Emerson, the global leader in automation technology, today announced the addition of the CE3007 model to its DeltaV™ MX controller family, a new addition that will further expand its control capabilities in industrial automation. With its high performance, high reliability and advanced control algorithms, the CE3007 MX controller provides a more powerful and flexible solution for industrial control systems.
Product features:
The CE3007 MX controller is part of the DeltaV™ distributed control system, which provides communication and control with field devices and other control network nodes. This controller not only inherits all the features and functions of the MD Plus controller, but also has twice the capacity of the former. The design of the MX controller allows for easy upgrades late in the project to respond to changes in the scope of the project, while keeping the existing configuration, documentation and hardware design unchanged.
Technical specifications:
CE3007 MX controller specifications include:
Power requirements: System power supply via 2 wide power supply/controller carrier.
Fuse protection: 3.0A, non-replaceable fuse.
Power dissipation: Typical value is 5.0W, maximum value is 7.0W.
User memory: 96MB.
Primary control network and redundant control network: Both use 8-pin RJ-45 connectors.
Application field:
The CE3007 MX controller is suitable for a wide range of industrial automation applications, including power generation, industrial automation, renewable energy and research and development. It is capable of monitoring process variables in industrial automation applications, providing monitoring and analysis of electrical parameters for power generation systems.
Market response:
The introduction of the Emerson CE3007 MX controller has received widespread attention in the field of industrial automation. Its high performance and versatility make it ideal for industries such as chemical, oil, gas, power and metallurgy. Users generally believe that the versatility and flexibility of the controller greatly improve the stability and reliability of the system.