<p>For professionals in the industrial and commercial sectors, precision and reliability are paramount. The 26.600 G Ceramic Sensor delivers both with its robust design and dependable performance. This sensor is engineered for applications where accurate pressure measurement is crucial, offering a solid balance of technical features suited to demanding environments.</p><p>The sensor provides an output type of 4-20 mA, a standard in process control that ensures compatibility with various systems. With an accuracy of 0.5% Full Scale Output (FSO), it guarantees precise readings, making it ideal for monitoring critical parameters where even minor deviations can have significant impacts.</p><p>Designed to withstand harsh conditions, the operational temperature range extends from -40 to 125 degrees Celsius. This broad range ensures that the sensor performs consistently whether it&#39;s exposed to extreme cold or high heat, making it versatile for use in diverse climatic conditions across Australia.</p><p>Meeting rigorous standards and approvals like CE, cULus, REACH, and RoHS, this ceramic sensor aligns with global compliance requirements ensuring safety and environmental responsibility. These certifications provide peace of mind regarding quality assurance and adherence to international norms.</p><p>With a rated pressure capacity of 160 bar, the sensor is well-suited for high-pressure applications often found in industrial settings. The mechanical connection follows the G1/4 inch DIN 3852 standard—commonly used for secure fittings—ensuring ease of installation and maintenance without compromising on sealing efficacy.</p><p>Electrical connectivity is streamlined through male and female plug connections compliant with ISO 4400 standards. This feature enhances flexibility during installation while maintaining reliable electrical performance under variable conditions.</p><p>Overall, the 26.600 G Ceramic Sensor stands as a reliable choice for those seeking durability combined with technical excellence in pressure sensing solutions within industrial frameworks.</p>