Fanuc Corporation | GE FANUC Control Board Mark IV - DS3800HLNC
The DS3800HLNC is a GE Network Control Board designed for drive systems. It includes a modular connector at one end and retention levers at the other. The board features a 40-pin connector situated between the retention levers, a microprocessor, an amber indicator LED, eight EEPROM module sockets, and 21 jumpers.
The GE Network Control Board DS3800HLNC, designated as part of the Mark IV series, is engineered for efficient integration into drive systems. The board features a modular connector at one end and retention levers at the opposite end to facilitate secure mounting and connection. Central to the board is a 40-pin connector positioned between the retention levers, which serves as the primary interface for connection to other system components.
The DS3800HLNC board includes a microprocessor, integral for processing control signals, and an amber indicator LED positioned for visibility during operation. The indicator LED serves as a diagnostic tool: when the LED is off, it signifies normal operation with no immediate need for operator intervention. Conversely, when the LED is illuminated, it signals a fault condition, indicating that the board is experiencing an issue while power remains supplied to it.
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 |
DS3800HLNC |
Category |
PLCs/Machine Control |
Subcategory |
PC Board PLC/Add-On Board |
Weight |
0.75 lbs |
Description |
Network Control Board |
Features |
40-PIN Connector, Microprocessor, LED Indicator, Eeprom Modules |
What Our Experts Think
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Core Control Functionality: Central to the reliable operation of Mark IV turbine control systems.
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Precision Engineering: Delivers accurate logic control for complex industrial processes.
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GE Proven Design: Manufactured to meet GE FANUC’s high standards for quality and consistency.
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Perfect Fit for Legacy Systems: Maintains performance in existing Mark IV setups—no need for system overhaul.
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Stable & Durable: Built for continuous operation in harsh industrial environments.
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Trusted by Industry Leaders: Widely used in power generation and heavy industry applications.
Q&A
Q: What is the DS3800HLNC Control Board?
A: It’s a GE Fanuc control board from the Mark IV series, used to manage and coordinate control functions in turbine and industrial automation systems.
Q: What systems is it compatible with?
A: This board is compatible with GE Fanuc Mark IV control systems, widely used in gas and steam turbine control applications.
Q: What does the control board do?
A: It handles logic processing, I/O signal coordination, and system communication to ensure accurate and reliable turbine control.
Q: Why choose the DS3800HLNC?
A: It offers dependable performance, long-term durability, and seamless integration with Mark IV systems—ideal for critical industrial operations.
Q: Is this an OEM product?
A: Yes, it’s a genuine GE Fanuc part, ensuring compatibility, reliability, and optimal functionality in legacy control systems.
Maintenance Tips
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Inspect for Physical Damage: Regularly check for signs of burnt components, cracked solder joints, or corrosion—especially around connectors and relays.
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Clean the Board: Use dry compressed air or a soft anti-static brush to remove dust and debris. Avoid moisture or harsh cleaners.
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Verify Power Supply: Ensure stable and correct voltage input to prevent erratic behavior or component stress.
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Check Connector Integrity: Inspect edge connectors and plug-in modules for tight, clean connections; reseat if necessary.
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Monitor for Heat Buildup: Ensure adequate ventilation and cooling; check for hot spots that may indicate overstressed components.
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Run Functional Diagnostics: Use system diagnostics to test board performance regularly and detect early faults.
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Review Signal Quality: Verify clean and consistent input/output signals to and from the board to ensure control precision.
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Handle with ESD Precautions: Always use anti-static wrist straps and mats when handling to prevent electrostatic discharge damage.
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Check Mounting Conditions: Ensure the board is securely mounted and insulated from vibrations or shocks that could lead to premature failure.
