330101-00-13-15-02-00 Bently Nevada 3300 XL 8 mm Proximity Probe
330101-00-13-15-02-00 Bently Nevada 3300 XL 8 mm Proximity Probe
330101-00-13-15-02-00 Bently Nevada 3300 XL 8 mm Proximity Probe
Bently Nevada

330101-00-13-15-02-00 Bently Nevada 3300 XL 8 mm Proximity Probe

SKU: 330101-00-13-15-02-00
Categories : All Products
In Stock
  • Dimensions: 26 cm x 20 cm x 6 cm
  • Country of origin: USA
  • Payment: T/T, Western Union
  • Shipping port: Xiamen
1 years warranty
Delivery time: 3-7 business days
Free 30 days return

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Configured for continuous shaft vibration and radial displacement measurement in Bently Nevada TSI monitoring networks, the Bently Nevada 330101-00-13-15-02-00 (330101 8 mm Probe) provides direct eddy-current signal conversion for non-contact rotor position monitoring. The probe assembly operates with matched 3300 XL extension cables and Proximitor sensors to generate calibrated voltage signals proportional to target displacement and shaft dynamic movement.

Suffix Breakdown & Model Matrix

Model Segment Description
330101 3300 XL 8 mm Proximity Probe
00 Standard agency approval configuration
13 Probe and system length option
15 Cable and connector configuration
02 Metric threaded mounting configuration
00 Standard packaging and documentation option

Hardware Specifications

Parameter Specification
Model 330101-00-13-15-02-00
Brand Bently Nevada
Origin United States
Product Series 3300 XL 8 mm
Product Type Eddy-current proximity probe
Probe Diameter 8 mm
Measurement Principle Non-contact eddy-current displacement sensing
Signal Interface Compatible with 3300 XL Proximitor systems
Output Characteristic Voltage signal proportional to shaft displacement
Frequency Response Suitable for shaft vibration and position monitoring
Cable Type Shielded coaxial integral cable
Connector Type Factory-configured miniature coaxial connector
Mounting Method Threaded probe body installation
Probe Housing Material Stainless steel construction
Electrical Shielding Full-length coaxial shield continuity
Target Material Compatibility Electrically conductive metallic surfaces
Operating Temp Refer to manufacturer environmental specifications
Power Consumption Passive sensing element energized by external Proximitor sensor
Weight Approximately 0.4 kg
Shipping Dimensions Approximately 26 cm x 20 cm x 6 cm
System Compatibility Bently Nevada 3300 XL vibration monitoring systems
Primary Application Radial vibration, thrust position, and differential expansion monitoring

Gap Voltage Validation and Eddy-Current Scaling

The 3300 XL probe system uses calibrated eddy-current scaling characteristics that depend on the total electrical length between the probe tip, extension cable, and Proximitor sensor assembly. Changes in cable impedance or unapproved extension combinations can alter linearity and displacement sensitivity.

Static gap voltage verification is commonly performed during commissioning and maintenance intervals. A stable operating region near -10 VDC is typically used to position the probe within the calibrated measurement range before machinery startup. Excessive negative bias voltage may indicate insufficient probe clearance, while unstable readings can indicate electrical interference, shaft surface contamination, or improper shield grounding.

The probe tip generates an electromagnetic field that reacts to conductive shaft material movement. As shaft distance changes, the eddy-current field strength changes proportionally, allowing continuous displacement monitoring without physical contact between the sensor and rotating equipment.

Rotor Dynamics and Signal Cross-Talk Control

Rotor dynamic monitoring applications require stable probe mounting geometry and low-noise signal transmission paths. Probe bracket looseness, thermal casing growth, and eccentric shaft motion can influence waveform stability and overall displacement interpretation.

Cross-talk suppression becomes increasingly important when multiple probes are installed within compact bearing housings. Parallel routing of probe cables with inverter output conductors, motor feeders, or relay switching circuits can introduce electromagnetic interference into the low-level sensor signal path. For this reason, coaxial probe wiring is normally routed independently from power circuits and grounded according to single-point instrumentation grounding practices.

Probe systems installed near variable-frequency drives should maintain physical cable separation to reduce common-mode noise coupling. Metallic conduit sections should remain electrically continuous to preserve shielding effectiveness across the installation path.

Frequently Asked Questions

Q: Can the probe assembly operate if only the probe tip is replaced while retaining an older extension cable?
A: System calibration depends on the matched electrical characteristics of the probe, extension cable, and Proximitor sensor. Mixing components from different system lengths or probe series can affect scaling accuracy, linear operating range, and phase response.

