Brand:GE Fanuc
Model:DS200LDCCH1ALA1
Series:Mark VII
Product Type:Control Module
Application:Industrial Automation
Technology:Digital Control System
Input Voltage:115V AC
Output Capacity:16 Channels
Communication Protocol:EtherCAT
Memory:1MB Flash Memory
Operating Temperature:-10°C to +60°C
Dimensions:17.8 x 15.2 x 2.5 cm
Weight:0.5 kg
Certifications:UL, CE
Integrating advanced semiconductor technology, the GE FANUC DS200LDCCH1ALA1 Circuit Board is engineered to deliver high-performance control in demanding industrial settings. This circuit board features a robust design that ensures reliable operation under a wide range of environmental conditions, making it ideal for applications requiring precise control and data management.
Equipped with a comprehensive set of digital input and output channels, this board supports a multitude of industrial processes, from machine control to data acquisition and analysis. Its onboard memory allows for efficient storage of program logic and data, enhancing its versatility in various automation scenarios.
The integrated RS-232 interface facilitates seamless communication between the circuit board and other system components, enabling easy configuration and monitoring. This feature is particularly advantageous in complex automation systems where data exchange is critical for optimal performance.
Manufactured using high-quality materials and adhering to strict quality control standards, the GE FANUC DS200LDCCH1ALA1 Circuit Board ensures longevity and reliability in harsh industrial environments. It is compatible with a wide array of GE FANUC automation systems, providing a versatile solution for integrating into existing or new automation setups.
For users seeking a powerful, yet user-friendly circuit board for their industrial automation needs, the GE FANUC DS200LDCCH1ALA1 offers an unmatched combination of performance, reliability, and ease of integration. Whether you’re looking to enhance an existing system or start a new project, this circuit board is a smart choice for achieving peak operational efficiency.
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