21000-28-05-00-021-03-02 Bently Nevada Proximity Probe Housing Assembly – 3300 Series Eddy Current System

Technical Dossier

Product Details And Specifications

Bently Nevada 21000-28-05-00-021-03-02 Proximity Probe Housing Assembly – 3300 Series Eddy Current Vibration Monitoring Platform

The Bently Nevada 21000-28-05-00-021-03-02 Proximity Probe Housing Assembly is a precision-engineered mechanical interface component within the 3300 Series eddy current transducer system, designed to provide stable, repeatable positioning of the proximity probe tip relative to the observed rotating shaft. In rotating machinery protection architectures — including turbine supervisory instrumentation (TSI) systems and Safety Instrumented Systems (SIS) — the mechanical integrity of the probe housing directly governs the accuracy of radial vibration, axial position, and differential expansion measurements. This assembly ensures that the eddy current sensing element maintains its calibrated gap distance under thermal cycling, process vibration, and mechanical shock, thereby preserving signal fidelity across the full measurement chain from transducer to monitor.

Within the IEC 61511 and IEC 61508 functional safety framework, the 21000-28-05-00-021-03-02 housing assembly serves as a critical mechanical sub-element of the overall proximity probe loop. Its dimensional tolerances and material properties are engineered to complement the 3300 Series probe and extension cable system, ensuring that the complete transducer loop meets the diagnostic coverage (DC) and proof-test interval requirements stipulated in SIL 2 machinery protection applications. When integrated with Bently Nevada 3300 Series monitors — such as the 3300/16 or 3300/55 — the housing assembly contributes to the overall probability of failure on demand (PFD) calculation for the safety instrumented function (SIF) governing turbomachinery shutdown.

Technical Specifications

Specifications are for reference only, subject to official datasheet. Please verify parameters against your system documentation before installation.

Technical Architecture & Design Principles

The 21000-28-05-00-021-03-02 housing assembly is engineered as the mechanical backbone of the Bently Nevada 3300 Series eddy current transducer loop. The eddy current (EC) sensing principle operates by generating a high-frequency electromagnetic field from the probe tip; as the conductive shaft surface approaches or recedes, induced eddy currents alter the probe's impedance, producing a proportional DC voltage output that encodes shaft displacement with sub-micron resolution. The housing assembly's primary engineering function is to maintain the probe tip at a precisely controlled standoff distance — typically 1.0 mm to 2.0 mm — under all operating conditions, including thermal expansion of the machinery casing, process-induced vibration, and transient mechanical shock events.

Fault Detection & Isolation (FDI): In a properly configured 3300 Series installation, the monitor continuously performs open-circuit and short-circuit diagnostics on the transducer loop. The housing assembly's dimensional stability ensures that gap voltage remains within the linear range of the probe's calibration curve, preventing false diagnostic trips caused by mechanical drift. Any deviation beyond the configured gap alarm setpoint triggers a fault indication at the monitor level, enabling rapid isolation of the affected measurement channel without interrupting adjacent channels.

Online Diagnostics & Self-Test: Bently Nevada 3300 Series monitors incorporate continuous self-test routines that verify transducer loop integrity at scan rates compatible with API 670 requirements. The housing assembly's material selection — typically stainless steel or Inconel for high-temperature applications — ensures dimensional stability across the full operating temperature range, maintaining calibration validity between scheduled proof-test intervals as required by IEC 61511 Clause 11.

SIS Integration: When deployed within a Safety Instrumented System (SIS) for turbomachinery protection, the proximity probe loop — including this housing assembly — forms the sensor element of a Safety Instrumented Function (SIF). The SIF typically implements a 1oo2 or 2oo3 voting architecture at the logic solver level (e.g., Bently Nevada 3500 Series or a dedicated SIL-rated SIS controller), where multiple probe channels vote on shaft vibration exceedance to initiate an Emergency Shutdown (ESD) action. The mechanical reliability of the housing assembly directly contributes to the overall PFDavg of the SIF.

IEC 61511 / IEC 61508 Compliance: The 3300 Series transducer system, including this housing assembly, supports SIL 2 machinery protection applications when installed and maintained per Bently Nevada's functional safety manual. Proof-test procedures must verify gap voltage, transducer sensitivity, and housing mechanical integrity at intervals determined by the SIL verification calculation.

Industrial Applications & System Context

The 21000-28-05-00-021-03-02 Proximity Probe Housing Assembly is deployed across the full spectrum of rotating machinery protection applications in process-critical industries:

DCS Architecture Integration: In a Distributed Control System (DCS) environment, the 3300 Series transducer output feeds into the DCS analog input subsystem via the monitor's buffered output, providing continuous vibration trend data for process historians and operator displays. The housing assembly's stable mechanical interface ensures that the analog signal chain maintains its calibration without drift between DCS scan cycles.

