<p>The LMK 809 Ceramic Sensor is a reliable choice for professionals in the industrial and commercial sectors seeking precision and durability. This sensor is designed to meet demanding requirements with its robust features and compliance with international standards.</p><p>At the core of the LMK 809 is its ceramic diaphragm, composed of 96% Al2O3, ensuring high resistance to abrasion and corrosion. This makes it suitable for various applications where chemical exposure or abrasive materials are present. The rated pressure capacity of this sensor stands at 2.5 bar, making it apt for moderate pressure environments.</p><p>The sensor operates efficiently within a temperature range of -25 to 80 degrees Celsius, catering to both cold and warm climates without compromising performance. Its accuracy is rated at 0.35% FSO (Full Scale Output), providing precise measurements crucial for maintaining system integrity.</p><p>The housing material is crafted from durable plastic, offering a lightweight yet sturdy construction that complements its IP68 degree of protection. This rating guarantees complete protection against dust ingress and prolonged immersion in water, enhancing reliability in challenging environments.</p><p>Electrical connectivity is facilitated through a PUR cable, known for its flexibility and resistance to mechanical stress, oils, and chemicals—ideal for industrial settings where robustness is paramount.</p><p>Adhering to stringent standards such as CE, cULus, REACH, and RoHS certifications underscores the LMK 809&#39;s commitment to safety and environmental responsibility. These approvals ensure that the product meets essential health and safety requirements while complying with environmental regulations on hazardous substances.</p><p>With a low rated current range between 0.004-0.02 A, this sensor efficiently manages energy consumption without sacrificing performance—a critical factor in reducing operational costs over time.</p><p>In summary, the LMK 809 Ceramic Sensor provides an excellent balance of accuracy, durability, and compliance with international standards—making it an ideal solution for engineers seeking dependable performance in their systems.</p>