BENTLY 3500/33 149986-01 is a product that typically finds applications in industrial automation and control systems. Here is a breakdown of its parameters, specifications, dimensions, weight, series, features, and functions in English:
Parameters & Specifications:
Input Voltage Range: DC 24-75V. This defines the range of voltages that can be safely used as input for the module.
Output Voltage and Frequency: Single-phase 220V/50Hz or three-phase 400V/50Hz. This specifies the voltage and frequency of the output power that the module provides.
Conversion Efficiency: Greater than 90%. This indicates the efficiency of the power conversion process.
Dimensions & Weight:
The exact dimensions and weight of the BENTLY 3500/33 149986-01 may vary depending on the manufacturer and production batch. For precise measurements, it is advisable to refer to the manufacturer’s official documentation or contact a supplier.
Series:
The BENTLY 3500/33 series includes a range of industrial automation and control components, with the 149986-01 being a specific model within that series.
Features:
Multiple Applications: Designed for use in various industrial automation systems, including but not limited to monitoring and control systems.
Stability & Reliability: Typically designed for reliable and stable operation in industrial environments.
High Conversion Efficiency: Ensures efficient power conversion, reducing energy loss.
Protection Mechanisms: May include various protection functions, such as overcurrent protection, to safeguard against damage to the module and connected equipment.
Functions & Role:
Power Conversion: The primary function of the BENTLY 3500/33 149986-01 is to convert incoming power to a specified output voltage and frequency, suitable for use by industrial equipment.
Control & Monitoring Integration: As part of an automation system, it can be integrated with other components to provide controlled and monitored power distribution.
Enhanced System Performance: By providing stable and reliable power, the module contributes to improved overall system performance and reliability.
