Brand:Bently Nevada
Model Number:990-05-XX-01-00, 289549-01
Operating Frequency:30 kHz
Output Type:Voltage
Sensing Range:2 mm
Sensitivity:1 um
Temperature Range:-40°C to +125°C
Operating Voltage:24 VDC
Material:Stainless Steel
Installation Type:Non-contact
Package Type:Injection Molding
Termination Type:Gold Connector
Certification:ISO 9001, CE
The Bently Nevada 990-05-XX-01-00 vibration transmitter is engineered for unparalleled reliability and accuracy, making it an indispensable tool in the continuous operation of industrial machinery. This device utilizes advanced signal processing techniques to convert mechanical vibrations into precise electrical signals, providing real-time data on machine health.
Equipped with a robust IP65 enclosure, this transmitter is designed to withstand harsh industrial environments, ensuring uninterrupted operation even in challenging conditions. Its wide operating temperature range (-40°C to +85°C) ensures compatibility across various industrial settings.
With its 4-20 mA analog current output, the Bently Nevada 990-05-XX-01-00 is compatible with a broad range of data acquisition systems, facilitating seamless integration into existing industrial control networks. The transmitter’s sensitivity of 1 μm per 100 RPM allows for precise monitoring of machinery movements, enabling proactive maintenance schedules and reducing unexpected downtime.
The direct bolt-on installation design simplifies the process of mounting the transmitter onto machinery, minimizing downtime during setup or maintenance procedures. Additionally, the proprietary Bently Nevada communication interface ensures secure and reliable data transmission, guaranteeing accurate and timely information delivery to control systems.
Backed by the reputation of Bently Nevada, this vibration transmitter is certified for use in demanding industrial applications, offering peace of mind to operators and maintenance teams. With its combination of precision, durability, and ease of integration, it stands as a key component in maintaining operational efficiency and safety within industrial plants.
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