1 von 3

Bently Nevada 330881-16-00-395-06-02 PROXPAC XL Proximity Transducer

Bently Nevada 330881-16-00-395-06-02 PROXPAC XL Proximity Transducer

Nur noch 4 Artikel auf Lager verfügbar
  • Hersteller: Bently Nevada

  • Produkt-Nr.: 330881-16-00-395-06-02

  • Herkunftsland:Vereinigte Staaten

  • Produkttyp: PROXPAC XL Proximity Transducer

  • Strichcode: 8537101190

  • Zahlung: T/T, Western Union

  • Gewicht: 250g

  • Abmessungen: 60 mm x 110 mm x 110 mm (H x W x D)

  • Versandhafen: Xiamen

  • Garantie: 12 Monate

Menge
Vollständige Details anzeigen

Description

330881-16-00-395-06-02 specifies a metric Bently Nevada PROXPAC XL integrated proximity transducer configuration, pairing a 3300 XL 8 mm proximity probe (Option 16) with a 395 mm probe penetration depth (Option 395). This self-contained, integrated assembly incorporates its own 3300 XL Proximitor sensor inside the housing lid, eliminating the need for an intermediate extension cable or a separate Proximitor enclosure. Field wiring connects directly between the monitors and the terminal strip inside the housing, reducing installation complexity and wiring interfaces.

This configuration operates without an external standoff adapter (Option 00) and features a 3/4-14 NPT mounting thread (Option 02). It is supplied with a fittings kit (Option 06) containing one 3/4-14 NPT fitting, one 3/4-14 NPT to 1/2-14 NPT stainless steel reducer, and two plugs. The housing is constructed of glass-reinforced, conductive-fiber-filled polyphenylene sulfide (PPS) thermoplastic, which resists chemical exposure, provides IP66 and Type 4X sealing, and dissipates electrostatic charges. Because this unit is ordered with Option 16, it is supplied without hazardous area agency approvals.

Features

  • Option 16 integrates a 3300 XL 8 mm proximity probe without hazardous area approvals.
  • Option 00 configures the transducer assembly without an external standoff adapter.
  • Option 395 provides a deep 395 mm probe penetration length for machinery cases.
  • Option 06 includes a metric/NPT fittings kit with one 3/4-14 NPT fitting, one 3/4-14 NPT to 1/2-14 NPT stainless steel reducer, and two plugs.
  • Option 02 provides a 3/4-14 NPT mounting thread.
  • Self-contained design locates the Proximitor sensor in the housing lid, eliminating remote sensor enclosures and separate extension cables.
  • Polyphenylene sulfide (PPS) housing material offers chemical resistance and resists electrostatic charge accumulation.

Applications

  • Shaft radial vibration and axial position measurement on industrial rotating machinery.
  • Direct-mount external casing probe installations where separate Proximitor housings are impractical.
  • Severe-environment machinery monitoring requiring IP66 and Type 4X environmental protection.

Ordering Information

The 330881-16-00-395-06-02 represents a specific orderable configuration of the metric PROXPAC XL Proximity Transducer Assembly. The table below decodes each option segment of this SKU:

Option Segment Code on This SKU Description / Selection
Base Model 330881 PROXPAC XL Proximity Transducer, Metric
A: Probe and Approvals Option 16 3300 XL 8 mm probe without approvals
B: Standoff Adapter Option 00 No standoff adapter
C: Probe Penetration Option 395 395 mm penetration length (increments of 1 mm)
D: Fittings Option 06 One 3/4-14 NPT fitting, one 3/4-14 NPT to 1/2-14 NPT SST reducer, and two plugs
E: Mounting Thread Option 02 3/4-14 NPT mounting thread (required if ordering Standoff Adapter Option)

Technical Specifications

Parameter / Category Specification Value
Manufacturer Bently Nevada (Baker Hughes)
Part Number / Model 330881-16-00-395-06-02
Transducer Family PROXPAC XL Proximity Transducer, Metric
Proximitor Sensor Input 3300 XL 8 mm Proximity Probe with a 1-metre cable length installed in the probe sleeve
Power Requirements Requires -17.5 Vdc to -26 Vdc without barriers at 12 mA maximum
Output Resistance 50 Ohm
Linear Range 2 mm (80 mils), beginning at approximately 0.25 mm (10 mils) from target
Recommended Gap Setting 1.27 mm (50 mils)
Incremental Scale Factor (ISF) 7.87 V/mm (200 mV/mil) +/- 5% under standard conditions
Deviation from Straight Line (DSL) Less than +/- 0.025 mm (+/- 1 mil) over the linear range
Frequency Response 0 to 10 kHz: +0, -3 dB with up to 305 metres of field wiring
Housing Rating IP66 and Type 4X (hose-directed water seal)
Housing Material Ultraviolet (UV) resistant, glass-reinforced polyphenylene sulfide (PPS) thermoplastic containing conductive fibers
Sleeve & Retaining Chain Material AISI 304 stainless steel
Outer Sleeve & Retaining Screws AISI 303 stainless steel
Sleeve O-Ring Material Neoprene
Grounding Liner Material AISI 304 stainless steel
Retaining Nut Torque 29.5 N-m (260 in-lb)
Probe Sleeve Locknut Torque 39.3 N-m (350 in-lb)
Probe Operating Temperature -52 degC to +177 degC
Housing & Proximitor Temperature -52 degC to +100 degC
Storage Temperature -52 degC to +105 degC
Relative Humidity 100% condensing, non-submersible when connectors are protected

Installation Guidelines

  • Ensure the target shaft or surface meets the minimum target diameter of 15.2 mm (0.6 in) to achieve full linear calibration.
  • To prevent measurement cross-talk, maintain a minimum separation of 40 mm (1.6 in) for axial position measurements and 38 mm (1.5 in) for radial vibration measurements.
  • Do not expose the probe to temperatures below -34 degC (-29 degF) during operation to avoid premature failure of the pressure seal.
  • Torque the probe sleeve locknut to 39.3 N-m (350 in-lb) and the housing retaining nut to 29.5 N-m (260 in-lb) during final physical mounting.
  • Seal all conduit entries and utilize the supplied fittings (Option 06) to prevent moisture or condensation from traveling through the conduit into the housing cavity.

