About the IS200AEPAH1AFD
This IS200AEPAH1AFD Printed Circuit Board product offering was originally designed and manufactured, as indicated above, by the trusted automated industrial giant General Electric, specifically with insertion in the Mark VI Turbine Control System Series. The Mark VI Series, as you have more than likely been able to deduce based off of its full extended series name alone, exists with a series of possible functional applications specifically in the control and management systems of General Electric-geared gas, wind, and steam turbine automated drive assemblies. Generally, this is considered a significant functional upgrade upon the existing Mark V Turbine Control System Series of the same full extended series name, given the fact that the Mark V Series exists with a more restricted possible application range based out of gas and steam-centric environments alone.
Hardware Tips and Specifications
Manufactured with the capability to connect an optional auxiliary board, the IS200AEPAH1AFD board is labeled simply as a printed circuit board. If you have decided to use an optional auxiliary board it will communicate with the AEPA board via two-pin connectors. The two pin connectors used for the communication between the auxiliary board and the AEPA board are male pin connectors which are located in the top left corner of the board. Some other components of this board are two three-plug connectors, six metal oxide varistors (MOVs), and many others. The MOVs on this board are lined up together and located in the upper right-hand corner that are red in color. When the IS200AEPAH1AFD board has been mounted in the Mark VI Turbine Control System it will be located in a VME rack, the VME rack will have twenty-one or thirteen slots. This board will only occupy one VME slot. There are multiple redundancy models that the AEPA board can be used with such as simplex, dual, or triple redundancy, the board can actually be used with several of these redundancy types at the same time depending on what you have decided to run the model on.
There are two different types of communication that can be used with the IS200AEPAH1AFD model which are IONet or Unit Data Highway (UDH). The UDH is an Ethernet-based LAN that allows for communication with not only other boards in the Mark VI System but the Fanuc family of PLC-based controls which are also made by General Electric, as well as EX2000 Generator Excitation Controls. The other systems that can be used can be found in the GER-4193A Turbine Control System Instruction Guide. The bulk of IS200AEPAH1AFD Printed Circuit Board hardware component and component specification information stored on this IS200AEPAH1AFD Printed Circuit Board personalized product page here is overwhelmingly reminiscent of a diligent technician-led visual inspection of the IS200AEPAH1AFD Printed Circuit Board itself, which was deemed as necessary given the IS200AEPAH1AFD Printed Circuit Board's lack of originally-printed instructional manual materials online. The IS200AEPAH1AFD functional product number can be highlighted as a decent source of IS200AEPAH1AFD Printed Circuit Board hardware information in this instance, as it codes for various relevant IS200AEPAH1AFD Printed Circuit Board details in a series of consecutive functional naming chunks. For example, the IS200AEPAH1AFD product number starts with the dual-functional IS200 series tag delegating this IS200AEPAH1AFD product's normal Mark VI Series assembly and its domestic manufacture location. Some of the other relevant IS200AEPAH1AFD Printed Circuit Board details indicated in this way include its:
- AEPA functional product acroynm
- Group one Mark VI Series grouping
- Conformal PCB coating style
- Three-fold revision history
