Bently Nevada 330162-02-85-85-80-80-94-01-02 Dual Triaxial HP Feedthrough
Bently Nevada 330162-02-85-85-80-80-94-01-02 Dual Triaxial HP Feedthrough
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Brand:Bently Nevada PLC Item No.: 330162-02-85-85-80-80-94-01-02 Product Origin:USA Product Dimensions:109 × 64 × 58 mm Product Weight:0.3 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 330162-02-85-85-80-80-94-01-02 Dual Triaxial HP Feedthrough is a specialized high-pressure interface component designed for advanced machinery monitoring applications. It enables reliable routing of proximity probe signals through equipment pressure boundaries while maintaining the electrical performance required by Bently Nevada monitoring systems.
Featuring dual triaxial capability, armored construction, extended cable lengths, fluorocarbon O-ring compatibility, and miniature coaxial connector interfaces, this feedthrough is engineered for demanding rotating equipment environments where signal stability, mechanical protection, and long-term reliability are essential.
Technical Specifications
Specification
Details
Manufacturer
Bently Nevada
Model
330162-02-85-85-80-80-94-01-02
Product Type
Dual Triaxial HP Feedthrough
Series
3300 System Components
Application
High-Pressure Sensor Signal Feedthrough
Armor Option
Low Pressure End Armor
Dimension 1 Length
8.5 m
Dimension 2 Length
8.5 m
Dimension 3 Length
8.0 m
Dimension 4 Length
8.0 m
O-Ring Material
Fluorocarbon
High Pressure End Connector
Female Miniature Coaxial Connector
Low Pressure End Connector
Male Miniature Coaxial Connector
Compatible Systems
Bently Nevada 3300 Monitoring Systems
Signal Type
Proximity Probe Dynamic Signal
Dimensions
Approx. 8500 × 8500 mm cable length configuration
Weight
Approx. 2 kg
Recommended Companion Models
Model
Product Name
330161-02-85-05-94-01-02
High Pressure Feedthrough
330130-080-00-00
3300 XL Extension Cable
330905-05-10-10-02-05
3300 NSv Proximity Probe
3500/42M-04-00
Proximitor/Seismic Monitor Module
Frequently Selected Alternatives
Model
Product Name
330162-02-80-80-XX-XX-94-01-02
Dual Triaxial HP Feedthrough
330161-02-85-05-94-01-02
High Pressure Feedthrough
330163-01-40-40-40-5-5-5-94-01-02
Multi-Channel HP Feedthrough
330153-01
High Pressure Feedthrough Assembly
Where It Excels in Industrial Use
• High-Pressure Machinery Monitoring Connections
The Bently Nevada 330162-02-85-85-80-80-94-01-02 Dual Triaxial HP Feedthrough is designed for high-pressure rotating machinery applications where reliable sensor signal transmission is required between internal machine probes and external monitoring systems. It provides a robust feedthrough solution for 3300 series monitoring installations.
• Steam Turbine and Compressor Applications
This feedthrough assembly is suitable for critical equipment such as steam turbines, centrifugal compressors, and large industrial machinery where high-pressure penetration points require durable sealing and stable signal routing.
• Machinery Protection System Integration
The unit supports connection between Bently Nevada proximity monitoring components and plant protection systems, helping maintain accurate vibration and position measurement signals in demanding operating environments.
• Industrial High-Reliability Installations
Designed with armored construction and specialized connector configurations, it provides improved mechanical protection and dependable operation in oil & gas, power generation, and process industries.
Key Strengths at a Glance
• Dual Triaxial Feedthrough Design
Provides a dual-channel triaxial high-pressure feedthrough arrangement, allowing multiple sensor circuits to pass through pressure boundaries while maintaining signal integrity.
• Extended 8.5 Meter Cable Configuration
The 85-85 configuration specifies two 8.5-meter length options, providing installation flexibility for large machinery packages and complex sensor routing requirements.
• Armored Low-Pressure End Construction
The -02 armor option provides additional mechanical protection at the low-pressure end, improving cable durability in industrial installations.
• Specialized Connector Compatibility
Configured with a female miniature coaxial connector at the high-pressure end and a male miniature coaxial connector at the low-pressure end for compatibility with Bently Nevada monitoring systems.
Technical FAQs
1. What is the primary function of the 330162-02-85-85-80-80-94-01-02?
It provides a sealed high-pressure interface that allows proximity probe signals to pass through machinery pressure boundaries while maintaining measurement reliability.
2. What type of monitoring systems use this feedthrough?
It is designed for integration with Bently Nevada 3300 series machinery monitoring systems.
3. What does HP Feedthrough mean?
HP Feedthrough refers to a high-pressure penetration assembly that transfers sensor wiring through a pressure boundary without compromising system integrity.
4. What type of sensors are commonly connected through this assembly?
It is typically used with Bently Nevada proximity probe systems used for vibration and shaft position monitoring.
5. What does the Dual Triaxial configuration provide?
It allows two triaxial sensor signal paths to be routed through a single high-pressure feedthrough assembly.
6. What is the purpose of the miniature coaxial connectors?
The connectors provide reliable transmission of proximity sensor signals between the probe side and monitoring equipment side.
7. Can this feedthrough be used in rotating equipment protection systems?
Yes. It is designed for applications where continuous machinery condition monitoring is required.
8. What industries commonly use this type of feedthrough?
Common industries include power generation, oil and gas, petrochemical, and heavy process manufacturing.
9. Why is armored construction important for this product?
Armoring improves mechanical protection against installation stress, vibration, and harsh industrial environments.
10. What should be checked before replacing this feedthrough?
Users should verify connector type, cable length configuration, pressure boundary requirements, and compatibility with the installed monitoring system.