Type:CPU Module
Model Number:314-6CG13
Sub-Type:314SC/DPM-SPEED7
Processing Speed:Up to 20 MHz
Memory:1 MB of user program memory
Operating Voltage:12 to 48 V DC
Power Consumption:Up to 2.5 W
Communication Interfaces:Ethernet, RS-485
Temperature Range:-20°C to +60°C
Dimensions:95 x 120 x 30 mm
Weight:0.165 g
Compatibility:For use with VIPA PLC systems
The VIPA 314-6CG13 CPU 314SC/DPM-SPEED7 module is engineered to provide robust performance in demanding industrial environments. It leverages cutting-edge technology to ensure reliable operation even under fluctuating conditions, making it an ideal choice for applications requiring high-speed data processing and efficient energy usage.
Equipped with advanced diagnostic tools, this module offers real-time monitoring and error detection capabilities, enabling quick troubleshooting and maintenance. Its comprehensive communication interfaces facilitate seamless integration with various system components, enhancing overall system reliability and efficiency.
Designed with a compact footprint and lightweight construction, the VIPA 314-6CG13 CPU 314SC/DPM-SPEED7 is optimized for easy installation and minimal space requirements in compact industrial settings. Its wide operating temperature range ensures stable performance across different environments, whether in harsh industrial conditions or in controlled laboratory settings.
This module supports a variety of programming languages, including ladder logic, structured text, and function block diagrams, catering to diverse programming needs. It also supports a range of communication protocols, ensuring compatibility with a broad spectrum of field devices and control systems.
With its combination of high processing speed, extensive memory capacity, and versatile communication capabilities, the VIPA 314-6CG13 CPU 314SC/DPM-SPEED7 module is a key component for enhancing the automation capabilities of industrial systems. Its integration into existing or new systems can significantly improve operational efficiency, reduce downtime, and optimize resource utilization.
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