Bently Nevada
Bently Nevada 330104-00-07-10-02-CN Proximity Transducer for 3300 Series Systems
Bently Nevada RFQ support for Proximity Probe. Availability, condition, compatibility, lead time, and export shipment options are confirmed before quote.
Bently Nevada
Bently Nevada RFQ support for Proximity Probe. Availability, condition, compatibility, lead time, and export shipment options are confirmed before quote.
Technical Details
Review the original product details, compatibility notes, and sourcing information in a clearer technical document layout.
The Bently Nevada 330104-00-07-10-02-CN is a high-precision eddy-current proximity probe from the renowned 3300 Series, engineered to serve as a critical sensing node within modern industrial communication architectures. In today’s smart factory environment, rotating machinery health is no longer monitored in isolation — it is deeply embedded into a continuous data flow that spans field devices, PLC controllers, remote I/O modules, HMI panels, SCADA platforms, variable frequency drives, and enterprise-level condition monitoring systems. The 330104-00-07-10-02-CN is purpose-built to anchor this data chain at the physical sensing layer, delivering real-time shaft displacement and vibration signals with the accuracy and reliability that industrial network integrity demands.
Designed for seamless integration with the Bently Nevada 3300 XL 8mm Proximity Transducer System, this probe operates in conjunction with the 3300 Series extension cables and 3300 Series proximitor sensors to form a complete transducer chain. The analog output from the proximitor feeds directly into the Bently Nevada 3500 Series Machinery Protection System — a rack-based monitoring platform that digitizes vibration data and transmits it upstream via Modbus RTU, Modbus TCP/IP, or OPC-UA protocols to SCADA and DCS environments. This protocol gateway capability ensures that the raw displacement signal captured by the 330104-00-07-10-02-CN is transformed into actionable network data accessible across the entire plant automation hierarchy.
| Parameter | Specification |
|---|---|
| SKU | 330104-00-07-10-02-CN |
| Brand / Series | Bently Nevada / 3300 Series |
| Probe Type | Eddy-Current Proximity Probe |
| Tip Diameter | 8 mm |
| Cable Length | 7.62 m (25 ft) integral cable |
| Output Signal | Analog DC voltage (–24 VDC nominal system) |
| Communication Protocol | Analog → Modbus RTU / Modbus TCP/IP / OPC-UA (via 3500 rack) |
| Interface Type | Field sensor → Proximitor → Monitoring Rack → Network Gateway |
| Network Compatibility | DCS, SCADA, PLC, HMI, Historian, Edge Gateway |
| System Application | Rotating Machinery Protection, Vibration Monitoring, Predictive Maintenance |
| Sensing Range | 0–2.54 mm (0–100 mil) |
| Temperature Range | –35°C to +177°C (probe tip) |
| Origin | USA |
| Warranty | 12-Month Warranty |
In a typical smart factory deployment, the 330104-00-07-10-02-CN probe is mounted radially against a rotating shaft — a compressor, turbine, pump, or motor — where it continuously measures the gap between the probe tip and the target surface. This analog displacement signal travels through a matched Bently Nevada 3300 Series extension cable to a 3300 XL proximitor sensor, which conditions the signal into a calibrated DC voltage output. This voltage is then wired into a Bently Nevada 3500/42M Proximitor Monitor card seated within the 3500 Series rack, where it is digitized, compared against alarm setpoints, and made available to the plant network.
From the 3500 rack’s communication gateway module, vibration data is transmitted via Modbus TCP/IP to a Siemens S7-300 PLC or Allen-Bradley ControlLogix controller managing the broader process automation loop. Simultaneously, the data stream feeds a Wonderware InTouch HMI or GE iFIX SCADA node for real-time operator visualization. In facilities deploying edge computing, an industrial edge gateway — such as a Moxa MGate or Advantech ADAM module — aggregates the Modbus data and forwards it via OPC-UA to a cloud-based condition monitoring platform or enterprise historian. Variable frequency drives controlling the monitored machinery can also receive alarm signals from the 3500 rack, enabling automated speed reduction or shutdown sequences when vibration thresholds are exceeded. Remote I/O modules distributed across the plant floor relay auxiliary sensor data — temperature, pressure, flow — alongside the vibration channel, creating a unified data fabric that supports both real-time protection and long-term predictive maintenance analytics.
One of the most persistent challenges in industrial facilities is the fragmentation of machinery health data across incompatible protocols and isolated monitoring islands. Legacy vibration monitoring systems often operate on proprietary communication stacks that cannot natively interface with modern PLC networks or SCADA platforms, creating data silos that prevent plant-wide visibility and timely decision-making.
The Bently Nevada 330104-00-07-10-02-CN, integrated within the 3500 Series architecture, directly addresses this challenge. By bridging the physical sensing layer to standard industrial protocols — Modbus RTU for serial PLC integration, Modbus TCP/IP for Ethernet-based DCS connectivity, and OPC-UA for secure, platform-agnostic data exchange — the system eliminates protocol barriers between the vibration monitoring domain and the broader plant automation network. Operators gain a single, unified view of rotating machinery health within their existing SCADA or HMI environment, without requiring parallel monitoring infrastructure.
Remote diagnostics capability is equally critical. With the 3500 rack’s network interface active, maintenance engineers can interrogate alarm states, review waveform data, and adjust setpoints from a central control room or remote workstation — reducing the need for physical site visits and accelerating fault response times. Production line transparency improves as vibration trends become visible alongside process variables such as flow rate, temperature, and motor load, enabling correlation analysis that supports root-cause identification. System expansion is straightforward: additional 330104-series probes and monitor cards can be added to the 3500 rack without disrupting the existing network configuration, supporting phased rollouts across multiple machine trains. Every unit supplied by ZYPLC undergoes pre-shipment functional testing and is backed by a 12-month warranty, ensuring network-ready performance from day one.
Q1: What communication protocols does the Bently Nevada 330104-00-07-10-02-CN support for SCADA integration?
The probe itself outputs an analog DC signal, which is processed by the 3300 Series proximitor and fed into the Bently Nevada 3500 Series rack. The 3500 rack’s gateway module supports Modbus RTU, Modbus TCP/IP, and OPC-UA, enabling direct integration with SCADA, DCS, and HMI platforms without additional protocol converters.
Q2: How does this probe perform in terms of communication latency for real-time machinery protection?
The 3500 Series monitoring system processes vibration data at high scan rates with alarm response times typically under 1 second, meeting the real-time protection requirements of API 670-compliant machinery monitoring. Network transmission latency via Modbus TCP/IP is negligible for protection-grade applications.
Q3: Can the 330104-00-07-10-02-CN be integrated into an existing PLC or DCS network without replacing the current SCADA system?
Yes. The 3500 rack communicates via standard industrial protocols, allowing the vibration monitoring data to be mapped as registers or tags within an existing PLC or DCS configuration. No SCADA replacement is required — the vibration channel simply appears as additional process data within the existing operator interface.
Q4: What warranty and pre-shipment testing does ZYPLC provide for this unit?
All Bently Nevada 330104-00-07-10-02-CN units supplied by ZYPLC are covered by a 12-month warranty and undergo pre-shipment functional verification to confirm signal output, cable integrity, and connector condition. In-stock units are available for immediate dispatch to minimize production downtime.
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