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Configured for eddy-current displacement and vibration sensing in 3300 XL Proximity Transducer System platforms, the Bently Nevada 330103-00-08-10-02-00 (330103 Proximity Probe) provides direct physical/electrical execution.

Suffix Breakdown & Model Matrix

Option Slot Configured Code Technical Definition
Unthreaded Length Option 00 0 mm
Overall Case Length Option 08 80 mm
Total Length Option 10 1.0 meter (3.3 feet)
Connector Option 02 Miniature coaxial ClickLoc connector, standard cable
Agency Approval Option 00 Not required

Hardware Specifications

Parameter Specification
Model 330103-00-08-10-02-00
Brand Bently Nevada
Origin U.S.A.
Probe Tip Diameter 8 mm
Unthreaded Length 0 mm
Overall Case Length 80 mm
Total Length 1.0 meter (3.3 feet)
Connector Type Miniature coaxial ClickLoc connector
Cable Type Standard cable
Operating Temp -51 to +177 deg C
Power Consumption Passive sensor driven by external Proximitor interface
Dimensions M10 x 1 threaded body
Weight 0.323 kg (Net), 1.5 kg (Shipping weight)

Eddy-Current Probe Scaling and Rotor Dynamics

The 3300 XL 8 mm proximity probe utilizes eddy-current probe scaling to convert physical gap distances into proportional electrical voltage. When paired with a compatible 3300 XL Proximitor Sensor, the system allows precise gap voltage validation with a nominal target of -10 VDC at the center of the linear range. This electrical configuration minimizes cross-talk suppression issues when multiple probes are installed in close physical proximity along the machine casing. The resulting high-frequency signal output enables accurate profiling of rotor dynamics, including dynamic shaft vibration, position, and axial thermal growth.

Frequently Asked Questions

Q: How is the gap voltage validation verified during mechanical installation?

A: Connect a digital multimeter to the "OUT" and "COM" terminals of the associated Proximitor Sensor. Rotate the probe body along its M10 x 1 threads until the multimeter registers the standard -10 VDC target, confirming the probe is in the center of its linear range.

Q: What are the technical consequences of cutting or splicing the 1.0-meter probe cable?

A: Splicing or changing the physical length of the integrated cable alters the tuned electrical impedance of the RF loop. This compromises the accuracy of the eddy-current probe scaling and disrupts all subsequent rotor dynamics monitoring data.

Field Installation Guidelines

  • Mechanical Torque Limits: Thread the M10 x 1 probe body into the mounting bracket using a calibrated torque wrench. Do not exceed standard engineering limits for 8 mm tips to prevent destruction of the internal copper coils.
  • Coaxial Connector Sealed Protection: Ensure the miniature coaxial ClickLoc connector interface is clean and completely free of oil, water, or dust. Apply specialized insulation boots or self-fusing electrical tape over the junction.
  • Cable Bend Curvature Limits: Route the standard cable maintaining a minimum bend radius that satisfies industrial standard requirements. Avoid sharp angles or pinching which degrades the RF shielding layers and introduces noise.
  • Target Surface Parameters: The shaft observation path must be flat and match the calibrated target alloy specification to maintain linear scaling execution.

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