The DS3810MMBB1A1A is an industrial control module designed for GE's Mark IV turbine control system, ensuring reliable performance, precise monitoring, and efficient operation in power generation applications.
DS3800NSFE is a Synch Field Exciter Module manufactured and designed by General Electric as part of the Mark IV Series used in GE Speedtronic Gas Turbine Control Systems.
The IS200AEADH3ADA is a GE Mark VIe Exciter Attenuation Board, designed to regulate and stabilize excitation signals, ensuring reliable power management and optimal performance in industrial turbine control systems
The IS200AEBEG1AAB is a GE Mark VIe Excitation Backplane Board, designed for reliable power distribution and signal management within turbine control systems, ensuring stable and efficient industrial operations.
The IS200AEPAH1B is a GE Innovation Series Exciter Power Supply Board, designed to regulate power distribution, ensure stable operation, and support excitation system efficiency in industrial drive assemblies.
The IS200BICLH1AED Bridge Interface Card was originally developed by GE Industrial Systems for integration into the EX2100 Series excitation control systems and their related components.
The IS200AEPCH1ABC is a printed circuit board (PCB) component within General Electric's Speedtronic Mark VI system. It incorporates various systems, timing mechanisms, and controls that are crucial for ensuring the safe and reliable operation of both steam and gas industrial turbine systems.
The IS200BPPBH2B printed circuit board (PCB), commonly known as a PCB in industry discussions, was originally developed and produced for integration into General Electric's Mark VI Turbine Control System Series
The IS200DAMCG1ACB is a gate drive amplifier and interface board designed by GE, serving as a crucial component in the Mark VI series to control and manage power switching devices (IGBTs) in industrial low-voltage drives.
The IS200EDCFG1AED is a GE-designed Exciter DC Feedback Board, integral to the EX2100 control system. This board accurately measures field current and voltage at the SCR bridge, providing essential feedback for precise excitation control.
