<p>When it comes to ensuring safety in industrial and commercial environments, selecting the right magnetic safety sensor is crucial. This specific magnetic safety sensor is designed to provide reliable performance under demanding conditions. Operating at a rated voltage of 24 VDC, it efficiently manages a current of up to 3 A with a power rating of 5 W. The sensor operates at a frequency of 5 Hz, making it suitable for various applications where consistent monitoring is necessary.</p><p>The contact configuration features one normally closed (1NC) contact, which is essential for maintaining secure operations by breaking the circuit if the monitored condition changes unexpectedly. With a cable length of 10 meters, this sensor offers flexibility during installation, allowing connection over longer distances without compromising signal integrity.</p><p>Constructed from glass fibre reinforced thermoplastic, the housing material provides robust protection against environmental factors while ensuring durability and longevity. Its IP67 degree of protection means that the sensor is dust-tight and can withstand immersion in water up to one meter deep for short periods—ideal for use in challenging environments where moisture or dust could be present.</p><p>Weighing just 0.84 kg and measuring 78 mm in length, this compact yet sturdy sensor fits seamlessly into existing systems without adding significant weight or bulk. The wire size of 0.75 sq-mm ensures efficient electrical conductivity while minimizing resistance losses.</p><p>In terms of resilience, this magnetic safety sensor boasts impressive shock resistance capabilities—withstanding shocks up to 30 g/ms and vibrations ranging from 10-55 Hz—ensuring stable performance even in dynamic or high-vibration settings often found in industrial scenarios.</p><p>For professionals seeking dependable safety solutions that combine robust construction with practical functionality, this magnetic safety sensor stands out as an effective choice tailored to meet rigorous technical requirements across diverse applications.</p>