330180-X1-05 MOD：145004-63 3300 XL Proximitor Sensor

Overview

Place of Origin:	USA
Brand Name:	Bently Nevada
Model Number:	330180-X1-05 MOD：145004-63
Minimum Order Quantity:	1
Packaging Details:	Original new Factory Sealed
Delivery Time:	5-7 days
Payment Terms:	T/T
Supply Ability:	In stock

Quick Detail

Description

The 330180-X1-05 MOD:145004-63 3300 XL Proximitor Sensor is a high-performance eddy-current proximity conditioning unit engineered for industrial automation and machinery protection systems. Compatible with the 3300-series 5 mm and 3300 XL 8 mm proximity probes and extension cables, this Proximitor Sensor enables non-contact dynamic vibration and static displacement measurement on rotating assets including pumps, turbines, compressors, and fluid-film bearing equipment. The MOD:145004-63 variant features CSA, ATEX, and IECEx approvals for deployment in hazardous petrochemical and power generation environments.

With a wide frequency response of 0 to 10 kHz (±3 dB with up to 305 m field wiring), supply sensitivity of less than 2 mV per volt, and operational temperature range from −52°C to +100°C, the 3300 XL Proximitor Sensor maintains accurate proximity and vibration monitoring under thermal and electrical stress. Constructed from A308 aluminum and offering 1.0 meter system length, the device ensures stable output for Keyphasor speed measurements, shaft displacement tracking, and predictive maintenance strategies. Backward compatibility with legacy 3300 transducer systems reduces integration effort while supporting full interchangeability without probe matching, aligning with API 670 practices for machinery monitoring. These features make the 330180-X1-05 3300 XL Proximitor Sensor a reliable solution for condition monitoring, asset reliability optimization, and automation system retrofits.

Applications

Application 1: Turbine Rotor Vibration Monitoring
Used in steam and gas turbines operating from 3,000–12,000 rpm, the 3300 XL sensor captures vibration amplitude and frequency content required to detect rubs, imbalance, and instability. Early detection can prevent efficiency losses of 3–6% per year and reduce forced outage risk.

Application 2: Compressor Axial Thrust Position Measurement
In gas and process compressors, axial displacement typically varies 50–150 μm as bearings age. Continuous monitoring enables thrust balance assessment and reduces unplanned shutdown events by up to 40%, improving plant throughput.

Application 3: Pump Predictive Condition Maintenance
For refinery and pipeline pumps operating continuously, the Proximitor Sensor identifies cavitation and looseness-induced vibration signatures. Predictive maintenance using proximity data extends pump seal life by 30–45% and reduces failure-related downtime.

Application 4: Keyphasor Speed and Phase Measurement
The sensor supports Keyphasor reference signals for phase analysis and speed measurement up to tens of thousands rpm. Accurate phase data improves balancing operations by 20–35% and reduces vibration amplitude post-correction.

Application 5: Fluid-Film Bearing Displacement Control
Fluid-film bearings rely on oil clearances of about 50–100 μm. Proximity sensing prevents contact events that otherwise may result in catastrophic damage costing USD 50,000–250,000 per failure event and ensures longer bearing service duration.

Specifications

Competitive Advantage

Advantage 1: Hazard-Area Certification and Deployment Flexibility
CSA, ATEX, and IECEx approvals enable safe use in petrochemical and energy sectors, expanding deployment coverage by more than 60% compared to non-certified proximity systems.

Advantage 2: Superior Long-Distance Signal Integrity
With up to 305 m of field wiring and ±3 dB frequency stability, the 3300 XL reduces the need for additional signal conditioning, lowering installation and wiring costs by 15–20%.

Advantage 3: Backward Compatibility and Interchangeability
Interchangeable with legacy 3300 5 mm and 8 mm systems, eliminating bench calibration and reducing integration labor by 25–40% during retrofit modernization projects.

Advantage 4: High Thermal and Electrical Robustness
Operating from −52°C to +100°C with supply sensitivity <2 mV per volt input variation, the sensor maintains measurement accuracy under thermal cycling and electrical noise, improving vibration detection fidelity by 10–18%.

Advantage 5: Non-Contact Proximity Sensing Reduces Wear
The eddy-current non-contact method eliminates mechanical degradation common in contact sensors. Proximity-based monitoring extends machine condition evaluation windows by 2× and lowers maintenance intervention frequency.