<p>When selecting an interface for your industrial or commercial applications, it&#39;s crucial to consider a product that balances performance with durability. This particular interface offers a robust solution with its comprehensive technical specifications designed to meet demanding environments.</p><p>Operating at a rated voltage of 48 VAC and consuming minimal power at just 0.2 W, this interface is both efficient and effective. The double pole double throw (DPDT) contact configuration provides versatility in switching applications, enhancing its utility across various systems.</p><p>The product&#39;s compact design, with a width of just 14 mm, ensures it can be easily integrated into existing setups without consuming excessive space. It uses screw terminals for secure connections, ensuring reliability in operation. The contacts are made from AgNi (Silver Nickel), known for their excellent conductivity and resistance to wear, which contributes to the extended mechanical life of up to 10 million operations.</p><p>For environments where resilience is key, this interface withstands shocks up to 980 ms and vibrations ranging from 10-55 Hz. It&#39;s built to operate effectively within a wide humidity range of 5-85%, making it suitable for diverse climatic conditions.</p><p>With an operational temperature span from -40&#176;C to 70&#176;C, this device is adaptable for use in extreme temperatures without compromising performance. Its IP20 degree of protection indicates suitability for indoor usage where protection against solid objects larger than 12 mm is necessary.</p><p>Compliance with CE, cULus, and RoHS standards assures users of its safety and environmental considerations. Weighing only 52 g, it adds negligible weight while delivering substantial functionality.</p><p>In summary, this interface combines reliable performance characteristics with durable construction materials. Whether you&#39;re upgrading current systems or installing new ones, these features ensure compatibility and longevity across various applications within the specified parameters.</p>