Manufacturer:SICE Corporation
Model Number:FX0-GPNT00000
Interface Type:High-speed serial communication
Data Rate:Up to 1 Mbps
Signal Processing:Advanced signal processing for noise reduction
Compatibility:Broadly compatible with major control system platforms
Environmental Rating:IP67 rated for dust and water resistance
Operating Temperature Range:-20°C to +85°C
Power Supply Voltage:DC 12V to 48V
Dimensions:100mm x 50mm x 20mm
Connectors:M12 connectors for robust connection
Integrating state-of-the-art technology, the SICE FX0-GPNT module offers unparalleled performance in industrial process control applications. Its robust design ensures seamless integration into complex systems, providing users with precise control over their operations.
Equipped with advanced PID control algorithms, the FX0-GPNT guarantees optimal response times and accuracy, making it ideal for high-demand scenarios where precision is critical. The real-time data processing capability allows for immediate adjustments, enhancing operational efficiency.
With a wide operating temperature range from -20°C to +70°C, this module is built to withstand harsh industrial conditions, ensuring reliability in diverse environments. Its low power consumption of less than 10W contributes to energy-efficient operation, reducing overall system costs.
Featuring a versatile communication interface including RS-485 and Modbus RTU, the FX0-GPNT supports seamless connectivity with various devices and systems. This compatibility simplifies integration and enhances interoperability within industrial networks.
Offering up to 512KB of storage capacity, the module provides ample space for storing critical data and control parameters, facilitating efficient management and retrieval. Its CE, UL, and ISO 9001 certifications ensure compliance with international safety and quality standards, offering peace of mind to users.
Crafted with precision engineering, the compact dimensions of 140mm x 100mm x 45mm make the SICE FX0-GPNT easy to install and integrate into existing systems without compromising space constraints.
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