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Bently Nevada

Bently Nevada 22810-00-14-10-02 Proximity Probes for 3300 Series Systems

Bently Nevada RFQ support for Proximity Probe. Availability, condition, compatibility, lead time, and export shipment options are confirmed before quote.

SKU22810-00-14-10-02 BrandBently Nevada TypeProximity Probe Series3300 Series OriginUS CategorySensors & I/O
AvailabilityConfirm by RFQ, global sourcing supported
ConditionNew / Refurbished / Tested, confirmed before quote
Lead TimeFast quotation, shipment arranged after confirmation
ShippingDHL / FedEx / UPS worldwide
Need price, stock, or a compatible replacement?

Technical Details

Product specification and sourcing notes

Review the original product details, compatibility notes, and sourcing information in a clearer technical document layout.

Bently Nevada 22810-00-14-10-02 Proximity Probes for 3300 Series Systems: availability, compatibility, and sourcing support

The Bently Nevada 22810-00-14-10-02 is a high-precision eddy-current proximity probe engineered for the 3300 Series machinery protection platform. Designed to operate at the intersection of field-level sensing and plant-wide data infrastructure, this probe delivers continuous, real-time shaft displacement and vibration data directly into your industrial communication backbone. Whether integrated with a Bently Nevada 3300/16 Monitor, a 3500 Series rack, or feeding data upstream to a SCADA or DCS platform, the 22810-00-14-10-02 forms a critical node in the industrial data chain — from raw signal acquisition to actionable machine health intelligence.

In modern smart factory environments, vibration data is no longer siloed at the machine level. The 22810-00-14-10-02 works in concert with signal conditioners, proximitor sensors, and network-connected monitoring racks to push real-time displacement values into Modbus TCP, PROFIBUS DP, or OPC-UA data streams. This enables seamless integration with plant historians, edge gateways, and HMI dashboards — giving maintenance engineers and process operators a unified view of rotating machinery health across the entire facility.

Compatibility & Integration Notes

Parameter Specification
SKU / Part Number 22810-00-14-10-02
Brand Bently Nevada
Series 3300 Series
Product Type Eddy-Current Proximity Probe
Protocol Support Modbus RTU / TCP, PROFIBUS DP, OPC-UA (via monitor rack)
Communication Interface Analog output via proximitor / signal conditioner; digital via 3300/16 or 3500 rack
Transmission Capability Continuous real-time shaft displacement and vibration amplitude
Network Compatibility DCS, SCADA, PLC, HMI, Plant Historian, Edge Gateway
System Application Rotating machinery protection, predictive maintenance, smart factory IIoT
Sensing Technology Eddy-current (non-contact)
Probe Length 14 inches (355 mm)
Cable Length 10 feet (3 m)
Connector Type 02 (standard)
Origin USA
Warranty 12-Month Warranty

Connected Automation Data Flow

The 22810-00-14-10-02 proximity probe is the first link in a multi-layer industrial data chain. Mounted at the bearing housing of a turbine, compressor, or pump, the probe continuously measures shaft radial position and dynamic vibration. Its analog signal is routed through a Bently Nevada 3300 XL 8mm Proximitor Sensor — the signal conditioner that converts raw eddy-current output into a calibrated DC voltage proportional to gap distance. This conditioned signal feeds directly into a Bently Nevada 3300/16 Monitor or a 3500/42M Proximitor/Seismic Monitor housed in a 3500 Series rack, where it is digitized, alarm-checked, and formatted for network transmission.

From the monitor rack, data is exported via Modbus TCP or PROFIBUS DP to a plant-level Siemens S7-300 PLC or Allen-Bradley ControlLogix controller, which aggregates vibration status alongside process variables from remote I/O modules and variable frequency drives. The PLC forwards structured data packets to a Wonderware InTouch HMI or GE iFIX SCADA server, where operators monitor real-time shaft orbit plots, trend data, and alarm states. For facilities deploying IIoT architectures, an edge gateway — such as a Moxa MGate MB3480 or similar industrial protocol converter — bridges the Modbus RTU output of legacy 3300 Series racks to Ethernet-based OPC-UA streams, enabling cloud historian integration and remote diagnostics without replacing existing infrastructure.

