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      330905-00-12-05-02-05

      3300 NSv Proximity Probes
      In Stock

      Product Information:

      3300 NSv Proximity Probes

      330905 3300 NSv Probe, M10X1 thread,

      without armor

      3300 XL NSv Proximity Transducer System

      Warranty Policy
      We provide 1 year warranty for all remaining parts.
      The warranty period is one year from the date of shipment, unless otherwise stated in the parts description. We guarantee that the project will not exhibit functional defects that may occur under normal operating conditions during the warranty period.
      Return Notice
      The warranty period is one year from the date of shipment, unless otherwise stated in the parts description. We guarantee that the project will not exhibit functional defects that may occur under normal operating conditions during the warranty period.
      In the event of a defect, we will send new equipment, repair equipment or refund the purchase price based on our availability. You must contact us to obtain a return authorization and return the defective device to us within 14 days of reporting the defect.
      Shiping Mode
      Various transportation options are available in each country. Shipping methods and fees are clearly indicated on all quotations.Various transportation options are available in each country. Shipping methods and fees are clearly indicated on all quotations.
      Parts Availability
      Moore automated offers a wide range of components, products and services related to industrial automation. We have a large surplus of stocks and are also distributors of new products from a variety of quality manufacturers.
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      Technical specifications for 330905-00-12-05-02-05

      • Manufacturer:
        Bently Nevada
      • Product Category:
        TSI System
      • Estimated shipping dimensions:
        62 x 1.5 x 1.5 cm
      • Weight:
        0.11 kg
      • Tariff Code:
        8537101190
      • Country of origin:
        USA
      • Place of shipment:
        Xiamen, Fujian, China
      • Unthreaded Length:
        0 mm
      • Overall Case Length:
        120 mm
      • Total Length:
        0.5 meter (20 in)
      • Connector and Cable-Type:
        Miniature coaxial ClickLoc connector, standard cable
      • Agency Approval:
        Multiple Approvals
      • Stock:
        30
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      Information

      Overview Manuals Principle Primary Industrial Applications

      Features:

      • 3300 NSv Proximity Probes
      • 330905 3300 NSv Probe, M10X1 thread, without armor
      • 3300 XL NSv Proximity Transducer System
      The 3300 XL NSv Proximity Transducer system is intended for use with centrifugal air compressors, refrigeration compressors, process gas compressors, and other machines with tight installation requirements.

      The primary uses for the 3300 XL NSv Transducer System are for areas where counter bore, sideview, or rearview restrictions limit the use of standard Bently Nevada 3300 and 3300 XL 5 and 8 mm Transducer Systems. It is also ideal for small target applications, such as measuring radial vibration on shafts smaller than 51 mm (2 in) or axial position on flat targets smaller than 15 mm (0.6 in).

      The 330905-00-12-05-02-05 Bently Nevada 3300 NSv Proximity Probes may still be available for purchase and support from Moore Automated Company beyond End-Of-Life (EOL) by the manufacturer (OEM).
      Bently Nevada 330905-00-12-05-02-05 3300 NSv Proximity Probes Manuals(Datasheets), Link Important Notice: Other accessories, manuals, cables, calibration data, software, etc. are not included with this equipment unless listed in the above stock item description. All prices are shown in USD.
      The 3300 XL NSv sensor system has an average scale factor of 7.87 V/mm (200 mV/mil), which is the most commonly used output value for eddy current sensors. Its enhanced side-view and small-target characteristics result in a shorter linear range than the Bently Nevada 3300 XL series 5 mm and 8 mm sensor systems. Its 1.5 mm (60 mil) linear range surpasses that of the 3000 series 190 sensor system.
      This probe is a standard solution for small shaft machinery and compact mechanical devices:
      Centrifugal Air Compressors: Widely used in Ingersoll Rand and Atlas Copco compressors, especially suitable for applications with extremely small internal clearances.
      Small Rotating Equipment: Suitable for shafts with diameters less than 51 mm (2.0 inches).
      Small Target Monitoring: Used to measure the axial (thrust) position of planar targets as small as 15 mm (0.6 inches).
      Radial Vibration: Used to monitor shaft and bearing clearances in high-speed small industrial pumps and fans.
      Tachometer/Keyphase Unit: Provides speed and phase reference signals in confined spaces, avoiding signal interference caused by "crosstalk" from the mounting hole walls.