Compliance and Certifications

  • Complies with European CE mark.
  • Housing IP66 rating verified by BASEEFA report number T07/0709.
  • Note: Because this specific assembly is configured with Option 16, it does not come with hazardous area agency approvals.
Loading product navigation…

Product Documentation

Technical Datasheet (PDF) Complete specifications and technical drawings.

Technical Datasheet

Bently Nevada 330881-16-00-395-06-02 PROXPAC XL Proximity Transducer

What is the exact configuration of the Bently Nevada 330881-16-00-395-06-02?

This metric PROXPAC XL integrated transducer contains a 3300 XL 8 mm probe without approvals (Option 16), operates without a standoff adapter (Option 00), offers a 395 mm probe penetration depth (Option 395), includes an NPT fittings kit (Option 06), and uses a 3/4-14 NPT mounting thread (Option 02).

Does the 330881-16-00-395-06-02 require an external Proximitor sensor or extension cable?

No. The design is completely self-contained with the 3300 XL Proximitor sensor integrated directly into the housing lid, removing the requirement for remote enclosures or separate extension cables.

Are hazardous area approvals included with this model?

No. Because this unit is configured with the Option 16 probe selection, it does not carry hazardous area agency certifications.

What are the housing material and environmental ratings?

The housing is molded from glass-reinforced, conductive-fiber-filled polyphenylene sulfide (PPS) thermoplastic, providing IP66 and Type 4X protection in demanding industrial environments while dissipating static.

What is the linear range and scale factor for this system?

It provides a linear range of 2 mm (80 mils) and has an Incremental Scale Factor (ISF) of 7.87 V/mm (200 mV/mil), fully matching standard 3300 XL 8 mm transducer specifications.

Globaler Expressversand

  • Standardlieferung: 4-6 Werktage per DHL, FedEx und UPS.
  • Expressversand: Versand am selben Tag für vorrätige Bestellungen, die vor 14:00 Uhr (GMT+8) aufgegeben werden.
  • Weltweite Abdeckung: Wir beliefern über 150 Länder, einschließlich schneller Lieferung nach Saudi-Arabien und in die VAE.

Rückgaben & Garantie

  • 30-Tage-Garantie: Rückgaben werden für vorrätige Produkte in originaler, werkversiegelter Verpackung akzeptiert.
  • 12-Monats-Garantie: Jede Industriekomponente ist durch unsere professionelle technische Garantie abgesichert.

Bestellungen werden von Montag bis Freitag bearbeitet und geliefert (außer an Feiertagen).


Für vollständige Anspruchsvoraussetzungen, Wiedereinlagerungsgebühren und internationale Rückgabedetails sehen Sie bitte unsere offiziellen Rückerstattungs- & Rückgabebedingungen .

TECHNICAL SPECIFICATIONS

Country of origin
Vereinigte Staaten

Kürzlich angesehene Produkte

Technisches Wissen

Elektrische Antriebe zur Ablösung von Fluidkraftsystemen: Ein praktischer Leitfaden für die industrielle Automatisierung

Dieser Artikel erklärt, wie integrierte elektrische Antriebe, wie die e-Actuator-Serie von SMC, die industrielle Bewegungssteuerung revolutionieren, indem sie herkömmliche pneumatische und...

Mathematische Operationen mit OpenPLC für industrielle Automatisierungsanwendungen

Dieser Artikel erklärt, wie SPS-Systeme grundlegende mathematische Operationen wie Addition, Subtraktion, Multiplikation, Division, Modulo und Exponentiation in der industriellen Automatisierung...

Fortgeschrittene Boolesche Logik mit FBD-SPS-Programmierung: Praktische industrielle Anwendungen über die Grundlogik hinaus

Der Artikel erklärt mehrere fortgeschrittene Boolesche Logikfunktionen, die in der SPS-Programmierung über die grundlegenden AND-, OR- und NOT-Operationen hinaus verwendet werden. Er behandelt, wie...

Boolesche Logik in der SPS-Programmierung: Verständnis von FBD-Logikgattern

Boolesche Logik ist die Grundlage jedes SPS-Programms. Von einfachen Maschinensteuerungen bis hin zu komplexen industriellen Automatisierungssystemen bestimmen Logikgatter, wie Steuerungen auf sich...

Umfassender Leitfaden zu industriellen Firewalls und OT-Netzwerksegmentierung

Industrielle Firewalls spielen eine entscheidende Rolle in der OT-Cybersicherheit, indem sie PLC-, DCS- und SCADA-Netzwerke durch Segmentierung, Ein- und Ausgangskontrolle sowie IDS/IPS-Integration...

Leitfaden für Roboter-Greifer: Von der schonenden Handhabung bis zur Schwerlastautomatisierung

Moderne robotische Greifer entwickeln sich über traditionelle mechanische Backen hinaus. Von gecko-inspirierten Haftsystemen und weichen, lebensmittelechten Greifern bis hin zu KI-gestützten...