Bently Nevada 330180-X1-00 145004-95 3300 XL 8 mm Preamplifier Sensor
Bently Nevada 330180-X1-00 145004-95 3300 XL 8 mm Preamplifier Sensor
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Brand:Bently Nevada PLC Item No.:330180-X1-00 Product Origin:USA Product Dimensions:81.3 x 35.1 x 63.5 mm Product Weight:0.246 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 Bently Nevada 330180-X1-00 / 145004-95 is a Proximitor Sensor used in the 3300 XL 8 mm vibration monitoring system. It serves as the signal conditioning unit between the proximity probe and the monitoring system. In practical industrial use, it ensures that raw displacement signals are converted into stable, readable data for machinery protection systems. It is commonly found in power plants, oil & gas facilities, and heavy industrial environments where equipment reliability is critical and downtime is costly.
Technical Specifications
Specification
Details
Product Model
330180-X1-00 / 145004-95
Product Type
3300 XL 8 mm Proximitor Sensor
Function
Signal conditioning unit
System Compatibility
Bently Nevada 3300 XL
Dimensions
81.3 × 35.1 × 63.5 mm
Weight
0.246 kg
Installation Type
Panel / DIN rail mount
Input Signal
Proximity probe + extension cable
Output Signal
Conditioned vibration/position signal
Application
Machinery vibration monitoring systems
Recommended Related Models
Model
Product Name
Bently Nevada 330130-080-12-05
8 m Extension Cable
Bently Nevada 330130-045-03-05
4.5 m Extension Cable
Bently Nevada 330104-13-20-10-02-05
8 mm Proximity Probe
Bently Nevada 330105-02-12-10-02-BR
Reverse Mount Probe
Popular Related Models
Model
Product Name
Bently Nevada 330104-00-10-05-02-05
3300 XL Proximity Probe
Bently Nevada 330101-00-08-10-02-00
Standard 8 mm Probe
Bently Nevada 330105-02-08-05-02-05
Reverse Mount Probe
Bently Nevada 330140-XX-XX-XX-XX-XX
Proximitor Sensor Series
Applications
• Installed in turbine control systems for continuous shaft vibration feedback
• Compressor trains in oil & gas facilities where stable signal conditioning is required
• Pumping systems in refineries and petrochemical plants for machinery protection
• Generator sets in power plants for rotor dynamics and position monitoring
• Central monitoring cabinets receiving signals from multiple rotating machines
• Industrial equipment with fluid-film bearings requiring precise vibration tracking
• Heavy industry machinery protection systems operating under continuous load
Key Advantages
• Converts raw probe signals into stable output for reliable monitoring interpretation
• Performs consistently even in electrically noisy industrial control environments
• Compact housing fits easily into crowded cabinet layouts
• Works seamlessly within the Bently Nevada 3300 XL proximity system chain
• Designed for long service life in continuous monitoring applications
• Maintains signal integrity across varying industrial operating conditions
• Supports dependable machine protection without frequent adjustment
• Widely used in established industrial vibration monitoring setups
Technical FAQs
Q1. What role does this sensor play in the system?
A1. It processes the signal from the proximity probe and outputs a usable measurement for vibration and position monitoring.
Q2. What components does it need to work?
A2. It must be used with a 3300 XL 8 mm probe and compatible extension cable.
Q3. Where is it usually installed?
A3. Inside control cabinets, typically mounted on panels or DIN rails.
Q4. Is it an active measurement device?
A4. It does not measure directly; it conditions signals from the probe system.
Q5. What kind of machinery depends on it?
A5. Turbines, compressors, pumps, and other rotating industrial equipment.
Q6. Does it require frequent calibration?
A6. No regular calibration is needed when used within a matched system.
Q7. What happens if it stops working?
A7. The vibration monitoring signal chain is interrupted, affecting machinery protection.
Q8. Can it handle harsh electrical environments?
A8. Yes, it is designed to resist industrial electromagnetic interference.
Q9. Why is it important in monitoring systems?
A9. It is the interface that turns raw sensor data into reliable monitoring signals.
Q10. What makes it suitable for long-term use?
A10. Its stable electronics design and industrial-grade construction.
