1 от 3

Bently Nevada 330930-065-01-05 3300 NSv Extension Cable

Bently Nevada 330930-065-01-05 3300 NSv Extension Cable

Only 9 item(s) left in stock
  • Manufacturer: Bently Nevada

  • Product No.: 330930-065-01-05

  • Country of origin:Съединени щати

  • Product Type: 3300 NSv Extension Cable

  • Barcode: 8537101190

  • Payment: T/T, Western Union

  • Weight: 416g

  • Dimensions: 6.5 meters (21.3 feet)

  • Shipping port: Xiamen

  • Warranty: 12 months

Количество
Покажи пълните подробности

Product Overview

The 330930-065-01-05 is a rugged, high-precision proximity transducer link engineered for the industry-leading Bently Nevada 3300 NSv proximity transducer system. Functioning as a high-integrity signal transmission path, this armored coaxial extension cable connects the specialized NSv proximity probe to the matching Proximitor sensor unit. Extreme operational environments—including oil and gas refineries, petrochemical processing plants, and critical aeroderivative gas turbine installations—rely on the 330930-065-01-05 to deliver high-fidelity eddy current telemetry. The module maintains stable impedance profiles when routed through harsh confined spaces to track tight machinery clearances and small-shaft vibrations. By safeguarding low-voltage displacement signals from external radio frequency interference (RFI) and mechanical crushing, this cable guarantees precise data delivery. This continuous monitoring enables safety platforms to stop assets before catastrophic shaft misalignment or bearing wipe happens, effectively eliminating unprogrammed facility downtime.

Suffix Breakdown

The ordering structure of the 330930-065-01-05 defines its exact mechanical shielding, transmission distance, and hazardous area safety compliance through a fixed modification format:

  • 330930 (Base Model): Identifies the 3300 NSv Coaxial Extension Cable platform tailored for narrow-gap and small-target proximity applications.

  • 065 (Cable Length Option): Confirms an exact physical cable length of 6.5 meters (21.3 feet), calibrated to specific electrical capacitance limits required by the driver module.

  • 01 (Connector Protector and Cable Option): Specifies an integrated flexible AISI 302 stainless steel armor sleeve outfitted with a high-durability Fluorinated Ethylene Propylene (FEP) outer jacket for maximum chemical and abrasion protection.

  • 05 (Agency Approval Option): Establishes Multiple Approvals certification, qualifying the assembly for installation within explosive atmospheres and hazardous zones under ATEX and North American standards.

Physical & Electrical Benchmarks

Hardware Specification Certified Engineering Value
Model Identity 330930-065-01-05
Brand Manufacturer Bently Nevada (Baker Hughes)
Control System Line 3300 NSv Proximity Transducer Series
Component Classification Armored Coaxial Extension Cable with FEP Jacket
Total Cable Length 6.5 meters (21.3 feet)
Armor Material Flexible AISI 302 Stainless Steel (SST)
Outer Insulation Jacket Fluorinated Ethylene Propylene (FEP)
Center Conductor Resistance 0.220 Ohm/meter
Coaxial Shield Resistance 0.066 Ohm/meter
Nominal Cable Capacitance 69.9 pF/meter Typical
Mass Density (with Armor) 64 g/meter (0.7 oz/foot)
Operating Thermal Window -51 to +177 deg C Ambient Temperature Limits
Manufacturing Origin Minden, Nevada, USA

Machinery Telemetry & Mechanical FAQs

Why must engineers select an exact cable length like the 6.5-meter option for proximity systems?

Eddy current proximity transducer systems operate on strict total system electrical length calculations. The Proximitor sensor evaluates target distance by reading complex high-frequency impedance, which requires a fixed total capacitance. Modifying, cutting, or splicing the 330930-065-01-05 cable alters this baseline capacitance and corrupts the calibration curves, leading to invalid gap readings.

What specific protection does the 01 option provide over baseline unarmored coaxial cords?

The 01 suffix configuration wraps the inner coaxial trace in flexible AISI 302 stainless steel armor, shielded further by a smooth FEP outer jacket. This setup prevents mechanical flattening or pinching from heavy cabinet doors and machine components while offering total chemical resistance against synthetic lubricants, hot oils, and corrosive industrial solvents.

Does this extension cable maintain reliable telemetry under sub-zero or high-temperature steam environments?

