Overview
Bently Nevada 330193-10-17-10-00 Maintenance-Proven Spare Part for Factory Uptime
The Bently Nevada 330193-10-17-10-00 is an original proximity probe engineered for the 3300 XL Enhanced Transient Recording (ETR) vibration monitoring system. Designed for continuous-duty industrial environments, this probe delivers reliable shaft displacement and vibration measurements critical to rotating machinery protection in power generation, oil & gas, petrochemical, and heavy manufacturing facilities. Maintaining an on-hand inventory of the 330193-10-17-10-00 is a proven strategy for minimizing unplanned downtime and accelerating fault recovery when vibration anomalies trigger protective shutdowns.
Maintenance engineers and procurement teams working with Bently Nevada 3300 XL ETR systems recognize that the proximity probe is the first point of failure in a vibration monitoring loop. When a probe fails — whether due to cable damage, tip contamination, or signal drift — the entire channel goes offline, leaving the machine unprotected or triggering a false trip. Stocking the 330193-10-17-10-00 as a certified spare eliminates the lead-time risk associated with emergency procurement and ensures that field technicians can execute a like-for-like replacement within a single maintenance window.
Every unit shipped by KNMKS undergoes pre-shipment electrical verification, including output voltage linearity check, gap sensitivity confirmation, and cable continuity test. A support terms confirmed by quotation cover manufacturing defects and performance deviations from published specifications, giving procurement engineers the confidence to include this part in long-term maintenance contracts and annual MRO budgets.
Spare Maintenance Table
| Part Number / SKU | 330193-10-17-10-00 |
| Brand | Bently Nevada |
| Series | 3300 XL ETR (Enhanced Transient Recording) |
| Product Type | Eddy-Current Proximity Probe |
| Probe Tip Diameter | 8 mm (standard) |
| Cable Length | 1.0 m integral cable (extension cable ordered separately) |
| Linear Range | 0.25 mm – 2.26 mm (10 mil – 90 mil) |
| Scale Factor | 7.87 V/mm (200 mV/mil) |
| Supply Voltage | –24 VDC (nominal), compatible with 3300 XL driver/extension |
| Operating Temperature | –35 °C to +177 °C (probe tip) |
| Target Material | AISI 4140 steel or equivalent ferromagnetic alloy |
| Connector | Standard BNC / TNC (per system configuration) |
| Compatibility | Bently Nevada 3300 XL ETR monitor, 3300 XL 8mm driver/extension assemblies |
| Application Environment | Steam turbines, gas turbines, compressors, pumps, gearboxes, fans |
| Installation Standard | API 670 (Machinery Protection Systems) |
| Maintenance Recommendation | Inspect probe tip and cable jacket every 6 months; replace at first sign of tip wear or signal drift >5% |
| Support terms | 12 Months — covers manufacturing defects and out-of-spec performance |
| Origin | USA |
| Pre-Shipment Test | Yes — output linearity, gap sensitivity, cable continuity |
Maintenance Planning for Continuous Operation
A proximity probe replacement is rarely an isolated task. When a 330193-10-17-10-00 probe is pulled from service, a disciplined maintenance engineer will simultaneously inspect the complete vibration monitoring loop to prevent a repeat failure or a latent fault from surfacing after restart. The 3300 XL ETR system architecture means the probe works in series with several interdependent components, each of which should be evaluated during the same maintenance window.
Begin with the 3300 XL 8 mm extension cable assembly (typically the 330130 series). Extension cables are subject to mechanical fatigue at conduit entry points and connector corrosion in humid or chemically aggressive environments. A probe replacement that leaves a degraded extension cable in place will produce the same signal anomaly within weeks. Next, verify the 3300 XL driver/extension module — the active electronics that power the probe and condition its output signal. Driver modules can develop bias voltage drift over time, which shifts the probe’s apparent gap reading and triggers nuisance alarms even with a new probe installed.
At the monitor rack level, inspect the 3300 XL ETR monitor card itself for firmware currency and channel calibration. If the monitor has been in service for more than five years, consider scheduling a full channel recalibration against a known reference gap. While the rack is open, check the 3300 XL power supply module — an under-voltage condition on the –24 VDC rail will degrade probe sensitivity and produce erratic Keyphasor® readings that complicate vibration analysis.
