Configured for non-contacting displacement and vibration measurements in 3300 XL Proximity Transducer System platforms, the Bently Nevada 330104-05-10-10-02-05 (330104 Proximity Probe) provides direct physical/electrical execution.
| Parameter | Specification |
|---|---|
| Model | 330104-05-10-10-02-05 |
| Brand | Bently Nevada |
| Origin | U.S.A. |
| Weight | 2 kg (Shipping Weight) |
| Dimensions | 8 mm probe tip diameter, 110 mm overall case length, 1.0 m total length |
| Operating Temp | -51 deg C to +177 deg C nominal configuration limit |
| Power Consumption | Passive element driven by external Proximitor Sensor loop |
| Thread Specification | M10 x 1 |
| Connector Type | Miniature ClickLoc coaxial connector |
| Approvals | CSA, ATEX, IECEx hazardous area certifications |
The 330104-05-10-10-02-05 operates via high-frequency RF signals emitted from the 8 mm tip to complete eddy-current probe scaling against a rotating or reciprocating shaft surface. When integrated with a matched 3300 XL Proximitor Sensor, physical distance changes are converted into a proportional electrical output. Field deployment requires precise gap voltage validation to ensure the sensor tip sits in the linear measurement zone. The mechanical installation depth must be adjusted until the static reading registers the targeted -10 VDC targets, denoting the center of the calibrated span. This specific orientation allows accurate tracking of dynamic rotor dynamics while physical shielding guarantees high cross-talk suppression between orthogonal X-Y radial monitoring pairs.
Q: What are the consequences of mixing a 1.0 metre probe with a 5.0 metre or 9.0 metre Proximitor sensor without calculating overall system length?
A: Proximitor sensors are factory-tuned to specific total electrical lengths (probe plus extension cable). Mismatching a 1.0 metre probe with an incorrect extension cable modifies the baseline capacitance and loop impedance, which corrupts the native eddy-current probe scaling and shifts the calibration away from the -10 VDC targets.
Q: How does mechanical over-torquing during installation impact the probe performance?
A: Exceeding torque specifications on the M10 x 1 case can cause structural deformation of the stainless steel housing or fracture the internal bonded joint between the tip and body. This physical damage shifts the electrical parameters of the coil and invalidates the linear sensor output.
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