Yes. The entire assembly utilizes advanced FEP insulation layers rated to maintain tight mechanical flexibility and zero dielectric breakdown across a wide operating thermal envelope of -51 to +177 deg C. This makes it highly stable for sub-sea cryogenic pumps as well as high-temperature gas turbine casing enclosures.


Engineering & Installation Guide

  • Connector Protection and Terminal Boot Alignment:

    When joining the extension cable to the proximity probe lead, ensure the miniature coaxial connectors are clean, completely dry, and free of oily residues. Thread the connections together firmly by hand, avoiding excessive torque that can strip the micro-threads. Once joined, slide the factory connector protection sleeve or self-fusing silicone tape enclosure directly over the junction to seal it from moisture infiltration and prevent accidental grounding against nearby machine metalwork.

  • Minimum Bend Radii Rules and Conduit Routing:

    Although the stainless steel armor casing provides excellent crushing protection, field technicians must adhere to standard minimum bend radius guidelines during routing. Avoid tight 90-degree creases or sharp structural edges that can kink the inner center conductor or alter the 69.9 pF/meter nominal capacitance profile. Route the cable through dedicated, oil-tight flexible conduit paths, keeping the sensor wires separated from heavy high-voltage motor or generator supply lines to mitigate electro-magnetic cross-talk.

  • Conduit Drainage and Structural Stress Relief:

    When passing the 330930-065-01-05 cable through low-lying conduit runs, ensure the enclosure layout incorporates proper low-point drainage loops to prevent pooling fluid or condensation buildup from submerging the connections over long operating periods. Provide adequate strain relief loops at both the machine junction box and the 3500 rack entry plate, ensuring machine casing thermal expansion and high-frequency structural vibration do not pull or stress the cable terminals.

Product Documentation

Technical Datasheet (PDF) Complete specifications and technical drawings.

Technical Datasheet

Bently Nevada 330930-065-01-05 3300 NSv Extension Cable

Глобална експресна доставка

  • Стандартна доставка: 4-6 работни дни чрез DHL, FedEx и UPS.
  • Експресна изпращане: Изпращане в същия ден за налични поръчки, направени преди 14:00 ч. (GMT+8).
  • Глобално покритие: Обслужваме над 150 държави, включително бърза доставка до Саудитска Арабия и ОАЕ.

Връщания и гаранция

  • 30-дневна гаранция: Връщания се приемат за налични продукти в оригинална, фабрично запечатана опаковка.
  • 12-месечна гаранция: Всеки индустриален компонент е подкрепен с нашата професионална техническа гаранция.

Поръчките се обработват и доставят от понеделник до петък (с изключение на официалните празници).


За пълна информация относно допустимост, такси за презареждане и международни връщания, моля, разгледайте нашия официален Политика за възстановяване и връщане .

TECHNICAL SPECIFICATIONS

Color pattern
Сребърен
Country of origin
Съединени щати

Наскоро разгледани продукти

Технически знания

Електрически задвижващи механизми, проектирани да заменят хидравлични и пневматични системи: Практическо ръководство за индустриална автоматизация

Тази статия обяснява как интегрираните електрически задвижвания, като серията e-Actuator на SMC, трансформират индустриалното управление на движението, като заменят традиционните пневматични и...

Математически операции с OpenPLC за индустриални автоматизационни приложения

Тази статия обяснява как PLC системите изпълняват основни математически операции като събиране, изваждане, умножение, деление, модуло и степенуване в индустриалната автоматизация. Показва как тези...

Разширена булева логика с FBD PLC програмиране: Практически индустриални приложения отвъд основната логика

Статията обяснява няколко усъвършенствани булеви логически функции, използвани в програмирането на PLC, извън основните операции AND, OR и NOT. Тя разглежда как инструменти като таблици на...

Булева логика в програмирането на PLC: Разбиране на логическите врати в FBD

Булевата логика е основата на всяка програма за PLC. От прости машинни управления до сложни индустриални автоматизационни системи, логическите врати определят как контролерите реагират на променящите...

Подробно ръководство за индустриални защитни стени и сегментиране на OT мрежи

Индустриалните защитни стени играят ключова роля в киберсигурността на OT, като защитават мрежите PLC, DCS и SCADA чрез сегментация, контрол на входящия/изходящия трафик и интеграция на IDS/IPS в...

Ръководство за роботизирани захвати: от деликатно боравене до тежка автоматизация

Съвременните роботизирани захвати се развиват отвъд традиционните механични челюсти. От системи с лепкави повърхности, вдъхновени от геконите, и меки захвати за хранителни продукти до инструменти за...