Measurement Range:0 to 9999 counts
Operating Temperature:-40°C to +70°C
Signal Output:4 to 20 mA
Accuracy:+/- 0.25%
Power Supply:9 to 32 VDC
Frequency Response:1 to 10 kHz
Probe Type:Dual
Connection:M12 x 1, 0.8 mm pitch
Material:Stainless Steel
IP Rating:IP65
The Bently Nevada 26530 Dual Probe Transducer is engineered for industries requiring unparalleled accuracy in vibration monitoring. It is capable of measuring vibrations across a broad frequency range, from 4 Hz to 1 kHz, making it ideal for applications involving high-speed machinery. The transducer offers exceptional precision with an accuracy of +/- 1% of the reading, ensuring reliable data for maintenance and predictive analysis.
Equipped with advanced LVDT technology, this transducer provides a 4-20 mA current loop output signal, which is compatible with various control systems. It is designed to operate efficiently within a wide power supply voltage range of 12 to 30 VDC, ensuring robust performance under varying electrical conditions.
Operational in extreme temperatures ranging from -40°C to +85°C, the Bently Nevada 26530 is built to withstand harsh industrial environments. Its stainless steel probe material ensures durability and resistance against corrosion, guaranteeing longevity and reliability in continuous operation.
For enhanced accuracy and adaptability, the transducer utilizes a probe length of 3 inches and a diameter of 0.3 inches. The compact design allows for easy installation in tight spaces without compromising on performance. The inclusion of a precise sensor type ensures consistent and accurate measurement results, making it indispensable for predictive maintenance programs and condition-based monitoring strategies.
In summary, the Bently Nevada 26530 Dual Probe Transducer is a versatile solution for industries seeking advanced vibration monitoring capabilities. Its comprehensive feature set, including a wide operating range, high accuracy, and robust construction, makes it an optimal choice for enhancing operational safety, improving machinery efficiency, and driving productivity in demanding industrial settings.
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