The Bently Nevada 330500-02-01 Velomitor Piezo-velocity Sensor is engineered for high-performance vibration monitoring in industrial machinery. This compact 8 mm sensor excels in providing precise measurements of axial position, radial vibration, and tachometer outputs. Its versatility makes it ideal for applications involving fluid-film bearing machines, ensuring reliable and accurate data collection in space-constrained environments.
Designed to maintain a sensitivity of 3.94 mV/mm/s (±5%) and capable of measuring velocities up to 1270 mm/s, the sensor operates effectively in demanding conditions. The 330500-02-01 is an essential component for predictive maintenance programs, helping to ensure operational safety and prevent equipment failures in turbines, compressors, and other rotating machinery.
The model number 330500-02-01 provides important insights into the sensor's features:
330500: Indicates the model series within the Bently Nevada Velomitor sensors.
02: Represents specific design modifications or enhancements for performance.
01: Signifies the particular configuration and technical specifications.
| Parameter | Specification |
|---|---|
| Model Number | 330500-02-01 |
| Module Type | Velomitor Piezo-velocity Sensor |
| Manufacturer | Bently Nevada |
| Condition | Brand New |
| Range of Product | Bently Nevada |
| Lead Time | In Stock |
| Weight | 0.16 kg |
| HS CODE | 8537101190 |
| Dimensions | 2.5 x 2.5 x 7.2 cm |
| Minimum Order Quantity (MOQ) | 1 |
| Product Origin | USA |
| System Compatibility | TSI |
| Discontinued | Active |
| Communication Service | Ethernet router |
| Sensitivity | 3.94 mV/mm/s (±5%) |
| Velocity Range | Up to 1270 mm/s peak |
| Thread Configuration | M8 x 1 |
| Operating Temperature Range | -40 °C to +85 °C |
| Transverse Sensitivity | < 5% |
To ensure optimal performance of the Bently Nevada 330500-02-01 Velomitor Piezo-velocity Sensor, consider the following guidelines:
Mechanical Clearance: Maintain adequate spacing during installation to allow for accurate measurements and prevent interference from other equipment.
Wiring Connections: Use the M8 threaded connection for a secure fit. Ensure all connections are clean and tight to optimize signal integrity.
Cable Management: Protect the sensor and cable from mechanical damage, avoiding kinks and sharp bends during installation.
Grounding: Proper grounding minimizes electrical noise, which can negatively impact measurement accuracy.
Environmental Protection: Ensure that the installation area avoids excessive fluids or contaminants to maintain the sensor's functionality and longevity.
The Bently Nevada 330500-02-01 Velomitor Piezo-velocity Sensor is designed for exceptional durability and reliability in harsh industrial environments. Its robust construction, built from high-quality materials, allows it to withstand extreme temperatures and operating conditions while maintaining accurate performance. With an operating temperature range of -40 °C to +85 °C, this sensor remains effective even in the most demanding scenarios.
The sensor's low transverse sensitivity ensures that it provides reliable and consistent data, which is critical for effective condition-based monitoring and predictive maintenance strategies. As a part of the Bently Nevada system, the 330500-02-01 seamlessly integrates into existing setups, enhancing monitoring capabilities without requiring extensive modifications.
Q1: What applications is the Bently Nevada 330500-02-01 Velomitor Sensor designed for?
A1: This sensor is ideal for monitoring vibration and axial position in rotating machinery, particularly in applications involving fluid-film bearings.
Q2: How does the sensor maintain accuracy in varying temperatures?
A2: The sensor features a temperature-compensated design that ensures consistent performance across a wide operating temperature range.
Q3: What is the significance of the sensor's low transverse sensitivity?
A3: Low transverse sensitivity ensures that measurement data is reliable and accurate, reducing the impact of extraneous vibrations on the output.
Q4: Can the probe be used in hazardous environments?
A4: Yes, the sensor meets robust industrial standards, making it suitable for use in various challenging environments.
Q5: What maintenance practices should be observed for this sensor?
A5: Regularly check wiring connections for security, monitor the sensor for signs of wear, and ensure it is protected from environmental hazards to maintain optimal performance.
