Fanuc Corporation | GE FANUC Logic Element Board Mark IV - DS3800HLEA
The GE Logic Element Board DS3800HLEA is a Mark IV component designed with a modular connector for direct attachment to a drive, secured by retention levers. Featuring 10 front-facing indicator LEDs and 3 jumpers, the board is populated with resistors and capacitors, and includes air dividers to optimize component cooling through directed airflow.Â
The GE Logic Element Board DS3800HLEA is designed with several key features tailored for integration within industrial drives. Featuring a modular connector, the DS3800HLEA facilitates straightforward attachment to drive systems, enhanced by retention levers ensuring secure positioning. Visible from the front of the board, the DS3800HLEA is equipped with 10 indicator LEDs, offering visual operational feedback, complemented by 3 jumpers to configure circuit settings.Â
In terms of componentry, the DS3800HLEA includes a complement of resistors and capacitors essential for circuit operation. Air dividers strategically direct airflow over components, optimizing cooling efficiency to mitigate heat buildup within the drive enclosure. Additionally, a transistor to transistor logic (TTL) device acts as the interface logic between integrated circuits, ensuring efficient signal transmission and processing.Â
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.
SpecificationsÂ
Part Number   |
DS3800HLEA Â Â Â |
Category    |
PLCs/Machine Control    |
Subcategory    |
PC Board PLC/Add-On Board    |
Weight    |
0.55 lbs    |
Features    |
Logic Element   |
Indicator   |
10 LED Indicators   |
Jumper   |
3 Jumpers    |
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What Our Experts Think
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Core Logic Processing: Handles critical logic functions for GE FANUC Mark IV systems, ensuring smooth operations.
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Reliable Performance: Provides stable processing in industrial control applications, minimizing downtime.
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Engineered for Durability: Built to perform reliably in harsh, high-demand environments.
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Seamless System Integration: Easily integrates with other Mark IV components for efficient control.
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Trusted GE Quality: Manufactured to GE’s high standards for precision, longevity, and minimal maintenance.
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Legacy Support: Ideal for maintaining and upgrading older Mark IV systems with minimal disruption.
Q&A
Q: What is the DS3800HLEA Logic Element Board?
A: It’s a GE Fanuc logic element board from the Mark IV series, used to process and control logic functions in industrial automation systems.
Q: What systems is it compatible with?
A: This board is designed for use in GE Fanuc Mark IV control systems, commonly found in turbine and power generation control applications.
Q: What does the logic element board do?
A: It executes logic operations, handling data processing and communication between various control and monitoring systems within industrial environments.
Q: Why choose the DS3800HLEA?
A: It offers reliable performance, seamless integration, and robust durability for critical control functions, ensuring optimal operation in demanding industrial settings.
Q: Is this an OEM product?
A: Yes, it’s a genuine GE Fanuc part, ensuring full compatibility, high reliability, and long-lasting service life in industrial automation systems.
Maintenance Tips
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Visual Inspection: Regularly check for physical damage such as burnt components, cracked solder joints, or any visible wear, especially around the logic processing areas.
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Clean the Board: Use dry compressed air or an anti-static brush to remove dust and debris. Avoid using liquid cleaners or harsh solvents that could cause damage to sensitive components.
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Check Solder Joints: Inspect solder joints for any cold solder connections, cracks, or corrosion that could result in intermittent or faulty connections.
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Inspect Connectors and Terminals: Ensure that all connectors are securely in place and free from corrosion or oxidation. Dirty or loose connections can lead to communication issues or faults in the logic system.
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Monitor Power Supply: Verify the board is receiving stable and appropriate power. Voltage fluctuations or instability can affect the logic processing and cause unexpected system behavior.
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Test Logic Functionality: Periodically test the board’s logic processing by running diagnostics or simulations. Look for any signs of malfunction, such as logic errors, incorrect outputs, or delays in response.
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Check for Overheating: Monitor the operating temperature of the board. Ensure it is within the manufacturer’s recommended range to prevent overheating and potential component failure.
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Run Diagnostics: Utilize available diagnostic tools or software to check for fault codes, unusual behavior, or inefficiencies in the logic system.
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ESD Protection: Always handle the board using electrostatic discharge (ESD) protection, such as wrist straps and anti-static mats, to prevent damage to sensitive components.
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Secure Mounting: Ensure the board is properly mounted and securely installed within its system to prevent physical stress, vibration, or mechanical damage.
