<p>The 26.600 G Ceramic Sensor is a robust and reliable choice for industrial applications, engineered to deliver precision and durability in demanding environments. Designed with an output type of 4-20 mA, this sensor provides a consistent signal over its operational range, making it ideal for integration into various control systems.</p><p>With an accuracy of 0.5% Full Scale Output (FSO), the sensor ensures precise measurements, critical for maintaining system efficiency and safety. It operates efficiently across a wide temperature spectrum from -40 to 125 degrees Celsius, offering versatility in both extreme cold and heat conditions.</p><p>This product meets rigorous standards including CE, cULus, REACH, and RoHS certifications. These endorsements affirm its compliance with international safety and environmental regulations, providing peace of mind regarding quality and sustainability.</p><p>The sensor boasts impressive shock resistance at 500 g/1 ms, ensuring reliability even in high-vibration settings. Its mechanical life is rated at an astounding ten million operations, underscoring its long-term dependability.</p><p>Installation is straightforward with a G1/4 inch DIN 3852 mechanical connection that ensures secure fitting in various setups. The electrical connection features both male and female plugs conforming to ISO 4400 standards for easy integration into existing systems.</p><p>Designed for quick responsiveness with a response time of less than or equal to 10 milliseconds (ms), the sensor promptly adjusts to changes in pressure or other parameters it monitors—an essential feature for dynamic processes where timing is crucial.</p><p>Durability is further enhanced by the use of FKM seal material known for excellent chemical resistance—ideal for harsh industrial environments where exposure to oils or aggressive chemicals may occur.</p><p>Overall, the ceramic construction combined with these specifications makes the 26.600 G series an excellent investment for those seeking reliability coupled with precision performance in their sensing applications within industrial contexts.</p>