Epro PR6426/010-110+CON021/916-120 32 mm Eddy Current Sensor
Epro PR6426/010-110+CON021/916-120 32 mm Eddy Current Sensor
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Brand:Epro PLC Item No.:PR6426/010-110+CON021/916-120 Product Origin:Germany Product Dimensions:Sensor Head Diameter: 32 mm Product Weight:0.92 kg Payment:T/T, Western Union, Credit Card Goods_stock:15 Shipping Port:Xiamen, China Lead Time:1-3 Days Condition:Brand New And Original Warranty:1 Year Certificate:COO
The Epro PR6426/010-110 + CON021/916-120 is an advanced eddy current sensor system engineered for precise displacement and vibration monitoring in critical rotating machinery. It is designed to provide highly stable, non-contact measurement for applications where mechanical reliability and real-time condition awareness are essential.
Technical Specifications
Parameter
Specification
Product Model
PR6426/010-110 + CON021/916-120
Sensor Type
Eddy current displacement sensor
Sensor Head Diameter
32 mm
Measurement Principle
Non-contact eddy current
Measuring Range
up to approx. 8 mm (system dependent)
Frequency Response
up to 20 kHz (system dependent)
Operating Temperature
-35°C to +180°C
Output Signal
via CON021 signal converter
Target Material
Conductive metal surface (typically steel)
Linearity
High industrial-grade precision
Weight
0.92 kg
System Components
PR6426 probe + CON021 converter
Recommended Related Models
Model
Product Name
PR6424/010-110 + CON021
Epro 16mm Eddy Current Vibration Sensor System
PR6425/010-110 + CON021
Epro 25mm Eddy Current Displacement Sensor System
PR6426/010-100 + CON021
Epro 32mm Standard Eddy Current Sensor System
PR6426/010-140 + CON011
Epro Advanced 32mm Monitoring Sensor System
Popular Related Models
Model
Product Name
PR6426/010-110 + CON021/916-120
Epro 32mm Eddy Current Vibration Sensor System
PR6425/010-100 + CON021/916-120
Epro 25mm Eddy Current Sensor System
PR6424/010-110 + CON021/916-120
Epro 16mm Eddy Current Sensor System
PR6426/010-140 + CON021/916-120
Epro Enhanced 32mm Monitoring System
Applications
• Turbines, compressors, and large rotating machinery monitoring
Enables continuous measurement of shaft displacement and vibration for condition monitoring and protection systems.
• Power generation equipment
Used in steam, gas, and hydro turbine systems for real-time rotor dynamics analysis.
• Oil & gas rotating equipment
Supports vibration monitoring in pumps, compressors, and critical pipeline machinery.
• Industrial condition monitoring systems
Provides non-contact measurement for predictive maintenance and asset protection strategies.
• Heavy industrial machinery diagnostics
Helps detect imbalance, misalignment, and shaft eccentricity in high-speed rotating systems.
• Process industry rotating equipment control
Ensures stable operation and early fault detection in continuous production environments.
Key Advantages
• High-precision non-contact measurement
Delivers accurate displacement detection without mechanical contact, reducing wear and maintenance.
• Stable performance in harsh environments
Designed to operate reliably under high temperature, vibration, and industrial noise conditions.
• High-frequency response capability
Supports detailed vibration signal capture for advanced diagnostic systems.
• Strong linear measurement behavior
Ensures consistent and repeatable signal output across the operating range.
• Integrated probe and signal conditioning system
Works with CON021 converter for stable signal processing and transmission.
• Suitable for critical asset protection systems
Commonly used in high-value rotating equipment where failure risk must be minimized.
Technical FAQs
Q1: What is the main function of the PR6426 system?
It measures non-contact shaft displacement and vibration in rotating machinery.
Q2: Is it suitable for turbine monitoring?
Yes, it is specifically designed for turbine and compressor applications.
Q3: Does it require a signal conditioner?
Yes, it works together with the CON021 signal converter for output processing.
Q4: What type of measurement does it provide?
It provides displacement, vibration, and shaft position measurement.
Q5: Can it operate in high-temperature environments?
Yes, it is designed for harsh industrial temperature conditions.
Q6: Is it suitable for predictive maintenance systems?
Yes, it is widely used in condition monitoring and predictive diagnostics.
Q7: Does it support continuous monitoring?
Yes, it is designed for real-time continuous operation.
Q8: Is it affected by contact wear?
No, it is a non-contact sensor system.
Q9: What industries commonly use it?
Power generation, oil & gas, and heavy industrial sectors.
Q10: Does it provide high-frequency signal response?
Yes, it supports high-frequency vibration signal tracking.
