1 de 3

Bently Nevada 330930-060-00-05 3300 NSv Extension Cable

Bently Nevada 330930-060-00-05 3300 NSv Extension Cable

Il ne reste que 4 article(s) en stock
  • Fabricant : Bently Nevada

  • N° de produit : 330930-060-00-05

  • Pays d'origine :États-Unis

  • Type de produit : 3300 NSv Extension Cable

  • Code-barres : 8537101190

  • Paiement : Virement bancaire, Western Union

  • Poids : 120g

  • Dimensions : 45 mm x 90 mm x 90 mm (H x W x D)

  • Port d'expédition : Xiamen

  • Garantie : 12 mois

Quantité
Voir les détails complets

Description

A 6.0 m unarmored coaxial cable (Option 00) with multiple hazardous area approvals (Option 05) defines the 330930-060-00-05 3300 NSv extension cable configuration. This physical variant provides the intermediate connection between a 3300 NSv proximity probe and a 3300 XL NSv Proximitor sensor, completing a 7.0 m transducer system loop when matched with a 1.0 m probe. By omitting external stainless steel armor, this configuration maintains high cable flexibility and a reduced outer diameter, which facilitates routing through tight protective conduits or complex cable trays.

In contrast to sibling configurations like the armored 330930-060-01-05 or models utilizing integrated connector protectors, the unarmored 330930-060-00-05 employs a standard outer jacket over its shielded coaxial core. The system is used for non-contact eddy-current displacement measurements on industrial rotating machinery where installation clearance is restricted, target geometries are small, or standard-bore proximity systems cannot physically fit.

Features

  • Option 060 specifies a 6.0-meter (19.7 feet) physical cable length, pairing with a 1.0 m proximity probe to form a 7.0 m system length.
  • Option 00 provides a flexible, unarmored coaxial cable structure to maximize ease of routing in tight spaces.
  • Option 05 multiple approvals package permits installation in international hazardous area zones.
  • Gold-plated brass coaxial ClickLoc connectors provide low-resistance electrical contact and secure coupling without tools.
  • FEP outer insulating jacket resists moisture, chemical exposure, and elevated operating temperatures.

Applications

This cable is used in rotating machinery monitoring systems, including:

  • Aeroderivative gas turbines and compact industrial turbines with limited internal clearances.
  • Radial shaft vibration and axial position measurements in small-bore machinery.
  • High-speed centrifugal compressors and turbocompressors requiring tight spatial mounting.
  • Fluid film bearing clearance monitoring on auxiliary pumps, fans, and generators.

Ordering Information

Option / Segment Code on This SKU Description
Orderable Part Number 330930-060-00-05 3300 NSv Extension Cable
A - Cable Length Option 060 6.0 meters (19.7 feet)
B - Connector and Cable Option 00 Without stainless steel armor
C - Agency Approval Option 05 Multiple Approvals (CSA, ATEX, IECEx, NEPSI)

Technical Specifications

Manufacturer Bently Nevada
Part Number 330930-060-00-05
Transducer System Compatibility 3300 XL NSv Proximity Transducer System
Cable Type 75 ohm coaxial cable, FEP insulated
Armor Option Unarmored (no stainless steel armor)
Cable Length 6.0 meters (19.7 feet)
Cable Outer Diameter 2.80 mm (0.11 in) maximum
Extension Cable Capacitance 69.9 pF/m (21.3 pF/ft) typical
Center Conductor DC Resistance 0.220 ohm/m (0.067 ohm/ft)
Shield DC Resistance 0.066 ohm/m (0.020 ohm/ft)
Minimum Bend Radius 25.4 mm (1.0 in)
Cable Tension Strength 220 N (50 lb) maximum pull at probe-to-extension connector interface
Torque (Connector-to-Connector) Finger tight recommended; 0.56 N m (5 in lb) maximum
Cable Weight (Typical) 45 g/m (0.5 oz/ft)
Operating and Storage Temperature -52 degC to +177 degC (-62 degF to +351 degF)
Relative Humidity 100% condensing, non-submersible when connectors are protected
Connector Material Gold-plated brass ClickLoc coaxial connectors

Connections and Interfaces

The cable features one miniature male ClickLoc coaxial connector on one end (connects to the female connector of the 3300 NSv proximity probe) and one miniature female ClickLoc coaxial connector on the other end (connects to the male connector on the 3300 XL NSv Proximitor Sensor). Proper torque should be restricted to finger tight plus a maximum of 0.56 N m (5 in lb) torque during assembly.

