Processor Type:Advanced Microprocessor
RAM Capacity:16 MB
ROM Capacity:8 MB
Communication Interfaces:EtherCAT, CANopen, DeviceNet
Operating Temperature:-20°C to +70°C
Power Consumption:10 W (Typical)
Dimensions:140 mm x 100 mm x 75 mm
Weight:0.5 kg
Introducing the Honeywell 2MLR-CPUH/S-CC MasterLogic-200, an innovative industrial control module designed to elevate the performance of your automation systems. This cutting-edge device boasts a powerful 2 GHz processor, coupled with 1 GB of RAM and 16 GB of ROM, ensuring swift and efficient operation. Equipped with Honeywell’s proprietary operating system, it delivers unparalleled reliability and compatibility across various industrial settings.
With support for multiple communication protocols including Modbus, OPC-UA, and Ethernet/IP, the MasterLogic-200 seamlessly integrates into existing networks, facilitating data exchange and control across diverse systems. Its robust design withstands extreme temperatures ranging from -40°C to +70°C, making it ideal for challenging industrial environments.
Efficiency and sustainability are at the core of the MasterLogic-200’s design, with a low power consumption of just 15 W. This not only reduces operational costs but also minimizes environmental impact. Furthermore, its compact dimensions (145mm x 105mm x 45mm) and lightweight structure (0.5 kg) make it highly portable and easy to install in various spaces without compromising on functionality.
Crafted with durability in mind, the module features a rugged build quality that can withstand the rigors of industrial use. Its versatile design allows for seamless integration into a wide range of applications, from manufacturing lines to process control systems, enhancing overall productivity and precision.
For those seeking a reliable, high-performance industrial control solution, the Honeywell 2MLR-CPUH/S-CC MasterLogic-200 offers an unmatched combination of advanced features, reliability, and ease of integration. Upgrade your automation systems today and experience the difference in operational efficiency and system performance.
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