GE IS215VPROH1BD Product Details, Specifications, Parameters, and Applications
The GE IS215VPROH1BD is a high-performance control board specifically designed for the Mark VI system. Developed by General Electric, this board serves as a crucial component in the management of gas and steam turbines.
Product Details:
The IS215VPROH1BD is an emergency turbine protection board, providing an independent emergency overspeed protection system for the Mark VI system. It operates separately from the turbine control system, controlling trip solenoid valves through the TREG board and utilizing three VPRO boards for emergency overspeed protection. The board incorporates its own processor, I/O interfaces, and IONet (Ethernet communication) for the processor and controller.
Specifications:
The IS215VPROH1BD boasts impressive specifications, including three analog current inputs and nine thermocouple inputs for exhaust overtemperature protection on gas turbines. It also features a transformer, cooler, and test points. The board measures 18″ x 12″ x 11″ and weighs approximately 1.72kg.
Parameters:
Key parameters of the IS215VPROH1BD include its input current (500mA), output voltage (24VDC), output power (360W), and input voltage range (85-264VAC). It has a maximum output current of 15A and can operate within a temperature range of -25°C to 70°C. The board is also IP30 rated for dust protection and can tolerate storage temperatures ranging from -40°C to 85°C.
Applications:
The GE IS215VPROH1BD finds primary application in the management and control of gas and steam turbines. It is used in power generation facilities, where precise and reliable control is crucial to ensure the efficient and safe operation of turbines. The board’s independent emergency overspeed protection system provides a critical safety mechanism, protecting the turbine from potential damage caused by excessive speeds.
In summary, the GE IS215VPROH1BD is a high-performance control board designed specifically for the Mark VI system in gas and steam turbine applications. Its advanced features, specifications, and parameters ensure precise and reliable control, protecting turbines from potential damage and enhancing the overall efficiency and safety of power generation facilities.
Reviews
There are no reviews yet.