Fanuc Corporation| GE FANUC Shunt Isolator Board - DS200SVIAG1A
The DS200SVIAG1A is a printed circuit board originally manufactured by General Electric for their Mark V Turbine Control System Series. This series, now considered obsolete, represents one of the final implementations of GE's Speedtronic control system technology, which dates back to its inception alongside the Mark I Series in the late 1960s.
The DS200SVIAG1A is a printed circuit board developed by General Electric for their Mark V Turbine Control System Series, a legacy product series now discontinued. Part of the final iteration of GE's Mark Series utilizing Speedtronic control system technology, originally introduced alongside the Mark I Series in the late 1960s, the DS200SVIAG1A serves as a Shunt Isolator Board within this automated drive assembly.
Key hardware features include two terminal blocks: one with 7 signal wire terminals and another with 8, facilitating interface capabilities crucial for its role. Additionally, the board incorporates multiple test points, 2 jumpers, and a status LED. The LED, green when operational, signifies normal board functionality; flashing indicates processing activity, while an unlit LED suggests power failure or malfunction.
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
Part Number |
DS200SVIAG1A |
Manufacturer |
General Electric |
Series |
Drive Control |
Product Type |
Shunt Isolator Board |
Number of Channels |
12 |
Maximum Lead Resistance |
15Ω |
Potentiometers |
3 Pots |
Revisions |
AAA, ABB |
Operating Temperature |
-30 to 55°C |
Size |
8.26 cm high x 4.18 cm |
Frequency |
50 or 60 Hz |
What Our Experts Think
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Essential Isolation Function: Provides crucial isolation between power circuits to protect sensitive components.
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Enhanced Safety: Prevents damage from electrical faults by ensuring proper current flow and isolation.
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Built for Durability: Designed to withstand the harsh conditions of industrial environments.
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Seamless Integration: Easily integrates into existing GE FANUC control systems for reliable operation.
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Optimized for Protection: Ensures system stability by preventing overcurrent and electrical interference.
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GE FANUC Quality: Trusted for its robust construction and long-lasting performance.
Q&A
Q: What is the DS200SVIAG1A Shunt Isolator Board?
A: It’s a GE Fanuc shunt isolator board designed to protect and isolate the control system from electrical faults by ensuring safe voltage regulation in industrial systems.
Q: What systems is it compatible with?
A: This board is compatible with GE Fanuc Mark VI and other industrial control systems, particularly in turbine, motor, and power generation applications.
Q: What does the shunt isolator board do?
A: It isolates electrical signals to prevent damage from overvoltage conditions and ensures the stability and safety of control systems by maintaining proper voltage levels.
Q: Why choose the DS200SVIAG1A?
A: It provides robust protection against electrical disturbances, ensuring the longevity and safe operation of critical control systems in industrial environments.
Q: Is this an OEM product?
A: Yes, it’s a genuine GE Fanuc part, ensuring full compatibility, reliability, and superior performance in demanding industrial applications.
Maintenance Tips
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Visual Inspection: Regularly inspect for any visible damage, such as burnt components, cracks, or physical stress on the board. Pay close attention to power input and output sections.
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Clean the Board: Use dry compressed air or an anti-static brush to gently remove dust and debris. Avoid using liquid cleaners or solvents, as they could cause damage to sensitive components.
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Check Solder Joints: Inspect solder joints for any cracks, corrosion, or signs of poor connections that may lead to intermittent issues or malfunctions.
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Inspect Connectors and Terminals: Ensure all connectors, pins, and terminals are properly secured, free from corrosion, and making good electrical contact. Poor connections can lead to operational failures.
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Verify Power Supply: Confirm the board is receiving stable and correct power. Voltage fluctuations can affect performance, leading to errors or damage to the isolator circuits.
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Test Isolator Functionality: Periodically verify that the isolator is functioning properly, ensuring it provides the correct level of signal isolation and maintains integrity in the system.
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Run Diagnostics: Use diagnostic tools to monitor the board’s health, check for error codes, and ensure it’s operating within its intended parameters.
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Monitor Temperature: Ensure the board is operating within the specified temperature range. Overheating can lead to component failure or erratic behavior.
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ESD Protection: Always use electrostatic discharge (ESD) protection when handling the board, such as wrist straps and anti-static mats, to avoid damaging sensitive components.
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Secure Installation: Ensure the board is securely mounted in its enclosure to prevent physical damage, vibration, or loose connections that may affect its performance.