Fanuc Corporation | GE Fanuc Power Excitation Board - DS200RTBAG5A
The DS200RTBAG5A, produced by General Electric, is a Power Excitation Board specifically designated as a Relay Terminal Board. It belongs to the Mark V Series and incorporates an A-rated functional product revision, distinguishing it from its predecessor, the DS200RTBAG5.Â
The DS200RTBAG5A, produced by General Electric, is a Relay Terminal Board, a specific type of printed circuit board utilized within the Mark V Turbine Control System Series. This model, while consistent with the standard Mark V Series assembly, incorporates an A-rated functional product revision, distinguishing it from the original DS200RTBAG5 Relay Terminal Board. This distinction is crucial as it signifies enhancements in functionality over the initial design.Â
The DS200RTBAG5A Relay Terminal Board is designed for use within the Mark V Speedtronic Series. It employs a specific set of hardware components to achieve operational status within the broader automated drive assembly. This optional board is installed within the Mark V Series drive cabinet but is typically not placed within the main board rack. Instead, it is secured below the rack using four screws and washers on four standoffs. These standoffs elevate the DS200RTBAG5A board above the cabinet's metal surface, preventing direct contact and potential short circuits.
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
Рart Number   |
DS200RTBAG5A Â Â Â |
Manufacturer    |
General Electric    |
Country of Manufacture    |
United States (USA) Â Â Â |
Product Type    |
Relay Terminal Card    |
Dimensions    |
45 × 35 × 32 cm    |
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What Our Experts Think
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Critical Power Control: Manages excitation signals to ensure stable power generation and distribution.
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Enhanced Efficiency: Optimizes excitation system performance for reliable, continuous operation.
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Built for Durability: Designed to withstand high-demand industrial environments, offering long-term reliability.
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Seamless Integration: Easily integrates with GE FANUC systems for smooth and efficient control.
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Robust Design: Ensures consistent performance under extreme conditions, reducing system downtime.
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GE FANUC Engineering: Trusted for its precision, durability, and minimal maintenance requirements.
Q&A
Q: What is the DS200RTBAG5A Power Excitation Board?
A: It’s a GE Fanuc power excitation board designed for use in industrial power generation systems, particularly within turbine control systems, to regulate and stabilize excitation power.
Q: What systems is it compatible with?
A: This board is compatible with GE Fanuc Speedtronic turbine control systems, typically used in gas and steam turbines in power plants.
Q: What does the power excitation board do?
A: It manages the excitation system’s power, ensuring stable voltage regulation and optimal performance of the turbine's generator system.
Q: Why choose the DS200RTBAG5A?
A: It offers high reliability and precise control of excitation power, enhancing system stability and ensuring the efficient operation of turbine and generator systems in critical industrial applications.
Q: Is this an OEM product?
A: Yes, it’s a genuine GE Fanuc part, ensuring full compatibility, superior performance, and long-term reliability in industrial power generation systems.
Maintenance Tips
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Visual Inspection: Regularly inspect the board for any visible damage such as burnt components, broken connections, or physical wear, especially around high-power areas and connectors.
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Clean the Board: Use dry compressed air or an anti-static brush to clear away any dust, dirt, or debris. Avoid using liquid cleaners as they can damage sensitive components or cause short circuits.
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Inspect Solder Joints: Examine the solder joints for any signs of cracks, cold solder, or corrosion that could lead to unstable or intermittent connections, particularly around high-stress areas.
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Verify Power Supply: Ensure the board is receiving stable input power and that the voltage levels are within specified limits. Voltage fluctuations or incorrect levels can damage components or impair the board’s performance.
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Check for Signal Integrity: Test the signals coming into and out of the excitation board. Monitor for noise, signal degradation, or any anomalies that could affect the excitation process.
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Run Diagnostics: Use diagnostic tools or software to evaluate the functionality of the board and detect any error codes or faults that could affect the excitation system.
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Monitor Operating Temperature: Ensure the board operates within its recommended temperature range. Overheating could cause long-term damage to the components or reduce the efficiency of the excitation system.
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Inspect Connectors and Terminals: Make sure that all connectors and terminals are secure, free from corrosion, and properly seated to ensure stable electrical connections and signal transmission.
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ESD Protection: Handle the board with electrostatic discharge (ESD) protection, such as wrist straps and anti-static mats, to prevent damaging the sensitive components.
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Secure Mounting: Ensure the board is securely mounted within its enclosure or system to avoid mechanical stress, disconnections, or vibrations that could lead to malfunction.
