<p>The LMP 307T Stainless Steel Sensor is a robust and reliable choice for professionals seeking precise pressure measurement solutions in industrial and commercial settings. With a strong emphasis on durability and accuracy, this sensor is crafted from high-quality 316L stainless steel, ensuring excellent resistance to corrosion and harsh environmental conditions.</p><p>Designed with precision in mind, the LMP 307T offers an impressive accuracy of 0.35% Full Scale Output (FSO) at pressures greater than or equal to 0.4 bar. This makes it highly suitable for applications where exact measurements are critical. The rated pressure of the sensor stands at 4 meters of water (mH2O), providing dependable performance in various fluid-level monitoring tasks.</p><p>Its IP68 degree of protection guarantees complete dust ingress protection and safeguards against prolonged immersion under specific conditions, making it ideal for challenging environments where moisture or particulate matter might be present.</p><p>The operational temperature range of the sensor spans from 0 to 50 degrees Celsius, allowing it to function effectively across standard industrial temperature ranges without compromising performance.</p><p>In terms of compliance, the LMP 307T meets several industry standards including CE marking, cULus certification, as well as REACH and RoHS directives. This ensures that the product adheres to essential health, safety, and environmental regulations relevant within Australian markets and beyond.</p><p>The electrical connection is facilitated through a durable PVC cable which supports seamless integration into existing systems while maintaining signal integrity over time. Additionally, its swift response time of less than or equal to 10 milliseconds ensures quick data acquisition for real-time monitoring applications.</p><p>Overall, the LMP 307T Stainless Steel Sensor delivers a balanced combination of precision engineering and resilient construction suited for demanding industrial applications where reliability cannot be compromised.</p>