<p>The 716 Series is a robust and reliable choice for professionals seeking precision in industrial and commercial applications. With its solid performance characteristics, this product is designed to meet the demands of various technical environments.</p><p>Operating within a voltage range of 4.75 to 24 VDC, the 716 Series provides flexibility across different power systems. It features a rated current of 80 mA, which ensures efficient energy consumption while maintaining optimal functionality. The line driver output type enhances signal integrity over long distances, making it suitable for complex setups.</p><p>Built to withstand challenging conditions, this product boasts an impressive humidity tolerance of up to 98%, ensuring consistent performance even in moisture-prone environments. Its IP50 degree of protection indicates resistance against dust ingress, although it may not be suitable for wet conditions without additional protective measures.</p><p>The operational temperature range from -25 to 85 degrees Celsius allows the device to function effectively in diverse climates and settings, whether in cold storage facilities or heated industrial sites. Furthermore, its vibration resistance between frequencies of 58-500 Hz makes it resilient against mechanical stressors typically encountered in dynamic operations.</p><p>One notable feature is its pulses per revolution (PPR) count of 500 PPR, providing high-resolution feedback essential for precise motion control tasks. This accuracy is complemented by a standard shaft size of 9.5 mm, which integrates seamlessly with various machinery components.</p><p>Constructed from aluminium, the material selection adds durability while keeping the unit lightweight—an ideal combination for ease of installation and longevity under demanding conditions.</p><p>Overall, the technical specifications and sturdy build make the 716 Series an excellent candidate for those needing dependable performance without unnecessary complexity or cost overheads often associated with more advanced models.</p>