ESD / F&G System Role: In Emergency Shutdown (ESD) and Fire & Gas (F&G) system architectures, the proximity probe loop serves as the primary sensor for high-vibration shutdown logic. The housing assembly's threaded installation into the machinery casing provides the mechanical rigidity required to prevent false trips caused by probe movement under process vibration.

SCADA Communication: Monitor-level vibration data is transmitted to SCADA systems via Modbus RTU, Modbus TCP, or OPC-DA/UA interfaces from the 3300/3500 Series monitor, with the housing assembly ensuring measurement integrity at the field level.

Turbomachinery Real-Time Response: In steam turbine, gas turbine, and centrifugal compressor applications, the eddy current transducer loop must respond to shaft vibration events within milliseconds to enable protective shutdown before mechanical damage occurs. The housing assembly's rigid mounting eliminates mechanical resonance that could corrupt the vibration signal at frequencies up to 10 kHz.

Typical Project Scenarios:

• Petroleum refinery — compressor train vibration monitoring and ESD
• LNG liquefaction plant — main refrigerant compressor protection
• Nuclear power station — reactor coolant pump shaft monitoring (IEC 61508 SIL 2)
• Offshore production platform — gas turbine generator protection
• Petrochemical plant — steam turbine-driven pump protection per API 670

All applications comply with IEC 61511 (functional safety for process industry SIS) and IEC 61508 (functional safety of E/E/PE safety-related systems).

System Integration & Compatible Parts

The 21000-28-05-00-021-03-02 housing assembly is designed for integration within the Bently Nevada 3300 Series eddy current transducer system. Verified compatible components include:

• Probe Body: Bently Nevada 3300 Series 8mm proximity probes (e.g., 330103-00-06-10-02-00)
• Extension Cable: Bently Nevada 3300 Series extension cables (e.g., 330130-045-00-00)
• Oscillator/Demodulator: Bently Nevada 3300 Series proximitor sensors (e.g., 330180-91-00)
• Monitor Rack: Bently Nevada 3300/16 or 3300/55 monitor modules
• System Monitor: Bently Nevada 3500 Series rack-based monitoring system
• Firmware Compatibility: Compatible with all 3300 Series monitor firmware revisions (ref. — verify against your system revision documentation)

We recommend providing your complete system configuration list — including monitor model, extension cable length, and target material — to ensure full transducer loop compatibility. Browse all Bently Nevada components at DriveKNMS →

Every 21000-28-05-00-021-03-02 unit shipped by DriveKNMS undergoes a rigorous 5-step quality assurance process:

1. Visual Inspection — Physical damage assessment, corrosion check, thread integrity verification, and anti-counterfeit label authentication against Bently Nevada OEM markings.
2. Functional Power-On Test — Signal behavior verification, I/O response confirmation, and output accuracy validation against 3300 Series calibration specifications.
3. Model & Revision Verification — Confirmation of part number, hardware revision, and firmware version against system documentation to ensure compatibility with the target installation.
4. ESD-Safe Packaging — Anti-static packaging with shock-absorbing foam inserts, moisture barrier, and desiccant to protect sensitive eddy current components during international transit.
5. 12-Month Functional Warranty — Covering all functional defects under normal operating conditions, with technical support from DriveKNMS engineers throughout the warranty period.

Global Logistics: Worldwide express delivery via FedEx / DHL / UPS with real-time tracking number provided upon shipment. Export documentation and customs compliance support available for all destinations.

Technical Support from DriveKNMS

• Engineering team provides part selection and compatibility verification services for 3300/3500 Series systems
• Cross-reference service: identify equivalent or replacement parts across Bently Nevada product generations
• Firmware version and hardware revision confirmation against your system documentation
• Test reports and inspection certificates available upon request
• Technical evaluation and recommendation of alternative solutions for obsolete or discontinued parts
• 24/7 WhatsApp technical consultation response: +86 18359293191

Frequently Asked Questions

Q1: What communication protocols does the 21000-28-05-00-021-03-02 support?
The 3300 Series proximity probe system outputs an analog DC voltage signal (typically -18 VDC at 200 mV/mil sensitivity) to the associated monitor. Digital communication (Modbus, OPC) is handled at the monitor level, not the transducer level. Please confirm your monitor model for protocol details.

Q2: How do I confirm compatibility with my existing system version?
Please provide your monitor model number, existing extension cable part number, target shaft material, and required measurement range. Our engineering team will verify full transducer loop compatibility and confirm the correct housing assembly variant for your installation.

Q3: Has the refurbished unit undergone SIL-related functional testing?
All units undergo functional testing per our 5-step QA process, including signal behavior and output accuracy verification. For SIL-critical applications, we recommend requesting a test report and confirming proof-test requirements with your functional safety engineer per IEC 61511 Clause 11.

This is a display-only listing. Price shown is for reference only and does not represent actual selling price. For the latest pricing, lead time, and availability, please contact our team directly:

© 2026 DriveKNMS. All trademarks belong to their respective owners. Bently Nevada is a trademark of Baker Hughes Company. Specifications are for reference only and subject to change without notice.