<p>The LMK 382 Ceramic Sensor is a robust and reliable choice for industrial and commercial applications, offering precision and durability in demanding environments. This sensor is designed to provide accurate measurements with its 4-20 mA output type, making it suitable for integration into various control systems that require precise data transmission.</p><p>Constructed with a housing made from 316L stainless steel, the sensor ensures excellent resistance to corrosion and wear, which is essential in harsh operational settings. The operational temperature range of -40 to 125 degrees Celsius enhances its versatility across different climates and conditions, ensuring consistent performance without compromising accuracy.</p><p>The LMK 382 features a ceramic diaphragm composed of Al2O3 at a purity level of 96%, providing exceptional stability and longevity. This material choice not only enhances the sensor’s ability to withstand high-pressure environments but also contributes to its overall robustness against chemical exposure.</p><p>For electrical connections, the sensor employs a PVC cable setup, facilitating straightforward installation while maintaining reliability over time. The response time of just 380 milliseconds ensures that real-time monitoring needs are met efficiently, allowing for quick adjustments where necessary.</p><p>In terms of compliance and safety standards, the LMK 382 meets CE, cULus certifications as well as REACH and RoHS directives. These approvals underline its adherence to international quality standards and environmental regulations, offering peace of mind regarding safety and sustainability.</p><p>Additionally, the seal material used in this sensor is FKM (fluoroelastomer), known for its excellent resistance to heat and chemicals. This further reinforces the product&#39;s suitability for challenging applications where exposure to aggressive substances might occur.</p><p>Overall, the LMK 382 Ceramic Sensor stands out as a dependable solution tailored for professionals seeking high-quality measurement devices capable of enduring rigorous conditions without sacrificing performance or integrity.</p>