IS200ICBDH1ABB - Printed Circuit Board worldofcontrols.com/is200icbdh1abb-pc-board SPECIFICATIONS Part No.: IS200ICBDH1ABB Manufacturer: General Electric Country of Manufacture: United States of America (USA) Temperature Operating: -30 to 65 o C Ethernet jacks: J12A, J12B, J11A, and J11B. Stab-on connectors: CHAS 1, CHAS2, CCOM 2, and CCOM1 Product Type: Printed Circuit Board Availability: In Stock Series: EX2100 Functional Description IS200ICBDH1ABB is a printed circuit board developed by GE. It is a part of EX2100 excitation system. Compatible with a separate metallic chassis, allowing secure integration within a larger system or rack environment alongside other PCBs or components. Includes black pin connectors (40 pins, 10 pins, 26 pins) offering multiple connection points, a white 9-pin male connector within the 40 and 26-pin connectors potentially providing added input/output functionality, white 96-pin female ports for potentially high-density connections, and stab-on connectors (CHAS 1, CHAS2, CCOM 2, CCOM1) serving specific connection purposes. Connectivity Features 8-pin Female Circular Port: This port is designed to accommodate specific data or power input/output requirements. Its circular design ensures secure connectivity and is likely tailored to fit specialized connectors for dedicated functions within the system. RS-232 Female 9-pin Port: Recognized as a standard serial communication interface, the RS-232 port is a fundamental component for data exchange between the turbine control system and external devices. Its 9-pin configuration allows for reliable serial communication, facilitating various control and monitoring tasks. Ethernet Jacks (J12A, J12B, J11A, J11B): These Ethernet jacks serve as vital conduits for network connectivity, enabling the turbine control system to communicate with other devices or systems within the network. With multiple jacks available, the system can support diverse networking configurations, including redundancy and segmentation for enhanced reliability and performance. 1/3 Black Pin Connectors (40 pins, 10 pins, 26 pins): Offering versatility in connectivity, these black pin connectors provide multiple connection points for various components or subsystems within the turbine control system. The different pin configurations cater to specific interface requirements, allowing for seamless integration of diverse control and monitoring functionalities. White 9-pin Male Connector (within 40 and 26-pin connectors): Nested within the larger black pin connectors, the white 9-pin male connector likely offers additional input/output capabilities. Its presence within the larger connectors suggests a modular design, providing flexibility for expanding or customizing the system's connectivity options as needed. White 96-pin Female Ports: These ports are designed to accommodate high-density connections, possibly serving as interfaces for complex data transmission or control signals within the turbine control system. The 96-pin configuration indicates a robust connectivity solution capable of handling significant data throughput and signal processing requirements. Stab-on Connectors (CHAS 1, CHAS2, CCOM 2, CCOM1): Serving as specific connection points, the stab-on connectors are integral to the turbine control system's architecture, facilitating secure and reliable connections for essential components or subsystems. These connectors likely play key roles in power distribution, communication, or control signal routing, ensuring efficient operation and system integrity. Mounting and Labeling Factory-drilled holes are intended for securely mounting the board. Terminal Screws: Facilitate easy wire connections. Part Number Label: Located conveniently for quick identification and reference. Chassis Compatibility Secure Mounting: The metallic chassis provides a robust framework for mounting the board securely. This reduces the risk of physical damage due to movement or vibration, ensuring reliable operation over time. Enhanced Protection:By housing the board within a metallic chassis, it is better shielded from environmental hazards such as dust, moisture, and electromagnetic interference (EMI). This improves the longevity and performance of the board. Efficient Integration: The chassis design supports easy integration into larger systems, including rack-mounted environments. This is ideal for setups requiring multiple boards or components, allowing for a streamlined and organized system architecture. Scalability: Utilizing a chassis system allows for scalable solutions. Additional boards and components can be added to the same chassis, simplifying expansion and upgrades. The WOC team is always available to help you with your EX2100 requirements. For more information, please contact WOC. 2/3 Frequently Asked Questions What is IS200ICBDH1ABB? It is a printed circuit board developed by GE under the EX2100 series. What is the purpose of the 8-pin Female Circular Port? The 8-pin Female Circular Port serves for specific data or power input/output, offering a designated interface for targeted connectivity requirements. How is the RS-232 Female 9-pin Port typically utilized? The RS-232 Female 9-pin Port is commonly used for serial communication, enabling data exchange between devices or systems. What role do the Ethernet Jacks (J12A, J12B, J11A, J11B) play? The Ethernet Jacks facilitate network connectivity, allowing the board to interface with network systems for data transmission. How do the Black Pin Connectors (40 pins, 10 pins, 26 pins) function? These connectors offer multiple connection points, enabling versatile interfacing with other components or devices. 3/3
