
- Detects micro-level shaft radial vibration (micrometer scale) and slow axial thrust displacement for predictive maintenance and machinery trip protection
- Compatible with full range of Emerson 3300 XL monitors, 3500 rack monitoring systems and portable vibration data collectors
Working Principle
The probe internal coil transmits high-frequency alternating magnetic field outward from the metal sensing tip. When conductive metal rotor target exists within the working gap, eddy currents are induced on the shaft surface, creating a reverse opposing magnetic field that alters the coil’s impedance. The paired signal conditioner supplies constant high-frequency excitation current to the probe coil and converts the impedance variation into proportional DC voltage output. As shaft-to-probe gap distance changes due to rotor vibration or axial thrust movement, output voltage varies linearly with gap size. The monitoring rack converts voltage signal into engineering units (micrometers/mils) for real-time vibration display, alarm threshold comparison and machinery shutdown trip logic.
Material & Structural Composition
- Probe sensing tip: High-temperature resistant non-magnetic stainless steel alloy
- Probe main housing: Titanium alloy body for low thermal expansion and corrosion resistance
- Internal coil assembly: Enameled copper winding sealed with high-temperature ceramic epoxy potting compound
- Integral cable outer jacket: Fluorosilicone heat-resistant rubber, resistant to mineral oil, steam and chemical vapors
- Cable shielding: Inner copper foil shielding layer + outer braided copper mesh double shielding construction
- Threaded mounting section: Precision machined M10 stainless steel thread with anti-seize coating compatibility
- Connector termination: Hermetically sealed 4-pin microdot connector to prevent oil, water and dust ingress at cable extension joints
Installation Requirements
- Install via M10 threaded hole machined into bearing housing; use matching lock nut to fix probe position without over-tightening (torque limit 3–4 N·m)
- Set static rest gap between probe tip and rotor shaft to mid-point of linear range (1.0mm nominal gap) during cold machinery shutdown
- Route probe integral cable and extension cable separate from three-phase motor power cables, minimum separation distance 50mm
- All cable shielding must single-end ground at the signal conditioner rack terminal; avoid double grounding to eliminate ground loop interference
- Maintain minimum 5mm clearance between probe tip and any non-target metal hardware to prevent measurement signal distortion
- Avoid sharp cable bending (minimum bend radius 25mm) to prevent internal conductor breakage inside high-temperature bearing housings
- After mounting gap adjustment, perform static gap voltage calibration via Emerson monitoring system before machinery startup
Typical Application Scenarios
- Steam turbine, gas turbine and hydroelectric generator rotor vibration & thrust position monitoring
- Centrifugal air compressor, ammonia refrigeration compressor critical bearing condition monitoring
- Petrochemical refinery high-speed process pump and turbo-expander protection systems
- Power plant boiler feed pump, circulating water pump predictive vibration monitoring
- Onshore and offshore gas pipeline turbo-compressor safety monitoring racks
Mandatory Operation & Maintenance Precautions
- Do not scratch, dent or deform the stainless steel probe sensing tip surface; surface damage will degrade linear measurement performance
- Never over-tighten M10 mounting lock nuts; excessive torque cracks internal epoxy potting and destroys coil assembly
- Inspect cable jacket for oil swelling, cracking or heat degradation every annual machinery overhaul cycle
- If vibration signal drift occurs, first recheck static probe gap and cable shielding grounding before replacing probe hardware
- Store spare probes in dry anti-static packaging; avoid long-term exposure to high temperature or corrosive chemical environments
- Do not cut or splice factory molded integral probe cables; splices break double-shield integrity and invalidate factory calibration
- In hazardous classified areas, only use certified intrinsically safe barrier modules between probe and monitoring rack per ATEX installation rules



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