The Bently Nevada 990-05-XX-01-00 Vibration Transmitter is engineered to provide unparalleled accuracy in monitoring the health of critical machinery, ensuring reliability and reducing downtime in industrial operations.
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The Bently Nevada 990-05-XX-01-00 Vibration Transmitter is engineered to provide unparalleled accuracy in monitoring the health of critical machinery, ensuring reliability and reducing downtime in industrial operations.
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Brand:Bently Nevada
Model:990-05-XX-01-00
Module Category:Vibration Transmitters
Sensor Type:Electrical
Output Frequency:50 kHz
Certification:Industry Standard Certified
Operating Temperature Range:-40°C to +85°C
Installation Type:Non-contact
Material Coding:Aluminum Alloy
Package Casing:Injection Molding
Termination Type:Gold Connector
Sensing Range:0.01 to 1 mm Peak-Peak
Sensitivity:1 μm/10 mm/s RMS
Power Supply Voltage:DC 12 to 24 V
Operating Humidity:0% to 95% RH (non-condensing)
The Bently Nevada 990-05-XX-01-00 Vibration Transmitter is engineered to provide continuous, real-time monitoring of critical machinery parameters, ensuring optimal operational efficiency and minimizing downtime.
Crafted from high-grade materials with superior thermal resistance, this transmitter is built to withstand harsh industrial conditions, delivering consistent performance over extended periods.
Featuring a gold-plated connector for enhanced conductivity and durability, our transmitter ensures reliable data transmission without interference, even in challenging environments.
The non-contact installation type allows for easy and safe placement, reducing maintenance efforts and risk to personnel.
Designed with flexibility in mind, the Bently Nevada 990-05-XX-01-00 is compatible with a wide range of equipment, including steam turbines, and can be customized to fit specific application requirements.
Backed by comprehensive technical support and a legacy of innovation, Bently Nevada guarantees the highest level of service and support for our customers, ensuring peace of mind and long-term reliability.
