Bently Nevada 330180-X0-05 145193-01 3300 XL 8 mm Preamplifier Sensor
Bently Nevada 330180-X0-05 145193-01 3300 XL 8 mm Preamplifier Sensor
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Brand:Bently Nevada PLC Item No.:330180-X0-05 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-X0-05 (145193-01) 3300 XL 8 mm Preamplifier Sensor is a critical signal conditioning component used in Bently Nevada vibration monitoring systems. It processes and amplifies signals received from proximity probes, ensuring accurate and stable data transmission for machinery protection and condition monitoring applications.
Technical Specifications
Parameter
Details
Product Model
330180-X0-05
Ordering Code
145193-01
Manufacturer
Bently Nevada
Product Type
3300 XL Preamplifier Sensor
System Type
3300 XL Proximity Transducer System
Function
Signal conditioning and amplification
Compatible Probes
5 mm, 8 mm, and 3300 XL proximity probes
Power Supply
DC regulated industrial supply (system dependent)
Output Type
Conditioned analog vibration signal
Mounting Type
Panel / industrial enclosure mounting
Housing Material
Industrial-grade metal enclosure
Application
Vibration monitoring and machinery protection
Operating Environment
Industrial rotating machinery systems
Dimensions
81.3 × 35.1 × 63.5 mm
Weight
0.246 kg
Recommended Related Models
Model
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Bently Nevada 3300 XL 8 mm Proximity Probe
330104-00-05-50-11-00
Bently Nevada 3300 XL Long Cable Probe
330106-05-30-20-02-00
Bently Nevada Reverse Mount Probe 2.0 m
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Applications
• Signal conditioning for 3300 XL proximity probe vibration monitoring systems
• Industrial machinery protection systems in turbines, compressors, and generators
• Non-contact vibration and displacement measurement systems in power plants
• Condition monitoring systems for rotating equipment in oil & gas facilities
• Data acquisition support for predictive maintenance and diagnostics platforms
• Industrial automation systems requiring accurate eddy current signal amplification
• Critical equipment monitoring in heavy-duty continuous operation environments
Key Advantages
• High-precision signal conditioning for eddy current proximity measurement systems
• Stable amplification performance for vibration and displacement signals
• Designed for integration with Bently Nevada 3300 XL probe systems
• Compact industrial housing suitable for panel and cabinet installation
• Excellent electrical noise immunity for harsh industrial environments
• Reliable long-term operation in continuous monitoring applications
• Supports accurate data transmission for machinery protection systems
Technical FAQs
1. What is the main function of this device?
It acts as a preamplifier that conditions and processes signals from proximity probes in vibration monitoring systems.
2. Which system is it designed for?
It is designed for Bently Nevada 3300 XL proximity transducer systems.
3. What does a preamplifier do in this system?
It converts and conditions the probe’s raw signal into a stable output for monitoring and control systems.
4. Is it used for vibration measurement directly?
No, it supports vibration measurement by processing probe signals rather than measuring directly.
5. What machinery types use it?
Turbines, compressors, motors, generators, and other rotating industrial equipment.
6. Does it work with all proximity probes?
It is compatible with specified Bently Nevada 3300 series and 3300 XL probes.
7. Is it suitable for harsh environments?
Yes, it is designed for industrial-grade environments with electrical noise and vibration.
8. What happens if the sensor fails?
Signal processing is interrupted, causing loss of vibration monitoring data.
9. Is it used in predictive maintenance systems?
Yes, it is commonly used in condition monitoring and asset protection systems.
10. Does it require calibration?
It is typically factory-calibrated and used as part of a matched transducer system.
