The GE 872D496G1 Circuit Board is an advanced control module designed for industrial automation systems, ensuring precise control and efficient operation across various manufacturing processes.
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The GE 872D496G1 Circuit Board is an advanced control module designed for industrial automation systems, ensuring precise control and efficient operation across various manufacturing processes.
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Model Number:872D496G1
Type:Circuit Board
Compatibility:Mark VI Series
Technology:High-Speed Processing
Power Consumption:50W
Operating Temperature Range:-40°C to 70°C
Dimensions (LxWxH):200mm x 150mm x 30mm
Connectivity Options:RS-485, Ethernet
Memory:128MB Flash, 32MB RAM
Certifications:CE, UL, CSA
Engineered for durability and precision, the GE 872D496G1 & 872D495-B Circuit Board is a cornerstone in modern industrial automation. Its robust design withstands harsh operating conditions, ensuring uninterrupted performance even in extreme environments.
This circuit board features a compact, yet powerful architecture, integrating advanced communication protocols like RS-485 and CANopen, facilitating seamless data exchange within your control system. It’s compatible with the renowned GE Mark VI and Mark V series, ensuring compatibility and ease of integration.
Crafted from high-grade aluminum alloy, the board is not only lightweight but also offers superior heat dissipation properties, enhancing its longevity and reliability. Its dimensions of 100mm x 50mm x 20mm make it an ideal fit for space-constrained applications without compromising on functionality.
With an operating temperature range of -20°C to +85°C, the circuit board is designed to perform flawlessly across a wide spectrum of environmental conditions. This versatility makes it suitable for deployment in various industries, including manufacturing, power generation, and oil & gas operations.
Efficient power management is crucial for optimal system performance. The GE 872D496G1 & 872D495-B Circuit Board operates at a maximum power consumption of 15W, ensuring efficient energy use while maintaining high operational standards.
