Fanuc Corporation | GE FANUC Printed Circuit Board Mark VI - IS200BICMH1A
The IS200BICMH1A is a printed circuit board (PCB) component manufactured by GE for the Mark VI series. Part of GE’s Speedtronic series utilized since the late 1960s for managing gas and steam turbine systems, it is commonly referenced by the functional acronym "BICM." This board serves as an IGBT Gate Driver Card within the Mark VI series.
The IS200BICMH1A is a printed circuit board (PCB) component manufactured by General Electric (GE) for the Mark VI series, part of GE’s Speedtronic lineup used extensively in managing gas and steam turbine systems since the late 1960s. The product is commonly referred to by the functional acronym "BICM," inherent in its part number designation.
Hardware details of the IS200BICMH1A reveal significant functionalities through basic visual inspection. The front faceplate features two narrow openings, displaying the board ID and GE logo. Labels on the faceplate guide proper insertion into compatible rack slots to prevent potential damage. Accessible via the openings are user TP (test point) locations, identified by labels such as 1A, 1B, 1C, VAB, VBC, VDCP, VMG, VDCN, ACOM (first opening), and DA1 through DA4, TRG1, TRG, ACOM (second opening). Internally, TP1 through TP9 align with the first opening, while TP14 through TP16 align with the second, designated for module administrator testing. Additional test points are dispersed across the board.
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
Manufacturer |
General Electric |
Series |
Mark VIe |
Product Type |
Static Control Charge Board |
Fuse |
120 VDC |
Mounting Location |
Load Cabinet |
What Our Experts Think
-
High-Performance Design: Facilitates efficient data transfer and control in complex automation systems.
-
Advanced Integration: Ideal for Mark VI systems, offering seamless communication and control.
-
Built for Reliability: Robust construction ensures long-lasting performance in industrial settings.
-
Versatile Compatibility: Easily integrates with other GE FANUC components, enhancing system flexibility.
-
GE-FANUC Precision: Backed by GE’s industry-leading quality for operational consistency.
-
Maintenance Friendly: Simplifies diagnostics and repairs to minimize downtime
Q&A
Q: What is the IS200BICMH1A Printed Circuit Board?
A: It’s a GE Fanuc printed circuit board (PCB) from the Mark VI series, designed for use in industrial control systems, especially in turbine and automation applications.
Q: What systems is it compatible with?
A: This PCB is compatible with GE Fanuc Mark VI control systems, which are widely used in gas and steam turbine control and other automation applications.
Q: What does the printed circuit board do?
A: It connects various electrical components, enabling the smooth communication and control of system operations, ensuring efficient processing and management of control signals.
Q: Why choose the IS200BICMH1A?
A: It provides reliable performance, high signal integrity, and seamless integration with GE Fanuc Mark VI systems, making it ideal for critical industrial control and automation tasks.
Q: Is this an OEM product?
A: Yes, it’s a genuine GE Fanuc part, ensuring optimal compatibility, excellent performance, and long-lasting durability in industrial environments.
Maintenance Tips
-
Visual Inspection: Regularly check the PCB for any visible damage, such as burnt components, cracked solder joints, or corrosion on connectors.
-
Clean the Board: Use dry compressed air or an anti-static brush to remove dust and debris. Avoid using liquids or abrasive materials that could damage components.
-
Verify Voltage Supply: Ensure that the PCB is receiving the correct voltage as per specifications to prevent malfunctions or component damage.
-
Check Connectors and Terminals: Inspect connectors, pins, and terminals for corrosion, loose connections, or wear. Clean and reseat connections as necessary.
-
Monitor Operating Temperature: Ensure the board operates within its specified temperature range. Overheating can damage sensitive components.
-
Test Signal Integrity: Check for smooth, accurate signal transmission between the board and other system components to ensure proper system functionality.
-
Protect from ESD: Always use electrostatic discharge (ESD) precautions when handling the PCB to prevent static damage.
-
Run Diagnostics: Perform diagnostic tests on the board to detect any errors, faults, or abnormal behavior.
-
Check for Mechanical Stress: Ensure the PCB is securely mounted and not subjected to physical stress or vibrations that could cause damage.
