Overview
Manuals
System Diagnostics Note
Three Core Features
Features:
- Application Control & Signal Processing
- Engineered to withstand an electrical isolation voltage threshold up to 2500 V RMS
- Built-in 16-bit analog-to-digital converter (ADC) for high-precision data acquisition
The IS210AEAAH3BKE (AEAA for short) is an industrial-grade, high-precision analog input control board/module designed and manufactured by General Electric (GE). As a core hardware component of GE's renowned Mark VIe control system, it is specifically designed for the control architecture of large rotating machinery such as wind turbines, gas turbines, and steam turbines.
This control board bears the important mission of providing protection and supporting high-speed distributed communication in harsh environments. The specific code "H" in the model number indicates that its surface has undergone a special conformal coating treatment, which has excellent resistance to moisture, salt spray and chemical corrosion, ensuring long-term stable operation in harsh outdoor or coastal environments.
The IS210AEAAH3BKE GENERAL ELECTRIC PCB Circuit Board may still be available for purchase and support from Moore Automated Company beyond End-Of-Life (EOL) by the manufacturer (OEM).
GENERAL ELECTRIC IS210AEAAH3BKE PCB Circuit Board INFO(manual), Link
Important Notice: Other accessories, manuals, cables, calibration data, software, etc. are not included with this equipment unless listed in the above stock item description. All prices are shown in USD.
The AEAA control board works closely with peripheral distributed turbine modules (such as AEPS power boards). If the AEAA control board experiences an internal failure or an industrial Ethernet/RS-485 bus communication timeout, the Mark VIe control architecture will trigger local diagnostic flags and generate precise fault codes on the central HMI monitoring terminal.
1.Exceptional Harsh Environment Tolerance: Given the extremely harsh operating environments of wind turbine generators, such as offshore and high-altitude areas with high humidity and large temperature differences, the mainboard surface employs a special conformal coating. This effectively prevents damage to components caused by moisture intrusion, salt spray corrosion, conductive dust, and severe vibration.
2.Highly Reliable Control Logic Execution: As the application control layer module in the Mark VIe system, it possesses independent microprocessor functionality, capable of handling complex turbine protection, pitch control, yaw logic, and real-time data acquisition independently of the main unit.
3.Strong Anti-interference and Fault Tolerance: Onboard digital isolation protection up to 2500V RMS and a built-in 50/60 Hz 60 dB industrial noise suppressor ensure absolute accuracy of 16-bit analog signal sampling and uninterrupted system operation, even in the complex electromagnetic environment inside the wind turbine generator.
