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Model Type:UR-1HH
Module Class:Power Card
Operating Temperature Range:-40°C to +70°C
Input Voltage:85V to 264V AC or 110V to 300V DC
Output Current:Up to 10A per channel
Communication Protocol:Modbus RTU
Mounting Configuration:Panel Mount
Dimensions:Width: 96mm, Depth: 100mm, Height: 15mm
Weight:Approximately 0.2kg
The GE-UR1HH Power Supply Module is a cutting-edge solution designed to optimize power management in industrial environments. It boasts a robust construction that ensures durability and longevity under demanding conditions. The module is meticulously crafted with high-quality materials, including a compact yet sturdy housing that facilitates efficient heat dissipation, crucial for maintaining optimal performance over time.
With its versatile voltage and amperage ratings, the GE-UR1HH is adaptable to various industrial setups, providing stable power supply across a broad spectrum of applications. Its compatibility with the GE-FANUC Mark V series makes it an ideal choice for those seeking seamless integration within existing automation systems, enhancing system reliability and efficiency.
This power supply module is engineered with advanced safety features, including overvoltage protection and short-circuit prevention, safeguarding against potential hazards and ensuring uninterrupted operation. The use of CE, UL, and TÜV certifications further underscores its commitment to quality and safety standards, making it a preferred choice for industries globally.
Ease of installation and maintenance are paramount in industrial settings. The GE-UR1HH is designed with user-friendly features, including straightforward connection via VME bus, which simplifies setup processes without compromising on performance. The compact size and modular design facilitate easy integration into diverse configurations, streamlining the installation process.
To support continuous operation in challenging environments, the GE-UR1HH is equipped with intelligent monitoring capabilities. It provides real-time feedback on power usage, temperature, and other critical parameters, enabling proactive maintenance and system optimization. This proactive approach minimizes downtime, contributing significantly to overall operational efficiency.
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