330703-00-100-10-11-CN Bently Nevada 3300 XL Proximity Probes
330703-00-100-10-11-CN Bently Nevada 3300 XL Proximity Probes
330703-00-100-10-11-CN Bently Nevada 3300 XL Proximity Probes
Bently Nevada

330703-00-100-10-11-CN Bently Nevada 3300 XL Proximity Probes

SKU: 330703-00-100-10-11-CN
Categories : All Products
In Stock
  • Dimensions: 35.0 * 20.0 * 10.0 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

Help

If you have any questions, you are always welcome to contact us. We'll get back to you as soon as possible, withing 24 hours on weekdays.

Customer service

All questions about your order, return and delivery must be sent to our customer service team by e-mail at yourstore@yourdomain.com

Sale & Press

If you are interested in selling our products, need more information about our brand or wish to make a collaboration, please contact us at press@yourdomain.com

Configured for shaft displacement and vibration measurement in 3300 XL transducer systems, the Bently Nevada 330703-00-100-10-11-CN (330703 Proximity Probes) provides direct physical signal execution via eddy-current induction.

Model Configuration Logic

The 330703-00-100-10-11-CN identifies an 11 mm proximity probe assembly. The configuration string specifies the unthreaded length, case length, total system length, and connector interface type, calibrated for integration with Bently Nevada 3300 XL monitoring platforms.

Hardware Specifications

Parameter Specification
Model 330703-00-100-10-11-CN
Brand Bently Nevada
Origin USA
Weight 0.42 kg
Shipping Dimensions 35.0 * 20.0 * 10.0 cm
Operating Temp -51 deg C to +177 deg C
Power Consumption Passive
Probe Diameter 11 mm
Mounting Thread 3/4-16 UNF
System Length 1.0 meter

Eddy-Current Induction and Rotor Dynamics

This transducer assembly utilizes eddy-current probe scaling to convert target gap distance into a proportional voltage signal. Achieving gap voltage validation at the nominal -10 VDC setpoint is necessary for linear measurement. The 11 mm tip geometry provides a broader linear range compared to 8 mm variants, requiring careful calibration to track rotor dynamics accurately. Cross-talk suppression in high-density installations is maintained by adhering to physical separation standards between adjacent probe tips to prevent oscillation interference in the Proximitor signal.

Ordering Info

  • One (1) 330703-00-100-10-11-CN Proximity Probe

  • Two (2) 3/4-16 UNF locking nuts

  • Cable connector protector

  • Linearity certification against 4140 steel target

Field Installation Guidelines

  • Mechanical Alignment:

    • Clear the machine mounting port of debris.

    • Use a depth micrometer to set the probe at the specified nominal gap distance before tightening the lock nuts.

  • Termination and Grounding:

    • Engage ClickLoc connectors until a tactile click confirms positive electrical continuity.

    • Ensure the probe housing maintains a low-impedance connection to the machine chassis for effective electromagnetic shielding.

  • Cabling:

    • Route coaxial leads within dedicated metallic conduit to prevent environmental ingress and electromagnetic noise induction.

Frequently Asked Questions

  • Can this probe be field-trimmed?

    No. The coaxial cable is factory-matched to the system impedance. Altering the length introduces signal reflections and invalidates the factory calibration.

  • What is the impact of shaft material on the signal?

    The probe is calibrated for 4140 steel. Alternative shaft materials change the eddy-current eddy-field interaction, requiring monitor scale factor adjustments.

  • Why is an 11 mm probe used instead of 8 mm?

    The 11 mm probe provides a larger linear range, making it suitable for applications with wider shaft orbits or low-frequency oscillation measurement.

  • How is the probe output verified?

    DC gap voltage is measured at the monitor card input pins; readings outside the linear range indicate potential target contact or probe failure.

  • Can I use this with a non-XL Proximitor?

    No. XL series probes are electrically optimized for XL-compatible Proximitors; mismatching leads to significant linearity and accuracy errors.

  • How is electrical isolation maintained?

    The TipLoc design isolates the sensor tip from the stainless steel housing, preventing ground loop formation in the sensing loop.

  • What causes a reading at the negative power rail?

    A reading at the supply voltage limit indicates an open-circuit failure, typically caused by a damaged coaxial cable or loose connector.

  • Is the probe pressure-tight?

    The probe assembly is designed to be pressure-tight when installed with appropriate thread sealants, allowing for use in bearing housings.

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.


You may also like

From our blog

Latest News and Insights

Autonics Launches AiC-MT Closed-Loop Stepper System for Precision Control
Jul 03, 2026
MaxWell
Autonics Launches AiC-MT Closed-Loop Stepper System for Precision Control
In the evolving landscape of industrial motion control, the traditional divide between low-cost, open-loop stepper...
Read More
Yaskawa Motoman Showcases AI-Powered Adaptive Robotics at MODEX 2026
Jul 03, 2026
MaxWell
Yaskawa Motoman Showcases AI-Powered Adaptive Robotics at MODEX 2026
The narrative of industrial automation is undergoing a fundamental shift from deterministic repetition to dynamic...
Read More
ABB Launches 500 X pH/ORP Sensor for Extreme Industrial Environments
Jul 03, 2026
MaxWell
ABB Launches 500 X pH/ORP Sensor for Extreme Industrial Environments
In the challenging world of process automation, sensor reliability is often a more significant bottleneck...
Read More
Banner Engineering Adds IO-Link to QM30VT3 for Advanced Edge Diagnostics
Jul 03, 2026
MaxWell
Banner Engineering Adds IO-Link to QM30VT3 for Advanced Edge Diagnostics
The evolution of predictive maintenance continues to shift toward the edge, with Banner Engineering recently...
Read More
Arduino Ventuno Q Bridges Edge AI and Real-Time Industrial Control
Jul 03, 2026
MaxWell
Arduino Ventuno Q Bridges Edge AI and Real-Time Industrial Control
Arduino has officially expanded its footprint in the professional and industrial landscape with the introduction...
Read More
Schneider Electric and Weidmüller Integrate SNAP IN Tech to Modernize Motor Control
Jul 03, 2026
MaxWell
Schneider Electric and Weidmüller Integrate SNAP IN Tech to Modernize Motor Control
Schneider Electric has partnered with industrial connectivity leader Weidmüller to integrate advanced SNAP IN technology into its signature TeSys...
Read More
Transforming Industrial Energy Maintenance Through Digital Intelligence
Jul 02, 2026
MaxWell
Transforming Industrial Energy Maintenance Through Digital Intelligence
In the modern industrial landscape, energy systems—boilers, turbines, furnaces, and HVAC units—are no longer standalone...
Read More
Bridging Lean Manufacturing and Rockwell Automation for Peak Efficiency
Jul 02, 2026
MaxWell
Bridging Lean Manufacturing and Rockwell Automation for Peak Efficiency
Lean manufacturing is often misunderstood as a static set of rules for process mapping and...
Read More
Optimizing Industrial Availability: Balancing Reliability and Maintainability
Jul 02, 2026
MaxWell
Optimizing Industrial Availability: Balancing Reliability and Maintainability
In the high-stakes world of industrial manufacturing, we often get caught up in the pursuit...
Read More
Leveraging Real-Time Production Data for Industrial Competitiveness
Jul 02, 2026
MaxWell
Leveraging Real-Time Production Data for Industrial Competitiveness
For decades, the true north of manufacturing was defined by brute force—equipment capacity, labor headcount,...
Read More