<p>The DMP 331 Stainless Steel Sensor is a reliable choice for professionals in the industrial and commercial sectors seeking precision and durability. This sensor is engineered to deliver consistent performance with an accuracy of 0.10% FSO, making it suitable for applications where precise measurements are critical.</p><p>Operating efficiently across a wide temperature range from -40 to 125 degrees Celsius, the DMP 331 can withstand extreme conditions without compromising its functionality. Its robust design includes a shock resistance of 500 g/1 ms and vibration resistance of 10 g RMS, ensuring stability and resilience in challenging environments.</p><p>The sensor&#39;s output type is standardized at 4-20 mA, providing seamless integration into existing systems that utilize this common industry-standard signal. With a rated pressure capacity of up to 6 bar, it can handle various pressure levels encountered in diverse applications.</p><p>Designed with practicality in mind, the mechanical connection features a standard 1/2 inch NPT fitting, facilitating straightforward installation and compatibility with other equipment. The electrical connection options include a cable outlet or cable with ventilation tube (IP68), offering flexibility depending on your specific needs while ensuring protection against dust and water ingress.</p><p>Safety and compliance are paramount; hence the DMP 331 adheres to CE, cULus, REACH, and RoHS standards. These certifications ensure that the product meets international safety regulations and environmental directives.</p><p>With a swift response time of less than or equal to 10 milliseconds, this sensor provides rapid feedback essential for dynamic monitoring situations. The seal material used is FKM, known for its excellent chemical resistance properties which enhances the longevity of the sensor even when exposed to harsh substances.</p><p>Overall, the DMP 331 series stands out as a dependable solution for those requiring high-performance sensors capable of enduring demanding operational conditions while maintaining accuracy and reliability over time.</p>