For facilities running integrated machinery protection and condition monitoring, the System 1 Evolution software interface and its associated communication modules should be verified for connectivity after any hardware swap. A probe replacement that is not properly acknowledged in the historian will create data gaps that compromise trend analysis and predictive maintenance scheduling.
Finally, review the Keyphasor® transducer (commonly the 330180 series) installed on the same shaft. The Keyphasor signal is the phase reference for all vibration vectors; a worn or misaligned Keyphasor probe will corrupt the 1X and 2X amplitude data collected by the newly installed 330193-10-17-10-00, making post-replacement vibration signatures difficult to interpret. Completing this five-point inspection — probe, extension cable, driver module, monitor card/power supply, and Keyphasor — transforms a reactive replacement into a proactive maintenance event that restores full system integrity and extends the interval to the next intervention.
Site Replacement Workflow
Step 1 — Isolation and documentation. Before removing the 330193-10-17-10-00, record the existing gap voltage (typically –10 VDC ± 0.5 V at the nominal air gap) from the monitor display or System 1 trend screen. This baseline confirms the replacement probe is gapped correctly after installation and provides a reference for post-maintenance acceptance testing.
Step 2 — Physical removal. Disconnect the extension cable at the driver module first to de-energize the probe circuit. Remove the probe from its bracket using the appropriate spanner, taking care not to rotate the cable assembly. Note the probe tip-to-shaft gap with a feeler gauge before extraction if the bracket position will be reused.
Step 3 — New probe installation. Thread the 330193-10-17-10-00 into the bracket and set the air gap to the value specified in the original installation record (typically 1.0 mm / 40 mil for standard 8 mm probes on steel targets). Reconnect the extension cable and restore –24 VDC supply to the driver module.
Step 4 — Functional verification. Confirm the gap voltage on the monitor channel matches the pre-removal baseline within ±0.2 V. Check that the channel alarm status clears and that the System 1 historian resumes data logging on the replaced channel. Document the replacement in the equipment maintenance record with the new probe serial number and gap setting.
Step 5 — Return to service. Notify the control room that the vibration monitoring channel is restored and confirm that the machine protection system is fully armed before releasing the equipment for restart. This structured workflow reduces mean time to repair (MTTR) and eliminates the risk of returning a machine to service with an improperly gapped or uncalibrated probe.
Spare Parts Support FAQ
Q1: Is the 330193-10-17-10-00 a direct drop-in replacement for older 3300 series proximity probes?
The 330193-10-17-10-00 is designed for the 3300 XL ETR platform and is mechanically and electrically compatible with standard 3300 XL 8 mm driver/extension assemblies. If your existing installation uses an earlier 3300 series driver, verify the driver part number against Bently Nevada’s compatibility matrix before installation. KNMKS technical support can assist with compatibility confirmation prior to order placement.
Q2: How does KNMKS verify the probe before shipment?
Each 330193-10-17-10-00 unit undergoes a three-point pre-shipment test: output voltage linearity across the full linear range, gap sensitivity at the nominal 1.0 mm air gap, and full cable continuity from probe tip to connector. Test records are available upon request and accompany the unit’s support terms confirmed by quotation certificate.
Q3: What is the recommended inventory strategy for this probe in a multi-machine facility?
For facilities operating three or more machines monitored by 3300 XL ETR systems, KNMKS recommends maintaining a minimum of two 330193-10-17-10-00 probes in the on-site spare parts store. This buffer covers simultaneous failures on different machines and eliminates single-point-of-failure risk in the spare parts supply chain. Annual replenishment orders placed through KNMKS qualify for priority lead-time commitments.
Q4: Can KNMKS support long-term supply agreements for this part?
Yes. KNMKS offers blanket purchase order arrangements and scheduled delivery programs for the 330193-10-17-10-00 and associated 3300 XL ETR components. Long-term supply agreements include price stability commitments, dedicated stock reservation, and expedited shipping options for emergency requirements. Contact [email protected] or +86 18359268345 to discuss a supply agreement tailored to your maintenance schedule.
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Product Identification
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Bently Nevada
Bently Nevada - Model / Series
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330193-10-17-10-00
Bently Nevada 3300 XL / 3301 Series - Product Family
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