Product Description:
The IS200ISBDG1AAA is a component created for the Mark VI system from GE. The Mark VI is part of the Speedtronic line, which was created
by GE for the management of steam and gas turbine systems. This line of turbine management systems began production in the 1960s with the
release of the Mark I and has continued through to the 2000s with the Mark VI and the Mark VIe. However, the Speedtronic line is no longer in
production by GE. The Mark VI is built with available triple redundant backups on critical controls. It also has ethernet communication capabilities.
The central control module connects to a PC-based HMI (human machine interface) that permits data to be accessed from a central location.
The IS200ISBDG1AAA functions as an Insync Delay Board. The PCB is built with four terminal connections, one in each corner. The board is
also drilled in two corners. There are five other connectors located on the board surface. These include one terminal strip with two screw
connections (P4,) that is labeled 24 VDC Input and a vertical male ribbon connector with twenty pins (P5.) P1 through P3 are also labeled Full
Duplex, XMIT Out, and RCV In. Each connector is located on a board edge.
The IS200ISBDG1AAA uses primarily resistors made of metal film material. Capacitors may be of ceramic or electrolytic materials. The board has
TP test points, LEDs (2,) and transformers (2.) The board also has several integrated circuits located on its surface.
IS200ISBDG1AAA is a VME Controller Board manufactured and designed by General Electric as part of the Mark VI Series used in GE Speedtronic Gas turbine Control Systems. The VME bus is based on the Eurocard form factor, which consists of a 96-pin connector with multiple rows of pins. The VME bus provides a high-performance data path and a robust interconnect mechanism for communication between various modules within a system. A VME controller board acts as a central control unit within a VME-based system. It typically contains a microprocessor or microcontroller along with supporting circuitry such as memory, input/output interfaces, and other necessary components. The controller board communicates with other VME modules in the system, such as input/output boards, data acquisition boards, or communication boards, through the VME bus.
The main tasks of a VME controller board include managing system resources, coordinating data transfer between modules, handling interrupts, and providing an interface for external communication. It may also include additional features like onboard storage, real-time clock, or specialized interfaces depending on the specific application requirements.
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