Model Type:5466-425
Manufacturer:WOODWARD
Power Supply Voltage:24 VDC
Input/Output Channels:Flexible configuration
Isolation Rating:500 VDC to Earth Ground, 1000 VDC to Control Common
Input Type:Galvanically isolated
CPU Type:Advanced microcontroller
Operating Temperature Range:-40°C to +85°C
Environmental Certification:IP20
Communication Protocol:MicroNet
Software Compatibility:Compatible with Coder 5.03 or greater
Maintenance & Durability:Robust design for extended service life
The WOODWARD 5466-425 I/O Module is engineered for seamless integration into complex industrial control systems, offering a versatile solution for managing a multitude of input and output tasks. Its high-density design allows for compact installation, optimizing space within the system while maintaining robust performance.
Featuring advanced isolation techniques, this module ensures safe data transmission between the control system and the external environment, protecting against electrical interference and enhancing reliability. The galvanically isolated inputs safeguard against ground loops and other common issues in industrial settings.
Equipped with a powerful microcontroller, the 5466-425 I/O Module supports a wide range of applications, from process monitoring and control to data logging and alarm management. Its compatibility with Coder 5.03 or greater ensures easy programming and customization to meet specific operational requirements.
Designed for operation in extreme environmental conditions, this module withstands temperatures ranging from -40°C to +85°C, making it suitable for harsh industrial environments. Its IP20 certification guarantees protection against dust and limited water ingress, ensuring reliable performance under varying climatic conditions.
The WOODWARD 5466-425 I/O Module boasts a user-friendly interface and comprehensive diagnostic features, facilitating efficient maintenance and troubleshooting. With its durable construction and high-quality materials, this module promises long-term reliability and minimal downtime, contributing significantly to the overall efficiency of industrial processes.
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