Bently Nevada
Bently Nevada 330104-00-22-10-02-05 3300 XL 8mm Proximity Probe
In stock, ready to ship
Manufacturer: Bently Nevada
Product No.: 330104-00-22-10-02-05
Product Type: 3300 XL Proximity Probe
Product Origin: USA
Payment: T/T
Weight: 800g
Shipping port: Xiamen
Warranty: 12 months
Yes, we provide a 30-day money-back guarantee for all purchases.
Yes, all items come with a 12-month warranty from the date of shipment.
Product Description
The 330104-00-22-10-02-05 is a high-precision 8 mm eddy-current proximity probe from the Bently Nevada 3300 XL series. This non-contact sensor is designed for critical rotating machinery protection and condition monitoring.
The “-05” suffix indicates M10 × 1 threaded mounting, providing a secure mechanical interface for installation on turbines, compressors, and other high-speed rotating equipment. The probe continuously measures shaft vibration and axial position with high accuracy, supporting predictive maintenance and machinery protection strategies.
Technical Specifications
| Parameter | Specification |
|---|---|
| Model | 330104-00-22-10-02-05 |
| Series | 3300 XL |
| Probe Diameter | 8 mm |
| Thread Mounting | M10 × 1 |
| Unthreaded Length | 00 mm |
| Case Length | 22 mm |
| System Length | 1.0 meter |
| Connector Type | Miniature coaxial ClickLoc |
| Sensing Principle | Eddy-current, non-contact |
| Compatibility | 3300 XL Proximitor and extension cables |
| Approvals | Multiple agency approvals |
Operational Reliability
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Designed for 24/7 monitoring of high-speed rotating machinery
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Resistant to electromagnetic interference, vibration loosening, and harsh industrial environments
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ClickLoc connector provides secure vibration-resistant signal transmission
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Supports predictive maintenance and fault detection analytics
FAQ
Can this probe be used with non-3300 XL cables?
No. It must be used with compatible 3300 XL extension cables and calibrated Proximitor sensors to maintain signal accuracy.
What is the benefit of M10 × 1 threading?
It provides precise mechanical positioning to maintain the correct probe-to-shaft gap, which is critical for accurate eddy-current measurement.