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  • GE IS200SCNVG1A Signal Conditioning and Networking Card
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  • GE IS200SCNVG1A Signal Conditioning and Networking Card

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

    GE IS200SCNVG1A Signal Conditioning and Networking Card

    • ¥33875.69
      ¥33652.02
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    Weight:5.370KG
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Description

GE IS200SCNVG1A Signal Conditioning and Networking Card


GE IS200SCNVG1A Signal Conditioning and Networking Card

Part Number IS200SCNVG1A Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series Mark VI/VIe Function Module Availability In StockIS200SCNVG1A is an SCR diode bridge control board designed and developed by GE. It is a part of Mark VI control system. The SCR Diode Bridge converts alternating current (AC) power from the main power source to direct current (DC). This conversion is essential for supplying stable and controlled power to the different electronic components of the gas turbine control system. The board regulates the voltage output to ensure that it meets the specific requirements of the gas turbine control system. 

Voltage regulation is critical for the proper functioning of electronic components and devices. FEATURES This component serves as a control to bridge interface board for the Innovation Series SCR-Diode Converters. The front panel of the board is a long metal part that sits along the right edge of the PCB. 

The part number SCNVG1A is listed at the bottom of this panel. This SCNV board has a single P1 128-pin backplane connector. This connector is used to send signals to the standard Innovation Series board rack as well as to connect to other circuit boards. The board includes six plug connectors. The plug connectors connect to the current shuts, gate drivers, and the DC link. On the left half, three long integrated circuits are arranged together. There are three transformers, which are labeled T1, T2, T3, and T4. PRODUCT ATTRIBUTES Control and Protection: SCR Diode Bridge Control Boards incorporate control algorithms to manage the power supply based on the operational requirements of the gas turbine. 

They also include protection mechanisms to safeguard the system against overvoltage, overcurrent, and other potential issues. Integration with Control Systems: These control boards are integrated into the broader control system of the gas turbine. They communicate with other control components, sensors, and actuators to ensure coordinated and efficient operation. Fault Diagnostics: SCR Diode Bridge Control Boards often include diagnostic features to detect and identify faults in the power supply or the board itself. This helps in troubleshooting and maintaining the reliability of the gas turbine control system. 

Efficiency Optimization: The control boards may include features to optimize the efficiency of power conversion, contributing to the overall energy efficiency and performance of the gas turbine. Compatibility with Variable Speed Drives: In some gas turbine applications, SCR Diode Bridge Control Boards are used in conjunction with variable speed drives to control the speed of the turbine. This allows for more flexibility and efficiency in turbine operation.

SPECIFICATIONS:

Part Number: IS200SCNVG1A
Manufacturer: General Electric
Series: Mark VI
Board Type: Signal Conditioning and Networking Card
Input Voltage Range: 3.3V to 5V DC
Clock Frequency: Up to 200 MHz
Operating Temperature Range: -30°C to +75°C
Dimensions: 25 mm x 25 mm x 5 mm
Mounting Type: Surface-mount technology
Repair: 3-7 Day
Availability: In Stock
Country of Origin: United States

FUNCTIONS:

Signal Conditioning: It performs essential signal conditioning by converting raw input from sensors, such as temperature or pressure signals, into standardized formats that the control system can process. It filters out noise and interference to ensure clean, high-quality signals reach the control system, improving accuracy and reliability. Additionally, it can linearize non-linear sensor outputs, allowing for more straightforward interpretation and better overall system performance.

Data Acquisition: This card supports multi-channel input, allowing it to simultaneously gather data from various sensors, which is critical in complex turbine control systems. It handles both analog and digital inputs, making it highly versatile in integrating different types of sensors. This real-time data acquisition ensures that the turbine system can monitor a wide range of operational parameters efficiently.

Networking: It enables seamless communication between the control system's different modules and external devices, serving as a critical data bridge. It supports multiple communication protocols, ensuring compatibility with various system components and external networks. By ensuring fast and reliable data transmission, it facilitates real-time monitoring and control, essential for maintaining turbine performance and safety.

Monitoring and Diagnostics: Equipped with real-time monitoring capabilities, the board continuously assesses the health and performance of connected sensors. It includes diagnostic tools that help identify issues such as signal degradation or sensor malfunctions, allowing for proactive maintenance. Additionally, it can generate alerts and alarms when predefined thresholds are exceeded, helping operators address potential issues before they escalate.

Integration: Designed for seamless integration within the GE Mark VI control system, it fits easily into existing setups, reducing the need for extensive system modifications. Its modular design allows for easy replacement or upgrades, ensuring the system remains adaptable to evolving technological needs. This card also works in collaboration with other components of the control system, enhancing overall system coordination and functionality.

Performance Optimization: It enhances system performance by ensuring that the control system receives clean, accurate signals from sensors, contributing to more precise decision-making. Optimizing data accuracy and communication efficiency helps improve turbine operation, reduce energy consumption, and minimize downtime, making it an essential component for achieving optimal turbine performance and operational efficiency.




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