Communication Interface:Modbus TCP/IP
Operating Temperature:-40°F to 185°F (-40°C to 85°C)
Processor Compatibility:Rockwell Automation SLC 5/02 M0/M1 capable processors or newer
Storage Temperature:-40°F to 185°F (-40°C to 85°C)
Data Block Size:Reduced for efficient network utilization
Floating Point Data Support:Configurable for various implementations
Backward Compatibility:Ensures seamless integration with older systems
ASCII Protocol Support:For enhanced data handling and compatibility
I/O Size:Variable, customizable to meet specific application needs
Communication Parameters:Baud Rate: 110 to 115K baud, Stop Bits: 1 or 2, Data size: 7 or 8 Bits, Parity: None, Even, Odd, RTS Timing Delays: 0 to 65535 milliseconds
The Prosoft MVI56E-MNETXT Communication Module is a cutting-edge solution designed to optimize industrial automation networks. Its advanced capabilities ensure smooth integration with a wide range of control systems, enhancing operational efficiency.
With support for Modbus TCP/IP protocol, this module ensures robust communication between various devices, facilitating real-time data exchange and control across different industrial sectors.
Backward compatibility ensures a smooth transition for users upgrading their systems, eliminating the need for extensive reprogramming and reducing downtime. This feature is particularly valuable for organizations seeking to modernize their infrastructure without disrupting ongoing operations.
Featuring reduced data block implementation, the MVI56E-MNETXT significantly decreases the load on network resources, leading to improved performance and more efficient data management. Smaller data blocks are easier to schedule and process, optimizing system responsiveness and reducing latency.
The module’s support for floating point data movement caters to complex calculations and data processing requirements, enabling seamless integration with applications that require high precision and computational power. This capability is essential for advanced automation tasks, ensuring accuracy and reliability in critical operations.
There are no reviews yet.