Type:Terminal Board
Model:IS200EXHSG3A
Brand:GE Fanuc
Application:Exciter High-Speed Relay Driver
Dimensions:L x W x H: 16.5 cm x 12 cm x 4 cm
Weight:0.75 kg
Input Voltage Range:DC 24V
Operating Temperature:-20°C to +70°C
Contact Rating:250 VAC, 1 A
Number of Positions:8 to 12
Relay Type:Solid State Relay
Signal Conditioning Circuits:Supports for precise control and monitoring
Material:High-grade PCB with gold-plated contacts
Crafted with precision for demanding industrial environments, the GE Fanuc IS200EXHSG3A terminal board is designed to enhance reliability and efficiency in exciter systems. It seamlessly integrates into the EX2100 and EX2100e excitation control platforms, providing unparalleled performance in high-speed relay control.
Equipped with an array of advanced features, this terminal board supports up to 12 different position-plug connectors, offering unparalleled flexibility and adaptability to various application requirements. Its robust design ensures superior durability and longevity, making it a reliable choice for continuous operation in challenging conditions.
Featuring solid state relays and integrated signal conditioning circuits, the IS200EXHSG3A ensures precise and efficient power management, reducing maintenance costs and downtime. Its compact size and lightweight construction facilitate easy installation and integration into existing systems without compromising performance.
Utilizing the latest in semiconductor technology, this terminal board provides enhanced reliability and speed, making it ideal for applications requiring instantaneous response times. The modular design allows for seamless expansion and customization, catering to evolving operational needs and ensuring long-term compatibility with future system upgrades.
Backed by GE Fanuc’s commitment to quality and innovation, the IS200EXHSG3A is rigorously tested to meet stringent industry standards, ensuring optimal performance and safety. Its comprehensive feature set, combined with exceptional reliability and ease of integration, makes it the preferred choice for engineers seeking high-performance solutions for their exciter systems.
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