Processor Type:High-speed processing unit
Memory Capacity:Up to 64MB user memory
Communication Protocol:Supports Profibus, DeviceNet, Ethernet Wire
Power Supply:Industrial-grade power management
Environmental Compatibility:Operates within extreme temperature ranges
Dimensions:Compact size for efficient space utilization
Connectivity Options:Multiple connector types for versatile applications
Material Quality:Durable and corrosion-resistant materials
Electrical Rating:Rated for high current and voltage levels
Integrating state-of-the-art technology, the GE DS3800HIOD1H1G Digital I/O Board is engineered to provide unparalleled performance in industrial control systems. Designed for harsh environments, this board ensures reliable operation across a wide temperature range (-40°C to +85°C), making it ideal for applications requiring robustness and precision.
With its high-level non-isolated inputs and outputs, the DS3800HIOD1H1G offers 16 input channels capable of detecting various signals, coupled with 16 output channels for controlling actuators or other devices. Its serial communication interface facilitates seamless integration with existing control systems, enhancing system flexibility and efficiency.
Featuring an impressive 8KB memory capacity, this board supports extensive programming and data handling capabilities, essential for complex industrial automation tasks. The internal power supply ensures stable operation without the need for external components, simplifying installation and maintenance.
Crafted with durability in mind, the DS3800HIOD1H1G is built to withstand the rigors of industrial use. Its compact size (230mm x 167mm x 46mm) allows for efficient space utilization within control cabinets, contributing to streamlined system designs.
Compliant with Windows, Unix, and Linux operating systems, the DS3800HIOD1H1G ensures compatibility with a broad range of industrial automation software, allowing for easy integration into existing workflows. This board is an indispensable component for enhancing the efficiency, reliability, and adaptability of industrial automation projects.
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