Fanuc Corporation| GE FANUC GE High Voltage Gate Interface Board - IS200FHVBG1A
The IS200FHVBG1A, part of General Electric's LS2100 Series, serves as a High Voltage Gate Interface Board designed for cell voltage monitoring and SCR gate interfaces. It includes current sensors to monitor SCR states—whether they are blocking or conducting voltages. Detection of SCR blocking voltage triggers transmission of cell status data to the FGPA board, activating the red C STAT LED. Typically installed in the Source Bridge Cabinet, this board integrates various embedded circuits.
The IS200FHVBG1A High Voltage Gate Interface Board is a component of the LS2100 Series manufactured by General Electric Industrial Systems. Designed primarily for cell voltage monitoring and SCR (Silicon-Controlled Rectifier) gate interfaces, this model incorporates current sensors to detect the operational state of SCRs—whether they are blocking or conducting voltages. Upon detecting SCR blocking voltage, the board transmits cell status data to the FGPA board, activating the red C STAT LED indicator. Typically, installation of this board occurs within the Source Bridge Cabinet.
The IS200FHVBG1A board integrates multiple circuits, crucially supporting one FHVB per SCR within the Load Commutated Inverter. However, it is susceptible to potential hazards, notably overvoltage conditions. Overvoltage can lead to risks such as burns or electric shocks, highlighting the importance of appropriate operational safeguards.
GE FANUC, now part of Emerson Automation Solutions, was a leading provider of industrial automation and control systems. Known for innovative solutions, GE FANUC played a key role in advancing manufacturing, offering a range of products including PLCs, CNCs, and HMI solutions.
Specifications
Alphanumeric Catalog Number |
IS200FHVBG1A |
Board Description |
High Voltage Gate Interface Board |
Functional Acronym/Abbreviation |
FHVB |
Manufacturer |
GE Industrial Systems, General Electric Company US |
Series |
LS2100 |
Series Manual |
GEH-6373 |
What Our Experts Think
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Critical Power Interface: Manages high-voltage gate signals for efficient control in power systems.
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Enhanced Safety Features: Built to handle high-voltage operations safely and reliably.
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Designed for Precision: Ensures accurate switching and regulation for industrial control systems.
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Durable and Reliable: Built to withstand harsh environments and continuous operation.
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Seamless Integration: Fully compatible with other GE FANUC components for smooth system performance.
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GE FANUC Quality: Trusted for its longevity, precision, and minimal maintenance needs.
Q&A
Q: What is the IS200FHVBG1A High Voltage Gate Interface Board?
A: It’s a GE Fanuc high voltage gate interface board designed for controlling high-voltage switching devices in industrial automation systems.
Q: What systems is it compatible with?
A: This interface board is compatible with GE Fanuc Mark VI and other related control systems, typically used in turbine and industrial automation applications.
Q: What does the high voltage gate interface board do?
A: It acts as a critical link between the control system and high-voltage components, enabling precise switching and protection in power electronics and machinery.
Q: Why choose the IS200FHVBG1A?
A: It offers reliable high-voltage control, protection, and integration, ensuring optimal performance and safety in demanding industrial environments.
Q: Is this an OEM product?
A: Yes, it’s a genuine GE Fanuc part, ensuring full compatibility, high performance, and long-term durability.
Maintenance Tips
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Visual Inspection: Regularly inspect the board for any signs of burn marks, damaged components, or loose connections. Look specifically around high-voltage areas for any discoloration or heat damage.
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Clean the Board: Use dry compressed air or an anti-static brush to remove dust and dirt. Avoid using liquids or harsh chemicals that could cause short circuits or component damage.
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Verify Voltage Levels: Ensure the board is operating within its specified voltage range. Incorrect voltage can lead to malfunction or damage.
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Check High-Voltage Components: Pay close attention to high-voltage components (such as gate drivers) to ensure there are no signs of wear, overheating, or electrical degradation.
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Inspect Connections: Check all connectors and pins for secure attachment and corrosion. Loose or dirty connections can lead to unreliable performance.
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Monitor Temperature: Ensure the board is not overheating. High temperatures can degrade component life and cause failures. Ensure that cooling systems (fans, heat sinks, etc.) are functioning properly.
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Perform Regular Diagnostics: Run diagnostic tests to check for signal integrity and proper operation. Early detection of faults can prevent system-wide issues.
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Use ESD Protection: Always handle the board with anti-static wrist straps and mats to prevent electrostatic discharge (ESD) that could damage sensitive components.
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Ensure Proper Mounting: Verify that the board is securely mounted in its designated location and not subjected to excessive vibrations or mechanical stress
