Description
Machinery diagnostic architectures requiring high-precision proximity measurements in confined spaces frequently incorporate the Bently Nevada 330906-02-12-10-12-00 transducer probe. Designed as a key component of the 3300 NSv proximity transducer system, this reverse-mount probe provides robust shaft vibration and position monitoring on small-diameter shafts or targets with limited mounting clearance. The reverse-mount configuration enables seamless insertion and adjustment from the rear of the mounting sleeve or machine housing, protecting the sensor tip during critical installation phases.
This probe features a FluidLoc cable construction to prevent process fluid migration and a high-integrity ClickLoc coaxial connector for robust signal transmission. Engineered for challenging industrial environments, it operates effectively on targets with reduced lateral clearance where standard-size proximity probes cannot resolve accurate eddy-current fields.
Features
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Reverse Mount Design: Facilitates installation inside tight machine housings, allowing adjustment from behind the probe holder block.
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FluidLoc Cable Technology: Prevents oil, water, or process gases from wicking through the cable interior into sensitive junction boxes.
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Miniature ClickLoc Coaxial Connector: Provides secure, vibration-resistant electrical coupling with a positive mechanical lock.
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Small Target Optimization: Specifically calibrated for targets smaller than standard 8mm probe systems, minimizing crosstalk and side-gap sensitivity.
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Broad Operating Temperature Envelope: Maintains stable dielectric and mechanical characteristics across heavy industrial thermal cycles.
Applications
- High-speed centrifugal and axial compressors
- Turbochargers, gas expanders, and micro-turbines
- Industrial pumps, gearboxes, and auxiliary machinery
- Internal shaft relative vibration and axial position monitoring
- Confined-space bearing housings with limited physical access paths
Technical Specifications
| Specification Parameter |
Value / Configuration Detail |
| Manufacturer |
Bently Nevada |
| Model Series |
3300 NSv Proximity Transducer System |
| Part Number |
330906-02-12-10-12-00 |
| Thread Size |
3/8-24 UNF |
| Unthreaded Length Option (-02) |
0.2 inches (5.1 mm) |
| Overall Case Length Option (-12) |
1.2 inches (30.5 mm) |
| Total Length Option (-10) |
1.0 metre (39 inches) |
| Connector / Cable Option (-12) |
Miniature coaxial ClickLoc connector, FluidLoc cable |
| Agency Approval Option (-00) |
Not required / Standard configuration |
| Operating Temperature Range |
-35 degC to +177 degC (-31 degF to +350 degF) |
| Minimum Target Diameter |
5.1 mm (0.2 inches) |
| Country of Origin |
United States |
| Shipping Weight (Calculated) |
1.5 kg (3.3 lbs) |
| Package Dimensions (Calculated) |
25.0 cm x 20.0 cm x 5.0 cm (9.8 in x 7.9 in x 2.0 in) |
Empirical Engineering Insights
Alternative Models & Compatibility
The 3300 NSv series operates at a higher frequency than standard Bently Nevada 3300 XL 8mm probes to accommodate smaller shafts and narrow collars. Under no circumstances should you mix a 3300 NSv probe with a standard 3300 XL extension cable or a standard 3300 XL Proximitor sensor. Mismatched system components will distort the RF eddy-current field generation, resulting in severe output errors, flatlined DC gap voltages, or false machinery trips on the monitoring rack.
Application Pitfalls & Engineering Notes
When utilizing reverse-mount probes, verify the thread depth of the mounting port. Because these probes are threaded from the rear of the mounting bracket or sleeve, insufficient thread engagement can lead to rotational slippage or oscillation under high vibration. Ensure the cable bend radius does not drop below 25.4 mm (1.0 inch); bending past this limit can compromise the FluidLoc barrier and damage the inner coaxial shielding, inducing high-frequency noise on the dynamic signal.
Commissioning & Calibration Tips
During field commissioning, use a static calibrator spindle to establish the scale factor against the actual machinery shaft material. The 3300 NSv system exhibits a nominal scale factor of 7.87 V/mm (200 mV/mil) over a 1.52 mm (60 mils) linear range when calibrated against AISI 4140 steel. Before final locknut tightening, verify that the miniature coaxial ClickLoc connector is entirely clean and dry; a micro-layer of oil on the center pin can alter the system's impedance and cause calibration drift.
Installation Guidelines
CRITICAL WARNING:
Isolate and de-energize all associated machinery control channels and monitoring racks before starting physical probe insertion. Confirm zero local voltage and ensure proper electrostatic discharge (ESD) personal grounding protocols are followed. Contact with energized or ungrounded circuitry can permanently degrade the probe tip's internal coil structure.
1
Inspect the internal mounting port threads for debris, burrs, or physical obstructions. Ensure the thread profile matches the 3/8-24 UNF specifications perfectly.
2
Thread the reverse-mount probe into the sleeve or bracket assembly from the rear, taking care not to twist or bind the integrated cable during rotation.
3
With the Proximitor sensor active, monitor the DC gap voltage. Adjust the physical depth of the probe until the voltage reads -10.0 VDC, corresponding to the midpoint of the linear range.
4
Securely tighten the locknut to the recommended torque specification, ensuring the physical position of the probe tip does not shift during the lockup process.
5
Connect the miniature coaxial ClickLoc connector to the extension cable, ensuring a physical mechanical click is felt and heard, and apply protective sleeve insulation to guard against fluid ingress.