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The Bently Nevada 330103-00-06-10-02-05 serves as the primary 330103 Proximity Probe utilized to execute eddy-current displacement and vibration sensing across 3300 XL Proximity Transducer System platforms.

Hardware Specifications

Parameter Specification
Model 330103-00-06-10-02-05
Brand Bently Nevada
Origin United States
Probe Diameter 8 mm
Thread Type M10 x 1
Armour Configuration Non-armored
System Power Requirements -17.5 VDC to -26 VDC (-23 VDC to -26 VDC with barriers)
Current Consumption 12 mA maximum
Output Resistance 50 ohm
Supply Sensitivity Less than 2 mV output shift per 1 V input variation
Operating Temp -51 to +177 deg C
Weight 0.35 kg
Dimensions 8 mm tip diameter, M10 threaded body
Power Consumption Passive sensor driven by Proximitor interface

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 does input voltage deviation affect the linear range and performance of the probe system?

A: Operating at voltages more positive than -23.5 VDC reduces the overall linear range of the transducer system. To maintain calibrated eddy-current probe scaling across the full spectrum of rotor dynamics, power input must be tightly regulated between -23 VDC and -26 VDC when deploying safety barriers.

Q: What are the consequences of mismatched system impedance at the 50 ohm output?

A: The 50 ohm output resistance matches the calibrated impedance of the extension cable and Proximitor input. Altering or degrading the termination connection induces RF signal reflection, destabilizing gap voltage validation and inserting noise into the dynamic vibration profiles.

Field Installation Guidelines

  • Mechanical Torque Constraints: Tighten the M10 x 1 threaded probe body using a calibrated torque wrench. Do not exceed standard engineering limits for 8 mm sensors to prevent internal coil stress or shell fracturing.
  • Connector Isolation: Ensure the non-armored cable connectors are free of industrial lubricants, moisture, and metallic dust. Apply self-fusing tape or sealing boots at the ClickLoc connection to isolate the circuit.
  • Proximitor Supply Level Check: Prior to formal operation, verify the supply voltage at the Proximitor terminal block stays within the -17.5 VDC to -26 VDC threshold under full load conditions.
  • Cable Routing Separation: Route the non-armored probe cable away from high-voltage AC lines or variable frequency drive cables to mitigate electromagnetic coupling and preserve high-frequency signal integrity.

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