The BENTLY 3500/22M is a transient data interface module commonly used in BENTLY (now part of General Electric) mechanical equipment monitoring and vibration analysis systems, such as the BENTLY 3500 series vibration monitoring system. The following is a specific introduction to its parameters, specifications, dimensions, weight, series, characteristics and functions:
Parameters and specifications:
Measuring range: depends on the specific sensor.
Accuracy: ±0.1% full scale.
Resolution: Depends on the specific sensor.
Sampling frequency: up to 10Hz.
Input signal: can receive 4-20mA, 0-5V, 0-10V and other standard analog signals, as well as digital signals such as Modbus, Profibus and so on.
Output signal: Also support 4-20mA, 0-5V, 0-10V and other standard analog signals, as well as relay output (dry contact).
Power supply: Usually 100-240V AC, 50/60Hz, maximum power consumption of 25W.
Size and weight:
Size: There are two possible size descriptions. One is 175mm x 115mm x 35mm and the other is 138x 138x 25mm.
Weight: Several different weight descriptions exist, including 0.5kg, 0.85 LBS, 1.2kg, and 1.6kg.
Series:
The BENTLY 3500/22M belongs to the BENTLY 3500 series, a system widely used in industrial automation and vibration analysis.
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.
Data storage and transmission: with data storage function, and can transfer the collected data to the upper control system or data analysis platform.
Diagnosis and reporting: Diagnose equipment status by analyzing transient data and generate reports or alerts to support maintenance and decision making.
Functions:
The main role of the BENTLY 3500/22M module is to collect and process transient data in mechanical equipment monitoring and vibration analysis systems for more detailed analysis and diagnosis. It helps engineers monitor equipment performance, identify potential problems, and take appropriate maintenance actions.