BASLER DECS200-2L

The BASLER DECS-200-2L is an excitation control module for use in power generator systems, especially for regulating and controlling the excitation current of synchronous generators. The following is a detailed introduction to the parameters, specifications, dimensions, weight, series, features and functions of BASLER DECS-200-2L:
Parameters and specifications:
Model: BASLER DECS-200-2L.
Brand: BASLER.
Origin: May originate in the United States, but may also be produced elsewhere, such as Shanghai.
Output frequency: Depending on the product, the output frequency may be 360Hz or 50 to 160Hz.
Voltage: 24V.
Operating voltage range: Wide operating voltage range, can adapt to a variety of complex power system environment.
Size and weight:
The exact size may vary by product version or production batch, but in general, it may have a smaller volume, such as 565232 (in mm).
The weight is roughly between 2.6 kg and 2.9 kg, depending on the configuration and add-ons.
Series:
The DECS-200-2L belongs to the BASLER brand family of control systems.
Features:
High quality: The use of high-quality materials and manufacturing processes to ensure reliability and stability.
Accurate regulation: It has accurate voltage regulation function, which can meet the requirements of voltage stability of the generator system.
Fast response: can respond quickly to system changes to ensure the stable operation of the system.
User-friendly interface: Equipped with user-friendly interface for easy operation and monitoring.
Built-in protection function: can protect the generator system from voltage fluctuations or other abnormal conditions.
Communication capabilities: Equipped with a range of communication protocols, including Modbus, DeviceNet and Ethernet, enabling it to communicate with other devices and systems.
Functions:
The main role of the DECS-200-2L excitation control module is to regulate and control the output of the generator exciter to ensure the stable operation of the generator under various load conditions and improve the reliability and stability of the power system.
It is especially suitable for a variety of application scenarios such as power generator sets, industrial power systems, new energy power generation systems and power system fault handling.