أصلي 100%. أكثر من 100,000 قطعة متوفرة. جاهزة للشحن.

  • ar

The Bently Nevada 330130-005-00-00 serves as the primary 330130 Extension Cable utilized to execute high-frequency signal transmission across 3300 XL Proximity Transducer System platforms.

Suffix Breakdown & Model Matrix

  • 330130: 3300 XL Extension Cable Base Model

  • -005: Cable Length Option (0.5 meters)

  • -00: Connector Protector and Cable Option (Standard cable)

  • -00: Agency Approval Option (Not required)

Hardware Specifications

Parameter Specification
Model 330130-005-00-00
Brand Bently Nevada
Origin USA
Weight 0.150 kg estimate (Shipping weight 2.0 kg)
Dimensions 0.5 meters in physical cable length
Operating Temp -51 deg C to +177 deg C nominal
Power Consumption Passive RF transmission line component (0 mA active draw)
Characteristic Impedance 75 ohm nominal
Connection Interfaces Miniature coaxial ClickLoc connectors

Mechanical Monitoring & TSI Technical Attributes

The 330130 passive extension cable provides matched impedance linking necessary for precise eddy-current probe scaling within the proximity loop circuit. During installation, field teams perform gap voltage validation targeting a nominal -10 VDC baseline, which requires total electrical length symmetry. This 0.5 meter component forms a calibrated coaxial network that preserves strict cross-talk suppression metrics. By eliminating signal attenuation across high-frequency interfaces, it ensures that low-amplitude modulations from complex rotor dynamics are routed cleanly to the Proximitor loop processing electronics without inductive phase shifts.

Frequently Asked Questions

  • Q: Can this 0.5 meter extension cable be paired with a 9.0 meter Proximitor sensor?

    • A: No. This extension cable must be matched with the specific probe length and Proximitor model calibrated for the system's exact total electrical length (typically configured as a 5.0 meter or 9.0 meter system).

  • Q: How do the standard ClickLoc connectors manage high mechanical vibrations?

    • A: The ClickLoc connector engineering features a specific mechanical locking geometry that ensures continuous surface-to-surface terminal compression, maintaining steady cross-talk suppression under active machine resonance.

  • Q: What is the technical boundary condition for routing this cable near high-voltage lines?

    • A: It must be isolated or run within dedicated metal conduits to prevent electromagnetic fields from overriding the low-voltage sensor signal, as this cable variant utilizes standard shielding configurations without a specialized thick outer armor.

Field Installation Guidelines

  1. Isolate the target asset train and confirm a zero-energy state. Verify that all containment conduits and intermediate junction boxes are free from oil residues or moisture accumulation.

  2. Route the 330130 coaxial line through the designated protecting path, ensuring the minimum bend radius specifications are strictly maintained to prevent internal dielectric deformation.

  3. Snap the miniature ClickLoc coaxial end onto the proximity probe connector link until a positive mechanical engagement is felt.

  4. Conduct physical gap voltage validation on the driver terminal blocks to ensure the sensor output settles at the targeted -10 VDC baseline position.

  5. Wrap the raw ClickLoc connector joint with self-fusing silicone insulation tape to prevent fluid contamination, grounding loops, or contact shorts with the surrounding casing metalwork.


ماذا يقول عملاؤنا عنا؟

Translation missing: ar.general.search.loading