Model Number:330500-02-04
Brand:Bently Nevada
Sensor Type:Piezo-Velocity
Operating Frequency Range:10 Hz – 1 kHz
Measurement Units:Velocity (m/s)
Response Time:10 ms
Accuracy:± 1% of Full Scale
Operating Temperature:-40°C to +150°C
Shock Resistance:15 g peak for 30 ms
Environmental Protection:IP67
Power Supply Voltage:DC 12 V to 24 V
Power Consumption:≤ 50 mA
Communication Interface:BNC
Mounting Type:Vibration Mount
Weight:≤ 200 g
Length:≤ 300 mm
Width:≤ 50 mm
Height:≤ 30 mm
Connectors:Gold-plated pins
The Bently Nevada 330500-02-04 Piezo-Velocity Sensor is engineered to provide continuous, real-time monitoring of velocity in industrial machinery. This sensor utilizes advanced piezoelectric technology to accurately detect and measure vibrations, which is crucial for predictive maintenance and fault detection.
Featuring an extended operating temperature range from -40°C to +150°C, this sensor is designed to withstand harsh industrial conditions, ensuring reliability even in extreme environments. Its shock resistance rating of 15 g peak for 30 ms makes it suitable for applications where machinery may experience sudden mechanical impacts.
With its IP67 environmental protection rating, the sensor is protected against dust ingress and can be used in outdoor or dusty industrial settings without concern for moisture or dust exposure. The compact size and lightweight design facilitate easy installation and integration into existing machinery.
The sensor employs a standard BNC connector for easy connection to data acquisition systems, simplifying installation and maintenance processes. The power consumption of ≤ 50 mA ensures efficient operation without overloading auxiliary power supplies.
This product comes with a comprehensive set of specifications, backed by years of Bently Nevada’s expertise in industrial sensor technology. It is ideal for a wide range of applications including, but not limited to, oil & gas, chemical processing, aerospace, and automotive industries, where precise velocity measurement is critical for operational safety and efficiency.
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