      Manuals

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      FAQ

      View All Faqs
      • What advanced non-contact displacement measurement capabilities does the 330905-00-12-05-02-05 probe deliver for high-precision rotor monitoring applications? The 330905-00-12-05-02-05 probe provides highly linear eddy-current sensing, allowing precise real-time detection of shaft vibration and positional deviations, critical for maintaining stability in high-speed rotating machinery. Q2. How does the 330905-00-12-05-02-05 probe ensure exceptional signal integrity in electrically noisy industrial environments? With precision-wound coils, robust electromagnetic shielding, and impedance-matched cabling, the 330905-00-12-05-02-05 probe achieves optimal signal-to-noise ratio and minimizes distortion even under significant EMI exposure. Q3. Why is the 330905-00-12-05-02-05 probe essential for predictive maintenance and comprehensive rotor health diagnostics? The 330905-00-12-05-02-05 probe continuously provides high-resolution displacement and vibration data, enabling early detection of rotor imbalance, misalignment, or bearing degradation, thus supporting proactive maintenance strategies. Q4. In what ways does the 330905-00-12-05-02-05 probe facilitate condition-based monitoring and operational performance optimization? The 330905-00-12-05-02-05 probe generates repeatable and precise measurements, supporting trend analysis, predictive maintenance scheduling, and data-driven operational decision-making to reduce unplanned downtime. Q5. How does the 330905-00-12-05-02-05 probe maintain measurement stability under thermal fluctuations and mechanical stress conditions? By incorporating temperature-compensated materials and precision-engineered coil architecture, the 330905-00-12-05-02-05 probe minimizes thermal drift and mechanical-induced errors, ensuring consistent metrological reliability over time. Q6. Which installation and alignment protocols are critical to maximize the linear operating range of the 330905-00-12-05-02-05 probe? Correct probe-to-target gap calibration, meticulous mounting alignment, and adherence to recommended cable routing and support procedures are vital to fully exploit the linearity and measurement fidelity of the 330905-00-12-05-02-05 probe. Q7. How does the 330905-00-12-05-02-05 probe contribute to operational safety and mitigate rotor-related hazards? By enabling monitoring systems to trigger alarms or automatic shutdowns when abnormal shaft motion is detected, the 330905-00-12-05-02-05 probe protects both equipment and personnel from potential operational risks. Q8. Which types of high-value rotating machinery are optimally monitored using the 330905-00-12-05-02-05 probe? The 330905-00-12-05-02-05 probe is ideally deployed in turbines, compressors, pumps, and generators, where precise non-contact shaft displacement and vibration measurement are critical for safe, reliable, and efficient operation.
        The 330905-00-12-05-02-05 probe provides highly linear eddy current sensing, enabling accurate real-time detection of shaft vibration and positional deviations, crucial for maintaining the stability of high-speed rotating machinery.
      • How does the 330905-00-12-05-02-05 probe ensure superior signal integrity in noisy industrial environments?
        With its precision-wound coils, robust electromagnetic shielding, and impedance-matched cables, the 330905-00-12-05-02-05 probe achieves optimal signal-to-noise ratio and minimizes distortion even under strong electromagnetic interference.
      • Why is the 330905-00-12-05-02-05 probe critical for predictive maintenance and comprehensive rotor health diagnostics?
        The 330905-00-12-05-02-05 probe continuously provides high-resolution displacement and vibration data, enabling early detection of rotor imbalance, misalignment, or bearing degradation, thus supporting proactive maintenance strategies.
      • How does the 330905-00-12-05-02-05 probe facilitate condition-based monitoring and operational performance optimization?
        The 330905-00-12-05-02-05 probe generates repeatable and accurate measurement results, supporting trend analysis, predictive maintenance planning, and data-driven operational decisions, thereby reducing unplanned downtime.
      • What installation and calibration procedures are essential for maximizing the linear operating range of the 330905-00-12-05-02-05 probe?
        Proper probe-target gap calibration, meticulous installation calibration, and adherence to recommended cable routing and support procedures are crucial for maximizing the linearity and measurement accuracy of the 330905-00-12-05-02-05 probe.
      • Which types of high-value rotating machinery are best suited for monitoring with the 330905-00-12-05-02-05 probe?
        The 330905-00-12-05-02-05 probe is best suited for turbines, compressors, pumps, and generators, where accurate non-contact shaft displacement and vibration measurements are crucial for safe, reliable, and efficient operation.
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      Moore Disclaimer: Moore Automated's sales automation equipment and related solutions are intended for industrial automation and business operational efficiency improvement purposes only. Product information, technical parameters, and application cases are for reference only and do not constitute an absolute guarantee of performance for any specific industry, scenario, or final application. Actual equipment performance may vary depending on factors such as the usage environment, system integration method, and maintenance conditions. Users should confirm compatibility and safety based on professional technical assessments. Moore Automated assumes no liability for any direct or indirect losses caused by improper use, modification, or failure to operate according to specifications, to the extent permitted by law.