<p>The DMP 331P Stainless Steel Sensor is a robust and reliable choice for industrial and commercial applications requiring precise pressure measurement. This sensor offers an output type of 4-20 mA, providing consistent signal transmission over long distances, which is ideal for integration into existing systems.</p><p>Designed to withstand demanding environments, the DMP 331P operates efficiently across a wide temperature range from -40 to 125 degrees Celsius. Its high accuracy of =0.4 bar with a Full Scale Output (FSO) accuracy of 0.35% ensures dependable performance in critical operations.</p><p>In terms of durability, this sensor boasts impressive shock resistance rated at 500 g/1 ms and is capable of enduring up to ten million mechanical operations, making it suitable for heavy-duty use where reliability over time is crucial.</p><p>The DMP 331P has been rigorously tested and meets several key standards and approvals including CE, cULus, REACH, and RoHS compliance. These certifications underscore its commitment to quality and safety standards required in various industries.</p><p>For installation flexibility, the sensor features a G1/2 inch DIN 3852 mechanical connection along with an M12 x 1 male plug (4 pin) electrical connection. These standard fittings make it easy to integrate into existing setups without the need for additional adapters or modifications.</p><p>With a rated pressure capacity of up to 10 bar, the DMP 331P can handle substantial pressure levels while maintaining precision. The diaphragm made from durable 316L stainless steel coupled with FKM seal material further enhances its resilience against corrosive substances often encountered in industrial settings.</p><p>Its rapid response time of less than 10 milliseconds ensures that real-time monitoring needs are met without delay—an essential feature when quick reaction times are necessary for operational efficiency or safety protocols.</p><p>Overall, the DMP 331P series stands out as a dependable solution engineered for performance under rigorous conditions while offering ease of integration into diverse system architectures.</p>