Compatibility:Broad range of industrial control platforms
Data Transfer Rate:Up to 10 Mbps for efficient data exchange
Power Consumption:Minimal power draw ensures energy efficiency
Temperature Range:-40°C to +85°C for robust operation in harsh environments
Form Factor:Standard PCI or PCU format for easy installation
Communication Protocol:Supports multiple protocols including RS-232, RS-485, and CAN
Error Correction:Advanced error detection and correction mechanisms
The WOODHEAD SST-DN3-PCU-2-E & SST-DN3-PCI-2 INTERFACE CARD is designed to meet the demands of the most rigorous industrial automation applications. With its advanced technology, this interface card ensures seamless communication between various components of your system, enhancing overall efficiency and productivity.
Featuring high-speed data transfer capabilities, the card optimizes the flow of information within your network, enabling faster response times and improved system responsiveness. Its low power consumption is particularly beneficial in scenarios where energy efficiency is critical, reducing operational costs without compromising performance.
Engineered to withstand extreme environmental conditions, this interface card operates reliably across a wide temperature range, making it suitable for use in a variety of industrial settings. Whether you’re dealing with cold storage facilities or hot manufacturing plants, the SST-DN3-PCU-2-E & SST-DN3-PCI-2 ensures consistent performance.
With support for multiple communication protocols, including RS-232, RS-485, and CAN, this interface card offers versatile connectivity options. This flexibility allows for seamless integration with existing systems, streamlining your setup process and reducing the need for additional adapters or converters.
Equipped with advanced error detection and correction mechanisms, the WOODHEAD SST-DN3-PCU-2-E & SST-DN3-PCI-2 INTERFACE CARD safeguards against data corruption, ensuring the integrity of your data transmissions. This feature is crucial for maintaining accuracy in real-time operations, thereby minimizing downtime and errors.
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