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  • GE Fanuc 531X113PSFARG1 | Mark VI Circuit Board for Industrial Control Systems
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  • GE Fanuc 531X113PSFARG1 | Mark VI Circuit Board for Industrial Control Systems

    110V-380V
    5W-130W
    1A-30A
    1 year
    30
    United States, France, Japan, Viet Nam, Australia, Russia, Germany, Italy, Arabia
    The GE Fanuc 531X113PSFARG1 is a high-power drive system module designed for efficient control in industrial automation environments, offering robust performance and reliability.
    • ¥3690.00
      ¥16708.00
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    Weight:5.000KG
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    • (Inventory: 1)
Description
The GE Fanuc 531X113PSFARG1 is a high-power drive system module designed for efficient control in industrial automation environments, offering robust performance and reliability.

GE Fanuc 531X113PSFARG1 | Mark VI Circuit Board for Industrial Control Systems

Brand:GE Fanuc Model:531X113PSFARG1 Series:Mark VI Type:Circuit Board Module Category:Control System Components Operating Temperature Range:-20"C to 70"C Dimensions:LxWxH (mm) 148x101x25 Weight:0.39 lbs (177 g) Input Voltage:DC 24V Output Current:Continuous 20mA, Peak 40mA Communication Protocol:Modbus RTU Number of Channels:N/A (Interface Module) The GE Fanuc 531X113PSFARG1 is engineered for seamless integration into GE  comprehensive line of industrial drive systems, offering unparalleled performance and reliability. 

This circuit board features a robust design that ensures compatibility with the 531x series, providing an optimal solution for power supply interfacing in diverse machinery. Equipped with multiple vertical pin connectors and a variety of components, it facilitates easy connection and configuration, optimizing system efficiency. 

The inclusion of integrated circuits and potentiometers ensures precise control over operational parameters, enhancing the overall functionality of the drive systems. 

The LED indicators provide real-time status feedback, enabling users to monitor system operations efficiently and maintain high levels of system availability. Built with precision and durability, the GE Fanuc 531X113PSFARG1 is designed for long-term reliability, ensuring minimal downtime and maximum productivity in industrial settings. The GE Fanuc 531X113PSFARG1 is a high-power drive system module designed for efficient control in industrial automation environments, offering robust performance and reliability.  


Multiple application scenarios

(I) Energy and Power Industry

Power station control system: In thermal power stations, the 531X113PSFARG1 circuit board is a key component of the Mark VI control system. It connects the sensors and actuators of key equipment such as boilers, turbines and generators, and collects real-time operating parameters of the equipment, such as the combustion temperature and steam pressure of boilers, the rotational speed and vibration of turbines, and the output power and voltage of generators. Through the rapid processing and analysis of these data, the circuit board sends precise control instructions to the actuators to adjust the fuel supply of the burner, the turbine's speed control system and the excitation current of the generator, etc., to ensure that the power generation equipment can operate stably and efficiently under various working conditions. In wind power farms, the circuit board is used to control the main control system, pitch system and yaw system of the wind turbine. 

According to the wind speed, wind direction and other environmental factors, the circuit board adjusts the blade angle and direction of the wind turbine in real time to achieve maximum wind energy capture and stable power generation. At the same time, the operation data of the equipment is recorded and analysed, which provides the basis for the maintenance and management of the equipment and improves the efficiency and reliability of energy production. 

Substation monitoring system: In power substations, the 531X113PSFARG1 board is used to build the monitoring and control system of the substation. 

It connects voltage transformers, current transformers, relay protection devices, measurement and control devices and other equipment, and collects real-time operating parameters of the power system, such as voltage, current, power, power factor and so on. 

By analysing these data, the circuit board achieves real-time monitoring and control of substation equipment, and when abnormalities occur in the power grid, such as voltage fluctuations, short-circuit faults, etc., it rapidly executes the corresponding protection actions, such as cutting off faulty lines, to ensure the safe and stable operation of the power system. At the same time, the circuit board can also communicate with the superior power dispatching centre, upload the substation's operation data, receive dispatching instructions, and achieve the optimal scheduling and management of the power system.


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