<p>The RV8H series interface is a robust solution for those seeking reliable performance in industrial and commercial applications. With its compact design, this product stands out with a width of just 6 mm, making it an excellent choice for space-constrained environments.</p><p>Operating at a rated voltage of 24 VDC and capable of handling a current of up to 6 A, the RV8H ensures efficient power management with a rated power consumption of only 0.25 W. This efficiency is complemented by its coil voltage specification, also set at 24 VDC, ensuring compatibility with standard systems.</p><p>One of the key features is its SPDT (Single Pole Double Throw) contact configuration which offers flexibility in switching applications. The contacts are made from AgNi (Silver Nickel), known for its excellent conductivity and durability, ensuring long-term reliability even under demanding conditions.</p><p>Installation is streamlined thanks to the spring clamp terminal type, facilitating quick and secure connections without the need for additional tools or hardware adjustments. This feature not only saves time but also enhances connection reliability over time.</p><p>In terms of environmental resilience, the RV8H boasts impressive shock resistance rated at 980 ms and vibration resistance between 10-55 Hz. These specifications underscore its capability to maintain performance integrity in dynamic operational settings. Additionally, it operates effectively within humidity levels ranging from 5% to 85%, broadening its applicability across varied climatic conditions.</p><p>Safety and compliance are assured as this interface meets multiple standards including CE, cULus, RoHS, and UL/cUL certifications. Furthermore, it provides IP20 degree protection which offers basic protection against solid objects but should be used in environments where exposure to liquids or dust is minimal.</p><p>This product&#39;s combination of technical specifications makes it suitable for professionals looking for an interface that delivers both functionality and dependability without compromising on space efficiency or safety standards.</p>