Bently Nevada PLC

  1. Home
  2. Products
  3. Bently Nevada PLC
  4. Bently Nevada 330171-00-26-10-02-05 3300 5 mm Proximity Probe
Bently Nevada 330171-00-26-10-02-05 3300 5 mm Proximity Probe

Bently Nevada 330171-00-26-10-02-05 3300 5 mm Proximity Probe

0.0
Points

Brand:Bently Nevada PLC
Item No.:330171-00-26-10-02-05
Product Origin:USA
Product Dimensions:Total Length: 1 meter
Product Weight:0.323 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

Add to cart


Introduction

The 330171-00-26-10-02-05 Proximity Probe is part of the proven Bently Nevada 3300 series, widely deployed in industrial predictive maintenance systems. It provides accurate, non-contact measurement of shaft movement, enabling early detection of mechanical issues such as imbalance, misalignment, and bearing degradation.

Its rugged industrial design and stable signal performance make it a trusted solution in power generation, oil & gas, petrochemical, and heavy manufacturing environments.


Technical Specifications

ParameterSpecification
Product Model330171-00-26-10-02-05
SeriesBently Nevada 3300
Type5 mm Proximity Probe
Measurement TechnologyEddy Current Displacement Sensing
Total Length1 meter
Output SignalLinear analog displacement signal
Installation TypeNon-contact proximity measurement
ApplicationVibration and shaft displacement monitoring
Operating EnvironmentIndustrial rotating machinery systems
Weight0.323 kg (0.712 lb)

Recommended Related Models

  • 330171-00-26-10-02-00
  • 330171-00-26-10-02-01
  • 330171-00-24-10-20-05
  • 330171-00-26-10-01-05
  • 3300 XL 5 mm Probe Extension Systems

Popular Related Models

  • 330171-00-26-10-02-05
  • 330171-00-26-10-02-03
  • 330171-00-24-10-20-05
  • 330180-50-00-05
  • 3300 XL Proximitor Sensor Modules 


Applications

The Bently Nevada 330171 5 mm Proximity Probe is engineered for precise shaft displacement and vibration monitoring in high-value rotating machinery where reliability directly impacts operational safety.

  • Steam turbine rotor vibration monitoring
  • Gas turbine shaft position and eccentricity detection
  • Compressor axial displacement tracking
  • Pump bearing wear and misalignment monitoring
  • Gearbox vibration analysis in industrial drive systems
  • Power generation condition monitoring systems
  • Oil & gas rotating equipment protection



Advantages

This probe delivers consistent, high-integrity measurement performance in demanding industrial environments.

  • High-precision 5 mm eddy current sensing technology
  • Stable output under high vibration and thermal stress
  • Fully compatible with Bently Nevada 3300 monitoring systems
  • Strong immunity to electromagnetic interference (EMI)
  • Long-term signal stability with minimal drift
  • Non-contact measurement reduces mechanical wear
  • Designed for continuous 24/7 industrial operation


Technical FAQs (10 Questions)

Q1: What technology is used for measurement?
It uses eddy current sensing for non-contact displacement measurement.

Q2: Is it suitable for turbine monitoring?
Yes, it is widely used in steam and gas turbine applications.

Q3: Does it require contact with the rotating shaft?
No, it operates as a non-contact proximity sensor.

Q4: What systems is it compatible with?
It is designed for the Bently Nevada 3300 series monitoring platform.

Q5: What type of signal does it output?
It provides a linear analog voltage signal proportional to displacement.

Q6: Can it operate in harsh environments?
Yes, it is built for high vibration, temperature variation, and EMI-heavy environments.

Q7: Is it suitable for continuous monitoring?
Yes, it supports 24/7 industrial monitoring applications.

Q8: What target materials does it measure best?
It is optimized for conductive metallic surfaces such as steel shafts.

Q9: Does it require frequent calibration?
No, it is designed for long-term stability with minimal recalibration.

Q10: What parameters does it monitor?
It measures shaft vibration and radial displacement.


Look forward to your comments!Comment
Latest comments
Tags:
Need Assistance? Chat with Us on WhatsApp!
Need Assistance? Click to Inquire
Back to top