IS200FOSBH1A | General Electric Fiber Optic I/O Module Mark VI IS200

IS200FOSBH1A | General Electric Fiber Optic I/O Module Mark VI IS200

Product Description P/N: IS200FOSBH1A Description / Specifications Description The IS200FOSBH1A is a Fiber Optic I/O Module designed for the Mark VI IS200 control system. It provides fiber optic communication capabilities, facilitating high-speed data transfer between system components. Technical Specifications Part Number IS200FOSBH1A Manufacturer General Electric Series Drive Control Country of Manufacture United States (USA) Fiber-optic Connectors 102 Test Points 2 Plug Connectors 6 Function Fiber-Optic Interface Board Information About IS200FOSBH1A The IS200FOSBH1A is a Fiber-Optic Interface Board developed by General Electric as part of their Drive Control series, specifically engineered to meet the rigorous demands of modern industrial systems. Manufactured in the United States, this component is designed to facilitate high-speed, reliable fiber-optic communication within drive control systems, making it a critical component in ensuring efficient data transfer between various system elements. 

 At the core of the IS200FOSBH1A鈥檚 functionality is its ability to manage and interface with fiber-optic connections. The board is equipped with 102 fiber-optic connectors, allowing it to handle a significant number of communication channels simultaneously. This capability is essential in complex industrial environments where multiple data streams must be transmitted and received with precision and minimal latency. The use of fiber-optic technology in this board ensures that data transfer is not only fast but also immune to electromagnetic interference, which is a common issue in environments with high electrical noise. The IS200FOSBH1A also features two test points, which are integral to its operation and maintenance. 

These test points allow technicians to monitor and verify the performance of the board, ensuring that it is functioning correctly and efficiently. By providing easy access to key diagnostic points, the IS200FOSBH1A simplifies troubleshooting and maintenance processes, reducing downtime and ensuring continuous operation of the drive control system. The inclusion of test points is a reflection of the board鈥檚 design focus on maintainability and operational reliability. In addition to its fiber-optic connectors, the IS200FOSBH1A is equipped with six plug connectors. These connectors facilitate the integration of the board with other system components, ensuring that it can be seamlessly incorporated into existing drive control systems. The plug connectors are designed to provide secure and stable connections, minimizing the risk of disconnection or signal loss, which is crucial in maintaining the integrity of the data communication network within the control system.

 The IS200FOSBH1A鈥檚 role as a Fiber-Optic Interface Board is vital in applications where precise and reliable data communication is necessary. In industrial environments, such as manufacturing plants, power generation facilities, and processing industries, the ability to transmit and receive data accurately and without delay is critical to the overall efficiency and safety of operations. The IS200FOSBH1A ensures that control commands, status updates, and other critical information are communicated swiftly and reliably between system components, thereby supporting the smooth and efficient operation of the entire drive control system. The board鈥檚 construction adheres to the high standards expected of General Electric products, with durability and reliability being key considerations in its design. 

The materials used in the IS200FOSBH1A are selected for their ability to withstand the challenging conditions often encountered in industrial settings, such as temperature fluctuations, vibration, and exposure to dust or moisture. This robust construction ensures that the board can perform reliably over extended periods, even in harsh environments. Manufactured in the United States, the IS200FOSBH1A reflects General Electric鈥檚 commitment to quality and innovation. The board benefits from advanced manufacturing processes and stringent quality control measures, ensuring that each unit meets the highest standards of performance and reliability. This focus on quality is critical in industrial applications, where component failure can lead to significant operational disruptions and financial losses. In summary, the IS200FOSBH1A Fiber-Optic Interface Board is a crucial component within General Electric鈥檚 Drive Control series, designed to facilitate high-speed, reliable fiber-optic communication in industrial systems. 

With 102 fiber-optic connectors, two test points, and six plug connectors, this board is equipped to handle the complex communication needs of modern drive control systems. Its robust construction, maintainability features, and integration capabilities make it a dependable choice for industrial applications requiring precise and efficient data transfer. The IS200FOSBH1A鈥檚 design and manufacturing quality ensure that it will provide long-lasting performance in even the most demanding environments, supporting the operational efficiency and reliability of the systems in which it is deployed. Manufacturer information General Electric (GE) is a multinational conglomerate founded in 1892, based in the United States. 

It operates in various industries, including aviation, healthcare, renewable energy, and power. GE is known for its innovations in technology, manufacturing, and infrastructure solutions. IQElectro is not an authorized distributor. QElectro LLC (IQElectro) is NOT an Authorized Distributor or in any way affiliated with Rockwell Automation, Siemens, or any other Manufacturers. IQElectro is NOT an Authorized Dealer of this product. The product may be of older version, date codes, or design than that available from authorized dealers. As IQElectro is not an authorized dealer of this product, the Original Manufacturer's Warranty and Support DO NOT apply.IQElectro sells SURPLUS onlyand DOES NOT SELL SOFTWARE or FIRMWARE licenses For more detailed information, please refer to the full version of our disclaimer policy Disclaimer Policy.