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- Overview
- Quick Detail
- Description
- Applications
- Specifications
- Competitive Advantage
- Recommended Products
Overview
Place of Origin: |
USA |
Brand Name: |
Bently Nevada |
Model Number: |
330180-X1-05 MOD:145347-05 |
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
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Total Length and Mounting Option: |
1.0 meter (3.3 feet) system length, no mounting hardware |
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Agency Approval Option: |
CSA, ATEX, IECEx Approvals |
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Proximitor Sensor Input: |
Accepts one non-contacting 3300-series 5 mm, 3300 XL 8 mm Proximity Probe and Extension Cable |
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Power: |
-17.5 Vdc to -26 Vdc |
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Proximitor Sensor Material: |
A308 aluminum |
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Supply Sensitivity: |
Less than 2 mV change in output voltage per volt change in input voltage |
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Dimension: |
8.7x2.8x7cm |
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Weight: |
0.24kg |
Description
The 330180-X1-05 MOD:145347-05 3300 XL Proximitor Sensor is an advanced eddy-current proximity monitoring unit designed for industrial automation systems requiring highly accurate vibration and position feedback. As part of the 3300 XL Proximity Transducer family, this Proximitor Sensor accepts non-contact 3300-series 5 mm and 3300 XL 8 mm proximity probes and is optimized for real-time monitoring of critical rotating machinery such as compressors, turbines, pumps, and fluid-film bearing equipment. Operating from −17.5 Vdc to −26 Vdc and delivering a wide frequency response of 0 to 10 kHz (±3 dB with up to 305 m field wiring), the 3300 XL Proximitor Sensor ensures precise dynamic vibration and static displacement measurements for predictive maintenance and condition-based monitoring.
The MOD:145347-05 variant is constructed from A308 aluminum housing and meets CSA, ATEX, and IECEx hazardous-area approvals, supporting deployment in petrochemical, gas compression, and refinery automation environments. With a robust temperature rating from −52°C to +100°C and supply sensitivity of less than 2 mV per volt input variation, the 330180-X1-05 Proximitor Sensor maintains signal integrity under thermal stress and electrical noise. Its backward compatibility with legacy 3300-series components reduces installation cost, while a minimum target size of 15.2 mm enables reliable proximity tracking on confined machinery surfaces. These capabilities make the 3300 XL Proximitor Sensor a preferred choice for automation OEMs, plant reliability teams, and vibration monitoring integrators seeking long-term performance and low-maintenance machinery protection.
Applications
Application 1: Turbine Shaft Vibration Monitoring
Used on steam and gas turbines operating between 3,000–12,000 rpm, the 3300 XL Proximitor Sensor provides dynamic vibration data to detect rotor instability, rubs, and imbalance. With 0–10 kHz frequency response, it captures early-stage vibration anomalies that, if untreated, may reduce turbine efficiency by 3–7% annually.
Application 2: Compressor Axial Position Measurement
In axial-loaded gas compressors, the Proximitor Sensor measures shaft thrust displacement where variations of 50–150 μm can indicate bearing degradation. Continuous axial position tracking enables predictive shutdown strategies that reduce unplanned outages by up to 40%.
Application 3: Pump Condition-Based Maintenance
For refinery and pipeline pumps operating 24/7, the Proximitor Sensor detects vibration amplitudes caused by cavitation and mechanical looseness. Field studies show vibration-triggered maintenance reduces pump seal failure events by 30–45%.
Application 4: Keyphasor Speed Measurement in Rotating Machinery
Keyphasor reference signals derived from the 3300 XL enable precision speed measurement up to tens of thousands rpm. Accurate phase and speed data assist in balancing operations, improving vibration balancing results by 20–35%.
Application 5: Fluid-Film Bearing Displacement Monitoring
The sensor supports non-contact displacement measurement for fluid-film bearings, where oil-film clearance is typically 50–100 μm. Real-time feedback prevents shaft-to-bearing contact failures that can otherwise cause catastrophic damage costing USD 50,000–250,000 per event.
Specifications
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Output Resistance: |
50 Ω |
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Operating Temperature: |
-52°C to +100°C (-62°F to +212°F) |
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Storage Temperature: |
-52°C to +105°C (-62°F to +221°F) |
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Frequency Response: |
(0 to 10 kHz), +0, -3 dB, with up to 305 meters (1000 feet) of field wiring |
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Minimum Target Size: |
15.2 mm (0.6 in) diameter (flat target) |
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Output Voltage in Mil pp/Gauss(9 meter Proximitor Sensor): |
0.0247 (Gap: 10) |
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Output Voltage in Mil pp/Gauss(9 meter Proximitor Sensor): |
0.0323 (Gap: 50) |
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Output Voltage in Mil pp/Gauss(9 meter Proximitor Sensor): |
0.0348 (Gap: 90) |
Competitive Advantage
Advantage 1: High Environmental Durability
Operating from −52°C to +100°C and certified to CSA, ATEX, IECEx, the sensor supports harsh petrochemical and refinery field conditions, expanding deployment compatibility by over 60% vs non-certified sensors.
Advantage 2: Long-Distance Signal Integrity
With up to 305 m field wiring and ±3 dB stability at 10 kHz, the 3300 XL maintains low-noise output over long cable runs, reducing signal conditioning hardware costs by 15–20%.
Advantage 3: Backward Component Compatibility
Interchangeable with legacy 3300 5 mm and 8 mm systems, eliminating probe matching requirements and reducing installation labor time by 25–40% during retrofit upgrades.
Advantage 4: Low Power and Low Noise Design
Input power of −17.5 to −26 Vdc with supply sensitivity <2 mV per volt prevents electrical noise propagation in automation cabinets, improving vibration measurement accuracy by 10–18%.
Advantage 5: Reduced Maintenance Through Non-Contact Sensing
Non-contact eddy-current mechanism enables zero mechanical wear. Lifecycle field data shows non-contact proximity sensing extends machinery monitoring intervals by 2× compared to contact-based transducers.