Across this data flow, the 22810-00-14-10-02 ensures that the physical reality of rotating machinery — shaft eccentricity, oil whirl, misalignment, and rub events — is faithfully captured and transmitted with sub-millisecond latency to every layer of the control and monitoring hierarchy. Paired with Bently Nevada 3300 XL extension cables and 3500/22M Transient Data Interface modules, the system supports full transient capture during machine startups and coastdowns, feeding waveform data to System 1 Condition Monitoring software for advanced diagnostics.

Solving Data Isolation in Industrial Sites

One of the most persistent challenges in industrial facilities is the fragmentation of machine health data across incompatible systems. Legacy vibration monitoring equipment often operates on proprietary protocols or analog-only outputs, creating data islands that cannot be accessed by modern SCADA platforms or enterprise asset management systems. The Bently Nevada 22810-00-14-10-02, as part of the 3300 Series ecosystem, directly addresses this problem.

By integrating the 22810-00-14-10-02 with a 3300/16 Monitor and a protocol gateway, facilities can bridge the gap between field-level vibration sensing and plant-wide digital infrastructure. Modbus TCP output from the monitor rack can be mapped directly into a DCS tag database, eliminating manual data transcription and enabling automated alarm escalation. For multi-machine installations, a single 3500 Series rack can consolidate signals from multiple 22810-00-14-10-02 probes — covering radial, axial, and phase reference measurements — and present a unified data stream to the control room.

Remote monitoring is another critical capability enabled by this integration. With OPC-UA connectivity through an edge gateway, maintenance engineers can access real-time vibration spectra and historical trend data from any location, enabling condition-based maintenance decisions without requiring physical presence at the machine. This reduces unplanned downtime, extends equipment life, and supports the transition from reactive to predictive maintenance strategies. Production line transparency is further enhanced by feeding vibration alarm states into MES and ERP systems, where machine availability data can be correlated with production output and quality metrics.

System scalability is built into the 3300 Series architecture. As facilities expand — adding new compressors, pumps, or turbines — additional 22810-00-14-10-02 probes and monitor channels can be integrated into the existing network without redesigning the communication infrastructure. This modularity ensures that the investment in industrial connectivity grows with the facility, protecting capital expenditure over the long term.

Every Bently Nevada 22810-00-14-10-02 supplied by ZYPLC undergoes pre-shipment functional testing to verify probe sensitivity, cable integrity, and connector continuity. Stock is maintained for immediate dispatch via DHL or FedEx international express, with full documentation including calibration records and compliance certificates available upon request.

Industrial Connectivity FAQ

Q1: What communication protocols does the Bently Nevada 3300 Series support when integrated with a SCADA system?
The 3300 Series monitors, when paired with a 3300/16 or 3500 Series rack, support Modbus RTU and Modbus TCP as standard output protocols. PROFIBUS DP and OPC-UA connectivity can be achieved through compatible protocol gateways or by upgrading to the 3500 Series platform, which offers native digital communication options. This allows the 22810-00-14-10-02 vibration data to be integrated into any major SCADA, DCS, or plant historian system without signal conversion losses.

Q2: How does the 22810-00-14-10-02 ensure network stability in high-vibration industrial environments?
The probe is constructed with a ruggedized stainless-steel housing and armored cable assembly rated for continuous operation in high-temperature, high-vibration, and chemically aggressive environments. The eddy-current sensing principle is inherently immune to electromagnetic interference, ensuring stable signal transmission even in proximity to large motors, VFDs, and high-current bus bars. The shielded coaxial cable minimizes signal noise across the full transmission path to the proximitor and monitor rack.

Q3: Can the 22810-00-14-10-02 be used to expand an existing 3300 Series monitoring network?
Yes. The 22810-00-14-10-02 is fully compatible with existing 3300 Series infrastructure, including 3300 XL Proximitor Sensors, 3300/16 Monitors, and 3300 RAM Rack Adapters. Adding new probe channels to an existing rack requires no changes to the network communication configuration, making it straightforward to expand coverage to additional bearing positions or new machines as the facility grows.

Q4: What warranty and testing standards apply to the 22810-00-14-10-02 supplied by ZYPLC?
All units supplied by ZYPLC carry a 12-month warranty covering manufacturing defects and functional performance. Each probe undergoes pre-shipment testing including sensitivity verification, insulation resistance check, and connector integrity inspection. Shipment is via DHL or FedEx international express with full tracking, and documentation including test records and compliance certificates is provided upon request. Lead time for in-stock units is typically 1–3 business days.


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