The BENTLY 3500/22M is a transient data interface module manufactured by Bently Nevada. The following is a specific introduction to its parameters, specifications, dimensions, weight, series, characteristics and functions:
Parameters and specifications:
Input signal: It can receive voltage signals from -10 Vdc to +10 Vdc, while it can also accept standard analog signals such as 4-20mA, 0-5V, 0-10V, as well as digital signals such as Modbus, Profibus, etc.
Power consumption: Approximately 7.7 watts.
Shaft power supply and sensor power supply: both -24 Vdc.
Size and weight:
Size: There are two possible descriptions, one is 138x 138x 25mm and the other is 9.50 x 4.50 x 1.00 inches (approximately 241.3 x 114.3 x 25.4mm). This may be due to differences between versions or different units of measurement.
Weight: There are several possible weight figures, including 0.5kg, 0.85 lb (about 0.386kg), 1.2kg, and 1.6kg.
Series:
The BENTLY 3500/22M belongs to Bently Nevada’s 3500 series, a family of products used by the company in industrial equipment monitoring and vibration analysis systems.
Features:
Data acquisition: The acquisition of transient data such as vibration, pressure, temperature, etc. from sensors or other monitoring devices.
Data processing: Processing and analysis of the collected transient data, which may include filtering, amplification, sampling and other operations.
Communication processing: As part of the communication processing capabilities of the 3500 rack, some tasks are shared with the entire rack.
Optional Channel Enable disk: Used to record dynamic, high-resolution transient data.
Functions:
The main role of the BENTLY 3500/22M module is as a transient data interface for interconnecting with software compatible with the 3500 monitoring system. It collects data, especially steady-state and transient dynamic (waveform) data, and transmits this data to the host software over an Ethernet link.
This module is commonly used in the field of monitoring, diagnosis and maintenance of industrial equipment, helping engineers to monitor equipment performance, identify problems and take appropriate maintenance measures.
