<p>The LMK 458 Ceramic Sensor is a robust and reliable choice for professionals in the industrial and commercial sectors, seeking precision and durability. Designed with meticulous engineering, this sensor meets a wide range of technical requirements while maintaining operational consistency.</p><p>At its core, the LMK 458 operates with an impressive accuracy of 0.25% Full Scale Output (FSO), ensuring precise measurements in demanding environments. The sensor&#39;s rated current ranges from 0.004 to 0.02 A, making it suitable for various applications where low power consumption is essential.</p><p>Constructed from high-quality materials, the housing is made of 316L stainless steel, known for its corrosion resistance and strength under extreme conditions. The diaphragm material consists of Ceramic Al2O3 at a purity level of 96%, offering excellent mechanical stability and chemical resistance.</p><p>This sensor performs optimally across a broad operational temperature range from -25 to 125 degrees Celsius, accommodating diverse environmental demands without compromising functionality or reliability.</p><p>In terms of compliance, the LMK 458 adheres to several international standards and approvals including ABS, CCS Certificate, CE marking, cULus listing, DNV-Approval, LR-Certificate as well as REACH and RoHS directives. These certifications underscore its global acceptance and commitment to safety and environmental standards.</p><p>The electrical connection utilizes a TPE-U cable which offers flexibility along with resistance to oils and chemicals commonly found in industrial settings. This ensures that connections remain secure even in challenging conditions.</p><p>Additionally, with a mechanical stability rating of 4 g RMS and a response time of just 380 milliseconds (ms), the LMK 458 provides quick feedback necessary for real-time monitoring systems while maintaining structural integrity against vibrations or shocks typically encountered in industrial environments.</p><p>Overall, the LMK 458 Ceramic Sensor stands out as an efficient solution combining advanced technology with durable construction—making it ideal for those who require dependable performance over extended periods across varied applications within harsh settings.</p>