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  • GE IS210BPPBH2B Processor Board
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  • GE IS210BPPBH2B Processor Board

    110V-380V
    5W-130W
    1A-30A
    1 year
    30
    United States, France, Japan, Viet Nam, Australia, Russia, Germany, Italy, Arabia

    GE IS210BPPBH2B Processor Board

    • ¥16524.05
      ¥15637.02
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    Weight:2.570KG
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    • (Inventory: 15)
Description

GE IS210BPPBH2B Processor Board


GE IS210BPPBH2B Processor Board

Part Number IS210BPPBH2B Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series Mark VI/VIe Function Module Availability In StockIS210BPPBH2B is a Processor Board manufactured and designed by General Electric as part of the Mark VI Series used in GE Speedtronic Gas Turbine Control Systems. It is intended to be added as an auxiliary board to a larger circuit board within the control system. 

This design allows for modular expansion and customization based on the specific requirements of the application. To connect to its motherboard, it utilizes four standoffs and screw mounts. These standoffs and screw mounts are inserted into brass-plated factory-drilled holes located at each corner of the board. This secure attachment method ensures stability and proper alignment of the processor board with the motherboard. Three of the board edges are shaped, likely to accommodate the components present on the motherboard. The specific shape of these edges ensures proper clearance and alignment with the components on the motherboard, allowing for seamless integration and optimal utilization of available space. 

 FEATURES: It has an operating temperature range of -30 to 65 degrees Celsius. This wide temperature range ensures the board's ability to operate reliably under varying environmental conditions, including both extreme cold and hot temperatures. The I/O pack is equipped with a temperature sensor. This sensor provides accurate temperature measurements within 2 degrees Celsius. The temperature readings for each I/O pack are stored in the database, enabling monitoring and analysis of temperature variations. The recorded temperature data from the I/O pack's temperature sensor can be utilized to trigger an alarm. 

If the temperature exceeds or falls below a predefined threshold, the system can generate an alarm to alert operators or initiate appropriate actions to mitigate any potential issues. With a Windows-based PC operator interface that comes preloaded with proprietary software like CIMPLICITY graphics and the Control System Toolbox, the Mark VI offers complete monitoring, control, and protection with optimal turbine performance. BPPB has two LED (light-emitting diodes) located along a board edge. The board has two vertical connectors of different sizes and two phone jacks. It also includes an inductor coil, several capacitors, and integrated circuits, and several transistors. One of the chips on the surface of the board is an AMD memory chip. 

This is located near the center of the board. Components have been marked with reference designators. This is near the middle of the board. Reference designators have been assigned to components. The Mark VI offers complete monitoring, control, and protection with optimal turbine performance, thanks to a Windows-based PC operator interface that comes preloaded with proprietary software such as CIMPLICITY graphics and the Control System Toolbox. 

The Mark VI offers complete monitoring, control, and protection with optimal turbine performance, thanks to a Windows-based PC operator interface that comes preloaded with proprietary software such as graphics and the Control System Toolbox. This is located near the center of the board. Components have been marked with reference designators.

FUNCTIONAL DESCRIPTION:

IS210BPPBH2B is a Processor Board manufactured and designed by General Electric as part of the Mark VI Series used in GE Speedtronic Gas Turbine Control Systems. It is intended to be added as an auxiliary board to a larger circuit board within the control system. This design allows for modular expansion and customization based on the specific requirements of the application. To connect to its motherboard, it utilizes four standoffs and screw mounts. These standoffs and screw mounts are inserted into brass-plated factory-drilled holes located at each corner of the board. This secure attachment method ensures stability and proper alignment of the processor board with the motherboard. Three of the board edges are shaped, likely to accommodate the components present on the motherboard. The specific shape of these edges ensures proper clearance and alignment with the components on the motherboard, allowing for seamless integration and optimal utilization of available space.

FEATURES:

It has an operating temperature range of -30 to 65 degrees Celsius. This wide temperature range ensures the board's ability to operate reliably under varying environmental conditions, including both extreme cold and hot temperatures.

The I/O pack is equipped with a temperature sensor. This sensor provides accurate temperature measurements within 2 degrees Celsius. The temperature readings for each I/O pack are stored in the database, enabling monitoring and analysis of temperature variations.

The recorded temperature data from the I/O pack's temperature sensor can be utilized to trigger an alarm. If the temperature exceeds or falls below a predefined threshold, the system can generate an alarm to alert operators or initiate appropriate actions to mitigate any potential issues.

With a Windows-based PC operator interface that comes preloaded with proprietary software like CIMPLICITY graphics and the Control System Toolbox, the Mark VI offers complete monitoring, control, and protection with optimal turbine performance.

BPPB has two LED (light-emitting diodes) located along a board edge. The board has two vertical connectors of different sizes and two phone jacks. It also includes an inductor coil, several capacitors, and integrated circuits, and several transistors.

One of the chips on the surface of the board is an AMD memory chip. This is located near the center of the board. Components have been marked with reference designators.

This is near the middle of the board. Reference designators have been assigned to components.

The Mark VI offers complete monitoring, control, and protection with optimal turbine performance, thanks to a Windows-based PC operator interface that comes preloaded with proprietary software such as CIMPLICITY graphics and the Control System Toolbox.

The Mark VI offers complete monitoring, control, and protection with optimal turbine performance, thanks to a Windows-based PC operator interface that comes preloaded with proprietary software such as graphics and the Control System Toolbox. This is located near the center of the board. Components have been marked with reference designators.


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