Installation Guidelines

  • Ensure the combined physical length of the proximity probe and the extension cable matches the calibrated system length of the Proximitor Sensor (e.g., 1.0 m probe plus 6.0 m extension cable for a 7.0 m system).
  • Maintain a minimum bend radius of 25.4 mm (1.0 in) along all sections of the cable run to prevent impedance mismatch or conductor damage.
  • Avoid routing the unarmored cable across sharp metal edges or high-abrasion surfaces without appropriate protective conduit.
  • Verify that the coaxial ClickLoc connectors are fully clean and dry before mating. Secure the connection finger-tight to ensure robust contact.
  • In environments with high moisture or liquid spray, protect the connectors using a connector protector kit or self-fusing silicone tape to prevent fluid ingress.

Compliance and Certifications

The 330930-060-00-05 extension cable carries the Option 05 Multiple Approvals package. This includes certifications for hazardous area installations:

  • ATEX/IECEx: Intrinsically Safe (Ex ia IIC T5...T1 Ga, Ex ia IIIC Dc) and Non-Sparking (Ex nA/Ex ec IIC T5...T1 Gc)
  • CSA/North America: Class I, Division 1, Groups A, B, C, and D; Class II, Groups E, F, and G; Class III
  • NEPSI: Hazardous area certification compliant with Chinese national standards
Loading product navigation…

Product Documentation

Technical Datasheet (PDF) Complete specifications and technical drawings.

Technical Datasheet

Bently Nevada 330930-060-00-05 3300 NSv Extension Cable

What does the 060 cable length option signify on the 330930-060-00-05?

It specifies a physical cable length of 6.0 meters (19.7 feet). Combined with a 1.0 m proximity probe, it completes a standard 7.0 m transducer system loop.

Does the 330930-060-00-05 cable have stainless steel protective armor?

No, the 00 option indicates that this cable is unarmored. It consists of the standard coaxial core with an FEP outer jacket, which allows for maximum flexibility when routing through conduit.

What certification approvals are included with the 05 option?

The 05 option designates the Multiple Approvals package. This certifies the cable for intrinsically safe and non-sparking hazardous environment installations under CSA, ATEX, IECEx, and NEPSI.

What is the minimum bend radius for the 330930-060-00-05 cable?

The minimum bend radius is 25.4 mm (1.0 inch). Bending the cable beyond this limit can degrade the high-frequency coaxial signal or damage the internal shield and conductors.

Expédition express mondiale

  • Livraison standard : 4 à 6 jours ouvrables via DHL, FedEx et UPS.
  • Expédition express : Expédition le jour même pour les commandes en stock passées avant 14h00 (GMT+8).
  • Couverture mondiale : Service dans plus de 150 pays, avec livraison rapide en Arabie Saoudite et aux Émirats Arabes Unis.

Retours et garantie

  • Garantie de 30 jours : Retours acceptés pour les produits en stock dans leur emballage d'origine scellé en usine.
  • Garantie de 12 mois : Chaque composant industriel est couvert par notre garantie technique professionnelle.

Les commandes sont traitées et livrées du lundi au vendredi (hors jours fériés).


Pour connaître l'éligibilité complète, les frais de restockage et les détails des retours internationaux, veuillez consulter notre site officiel Politique de remboursement et de retour .

TECHNICAL SPECIFICATIONS

Country of origin
États-Unis

Produits récemment consultés

Connaissances techniques

Actionneurs électriques conçus pour remplacer les systèmes à fluide : un guide pratique d'automatisation industrielle

Cet article explique comment les actionneurs électriques intégrés, tels que la série e-Actuator de SMC, transforment le contrôle de mouvement industriel en remplaçant les systèmes pneumatiques et...

Opérations mathématiques avec OpenPLC pour les applications d'automatisation industrielle

Cet article explique comment les systèmes PLC réalisent les opérations mathématiques de base telles que l'addition, la soustraction, la multiplication, la division, le modulo et l'exponentiation dans...

Logique booléenne avancée avec la programmation FBD PLC : applications industrielles pratiques au-delà de la logique de base

L'article explique plusieurs fonctions avancées de logique booléenne utilisées en programmation d'automates programmables industriels (API) au-delà des opérations de base ET, OU et NON. Il couvre...

Logique booléenne en programmation PLC : comprendre les portes logiques FBD

La logique booléenne est la base de tout programme PLC. Des commandes machines simples aux systèmes d'automatisation industrielle complexes, les portes logiques déterminent comment les contrôleurs...

Guide approfondi sur les pare-feux industriels et la segmentation des réseaux OT

Les pare-feux industriels jouent un rôle crucial dans la cybersécurité OT, protégeant les réseaux PLC, DCS et SCADA grâce à la segmentation, au contrôle des entrées/sorties et à l’intégration IDS/IPS...

Guide des pinces robotiques : de la manipulation délicate à l'automatisation lourde

Les pinces robotiques modernes évoluent au-delà des mâchoires mécaniques traditionnelles. Des systèmes adhésifs inspirés des geckos aux pinces souples de qualité alimentaire, en passant par les...