- Overview
- Quick Detail
- Description
- Applications
- Specifications
- Competitive Advantage
- Recommended Products
Overview
Place of Origin: |
USA |
Brand Name: |
Bently Nevada |
Model Number: |
330173-00-06-10-02-00 |
Packaging Details: |
Original new Factory Sealed |
Delivery Time: |
5-7 days |
Payment Terms: |
T/T |
Supply Ability: |
In stock |
Quick Detail
|
Unthreaded Length Option: |
0.0 mm |
|
Overall Case Length Option |
2.5 in |
|
Total Length Option |
60 mm |
|
Connector Option |
Miniature coaxial ClickLoc™ connector, standard cable |
|
Agency Approval Option |
Not required |
|
Probe Case Thread: |
M8 x 1 thread |
|
Maximum Length of Thread Engagement: |
Maximum Rated:7.3 N•m (65 in•lb);Recommended:5.1 N•m (45 in•lb) |
|
Dimension: |
1.3x1.1x119cm |
|
Weight: |
0.04kg |
Description
The 330173-00-06-10-02-00 3300 5 mm Proximity Probe measures both static position and dynamic vibration with a linear range of 2 mm. Its M8 x 1 threaded probe supports up to 7.3 N•m torque, with recommended 5.1 N•m. Operating from -52°C to +177°C, the probe features 50 Ω output resistance, <2 mV supply sensitivity, and extension cable capacitance of 69.9 pF/m. The miniature coaxial ClickLoc™ connector with standard cable supports field wiring of 0.2–1.5 mm². 330173-00-06-10-02-00 3300 5 mm Proximity Probes are ideal for fluid-film bearing vibration monitoring, speed measurements, and Keyphasor reference in automated machinery. Optional extended temperature range probes reach 218°C, while ETR cables handle up to 260°C, maintaining 3300 system performance. The patented TipLoc and CableLoc designs ensure robust probe tip and cable attachment, suitable for automated industrial environments.
Applications
Application Monitoring Vibration on Fluid-Film Bearings
The 330173-00-06-10-02-00 3300 5 mm Proximity Probe measures dynamic vibration with a 2 mm linear range. Its output voltage is proportional to the distance from the conductive surface. Use the probe threaded M8 x 1 and torque up to 5.1 N•m to secure the probe on bearing housings. Operating temperature from -52°C to +177°C ensures reliable data collection during high-speed rotation.
Application Measuring Shaft Position
Install 330173-00-06-10-02-00 3300 5 mm Proximity Probe to detect static shaft displacement. The 50 Ω output resistance and <2 mV supply sensitivity provide precise position readings. Use standard field wiring 0.2–1.5 mm² and the ClickLoc™ miniature coaxial connector for easy connection to automation control systems.
Application Speed and Keyphasor Measurement
The 330173-00-06-10-02-00 3300 5 mm Proximity Probe supports Keyphasor signals and shaft speed measurements. Extension cable capacitance of 69.9 pF/m ensures minimal signal loss. Use the probe with Proximitor sensors to feed accurate speed data into PLCs or condition monitoring systems.
Specifications
|
Operating and Storage Temperature: |
-52°C to +177°C (-62°F to +350°F) |
|
Supply Sensitivity: |
Less than 2 mV change in output voltage per volt change in input voltage |
|
Output Resistance: |
50 Ω |
|
Extension Cable Capacitance: |
69.9 pF/m (21.3 pF/ft) typical |
|
Field Wiring: |
0.2 to 1.5 mm2 (16 to 24 AWG) |
|
Linear Range: |
2 mm (80 mils) |
Competitive Advantage
Competitive Advantage Robust Probe Tip Bond
The patented TipLoc molding of 330173-00-06-10-02-00 3300 5 mm Proximity Probe secures the probe tip to the case. This design maintains the linear output across temperature ranges and prevents detachment during cable pull tests up to 330 N.
Competitive Advantage Fluid-Sealed Cable Connection
CableLoc design on 330173-00-06-10-02-00 3300 5 mm Proximity Probe provides 330 N pull strength and allows optional FluidLoc sealing. This prevents oil or lubricant leakage through the probe cable, enabling safe integration into industrial lubrication systems.
Competitive Advantage Extended Temperature Usage
The extended temperature range (ETR) option for 330173-00-06-10-02-00 3300 5 mm Proximity Probe reaches 218°C for probes and 260°C for extension cables. Use ETR components with standard 3300 XL Proximitor sensors to monitor high-temperature turbines or steam machinery without reducing measurement accuracy