Q: What installation issue most commonly causes unstable gap voltage during startup?
A: Unstable readings are frequently associated with insufficient probe bracket rigidity, shield grounding faults, conductive contamination on the shaft target area, or cable routing near high-current switching equipment.

Q: Does shaft material composition influence measurement response?
A: Yes. Eddy-current probe calibration is affected by target material conductivity and magnetic permeability. Measurement response can vary when the probe operates against non-standard shaft alloys or coated target surfaces.

Q: Is field cable splicing permitted on the probe cable assembly?
A: Field splicing is generally avoided because impedance discontinuities and shield interruption can alter high-frequency signal characteristics and introduce waveform distortion into the monitoring channel.


Field Installation Guidelines

Verify thread compatibility and probe body engagement depth before installation into the machine bracket or bearing housing. The probe tip should remain concentrically aligned with the shaft target surface throughout the full operating temperature range of the machine.

Do not apply excessive mechanical force to the probe housing during tightening. Excessive torque can deform mounting threads or alter probe alignment relative to the rotating surface. Maintain adequate clearance between the probe tip and shaft during rotor coastdown and thermal expansion conditions.

Route coaxial probe cables separately from AC distribution wiring, relay coil circuits, motor leads, and variable-frequency drive output conductors. Avoid sharp cable bends near connector transitions and maintain uninterrupted shield continuity across extension couplings and cabinet penetrations.

During commissioning, confirm stable static gap voltage before machinery startup. Observe waveform stability during rotor acceleration and deceleration to identify potential mechanical looseness, oil whirl conditions, or intermittent cable shielding faults.

Shipping & Returns

Shipping

  • Emergency Dispatch: Same-day shipping for in-stock orders placed before 2:00 PM (GMT+8).
  • Premium Carriers: Reliable global delivery via DHL, FedEx, and UPS to 150+ countries.
  • Flexible Options: We support shipping via your own carrier account (DHL/FedEx/UPS).
  • Industrial Packaging: Professional ESD protection and reinforced shock-absorbent packaging.

Returns

  • 30-Day Window: Request a return within 30 days of receipt for eligible items.
  • Condition: Items must be in their original, factory-sealed condition with all tags.
  • Hassle-Free Process: Contact sales@maxwellplc.com for a return label and instructions.
  • Fast Refunds: Approved refunds are processed to your original payment method within 10 days.

Shipping & Returns

Shipping

  • Emergency Dispatch: Same-day shipping for in-stock orders placed before 2:00 PM (GMT+8).
  • Premium Carriers: Reliable global delivery via DHL, FedEx, and UPS to 150+ countries.
  • Flexible Options: We support shipping via your own carrier account (DHL/FedEx/UPS).
  • Industrial Packaging: Professional ESD protection and reinforced shock-absorbent packaging.

Returns

  • 30-Day Window: Request a return within 30 days of receipt for eligible items.
  • Condition: Items must be in their original, factory-sealed condition with all tags.
  • Hassle-Free Process: Contact sales@maxwellplc.com for a return label and instructions.
  • Fast Refunds: Approved refunds are processed to your original payment method within 10 days.

Warranty

Warranty

  • 12-Month Guarantee: A comprehensive one-year warranty covers all functional defects.
  • Authenticity: Every part is guaranteed 100% original, brand-new, and genuine.
  • Expert Support: Dedicated technical assistance to verify and resolve any hardware issues.
  • Peace of Mind: Long-term reliability support for all your mission-critical automation parts.

Warranty

Warranty

  • 12-Month Guarantee: A comprehensive one-year warranty covers all functional defects.
  • Authenticity: Every part is guaranteed 100% original, brand-new, and genuine.
  • Expert Support: Dedicated technical assistance to verify and resolve any hardware issues.
  • Peace of Mind: Long-term reliability support for all your mission-critical automation parts.

Secure Payment

Secure Payment

  • Flexible T/T: 100% T/T for stock items; 30% deposit / 70% balance for lead-time orders.
  • Local Friendly: RMB transfers are accepted if you have a local agent in China.
  • Best Price: Our Best Price Guarantee ensures you get the most competitive market rates.
  • Data Safety: All transactions are processed through encrypted and secure banking channels.


Secure Payment

Secure Payment

  • Flexible T/T: 100% T/T for stock items; 30% deposit / 70% balance for lead-time orders.
  • Local Friendly: RMB transfers are accepted if you have a local agent in China.
  • Best Price: Our Best Price Guarantee ensures you get the most competitive market rates.
  • Data Safety: All transactions are processed through encrypted and secure banking channels.


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