IS200AEPAH1ACB Product datasheet
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Model number: |
IS200AEPAH1ACB |
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Module Type: |
Optional Auxiliary Board |
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Manufacture: |
GE |
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Condition: |
Brand New |
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Range of Product: |
EX2100 |
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Lead time: |
In Stock |
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Weight: |
0.82 kg |
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HS CODE: |
8537101190 |
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Dimension: |
33x22.7x5cm |
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MOQ: |
1 |
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Product Origin: |
USA |
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System: |
DCS |
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Discontinued on: |
Active |
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Communication Service: |
Ethernet router |
IS200AEPAH1ACB Functional Description
The GE IS200AEPAH1ACB AEPA Card Assembly is a high-performance processor card designed for GE's Mark VI turbine control system. This critical component plays a vital role in managing and monitoring both steam and gas turbines within industrial power generation applications. Measuring 13" x 7", the board features robust construction with 8 analog inputs, 20 discrete inputs, and 8 relay outputs, operating reliably within a 0-60°C temperature range. As part of GE's Drive Control series, the IS200AEPAH1ACB Printed Circuit Board delivers exceptional processing power for real-time turbine control and protection.
Engineered for industrial durability, the General Electric IS200AEPAH1ACB Auxiliary Board includes seventeen vertical female-pin connectors (2-20 pins) and multiple plated mounting holes for secure installation. Its architecture incorporates integrated circuits, resistors, capacitors, and diagnostic LEDs for system monitoring. The board's distinctive C-shaped metal housing (marked HW1) and three-pin female connectors ensure proper signal transmission. These features, combined with screw-mounted standoffs for auxiliary board attachment, make the General Electric IS200AEPAH1ACB a versatile solution for complex control systems.
The GE Mark VI system IS200AEPAH1ACB excels in system scalability, allowing seamless integration with existing Mark VI configurations. Its intuitive software interface works with GE's proprietary Control System Toolbox, simplifying turbine parameter monitoring and adjustments. The board's fast processing capabilities enable precise real-time control, while its rugged design withstands harsh plant environments. These attributes make the General Electric IS200AEPAH1ACB indispensable for maintaining optimal turbine performance and operational safety.
Widely used in power generation facilities, the GE IS200AEPAH1A IS200AEPAH1ACB PLC unit benefits from GE's global technical support network. Its combination of robust hardware, advanced processing, and user-friendly programming ensures reliable operation in critical turbine control applications. Available as an in-stock item, this USA-manufactured component continues to be a preferred choice for industrial automation upgrades and maintenance projects worldwide.
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Critical Functions of the Control System Toolbox in Operator Interface Systems
The specialized Control System Toolbox serves as the maintenance nerve center within GE's Operator Interface, providing technicians with comprehensive tools for system optimization and reliability management. This integrated software suite enables real-time diagnostics through advanced monitoring algorithms that detect anomalies in turbine control parameters, vibration patterns, and thermal performance. The toolbox features specialized utilities for waveform analysis, event logging, and fault tracing, allowing engineers to pinpoint issues ranging from sensor malfunctions to communication errors in the Mark VI system. Its maintenance modules include calibration wizards for I/O devices, firmware update managers, and backup/restore functions that safeguard critical configuration data. The system's predictive maintenance capabilities analyze historical operational data to identify potential component failures before they occur, significantly reducing unplanned downtime. For troubleshooting, the toolbox provides step-by-step guidance with schematic overlays and component test protocols, while its security features ensure only authorized personnel can modify control parameters. This sophisticated maintenance environment works synergistically with the CIMPLICITY HMI to deliver a unified platform for both operational control and system health management, maintaining peak turbine performance throughout the equipment lifecycle. The toolbox's reporting functions generate detailed maintenance records for compliance documentation and performance trend analysis.
