Description
Product Overview
The Bently Nevada 330101-00-36-10-01-00 Proximity Probe is a precision eddy current sensor designed for vibration monitoring and position measurement. Its stainless steel housing ensures durability, while compact dimensions of 112.3 × 1.5 × 1.5 cm simplify installation. Engineers rely on its lightweight 0.08 kg design and modular construction to achieve consistent performance in demanding industrial environments.
Technical Specifications
| Parameter |
Value |
| Model Number |
330101-00-36-10-01-00 |
| Module Type |
Proximity Probes |
| Manufacturer |
Bently Nevada |
| Product Range |
3300 Series |
| Condition |
Brand New |
| Lead Time |
In Stock |
| Weight |
0.08 kg |
| Dimension |
112.3 × 1.5 × 1.5 cm |
| HS Code |
8537101190 |
| Minimum Order Quantity |
1 |
| Origin |
USA |
| System |
TSI |
| Communication Service |
Ethernet router |
| Status |
Active |
| Sensor Type |
Eddy current |
| Mounting Options |
Flexible integration |
Functional Description
The 330101-00-36-10-01-00 probe excels at vibration monitoring and position measurement, ensuring smooth machinery operation. Its modular design simplifies maintenance, while advanced sensor technology provides consistent performance. Engineers achieve reliable monitoring across turbines, pumps, and other critical assets, preventing disruptions and sustaining efficiency.
Applications and Compatibility
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Power plants requiring reliable vibration monitoring for turbines and pumps
-
Manufacturing facilities needing precision sensors for machinery protection
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Compatible with the 3300 XL 8 mm Proximity Transducer System
-
Suitable for Ethernet router-based monitoring setups
-
Flexible mounting options support integration across diverse machinery types
Key Benefits
-
Lightweight 0.08 kg design reduces installation stress on equipment.
-
Compact dimensions simplify integration into existing monitoring systems.
-
Eddy current technology ensures accurate vibration and position measurement.
-
Modular construction supports easy maintenance and long-term reliability.
