<p>The 17.600 G series is a robust and reliable choice for professionals seeking precision in demanding environments. With an accuracy of 0.5% FSO, it ensures precise measurements essential for industrial and commercial applications. Designed to withstand extreme conditions, this product operates efficiently within a temperature range from -40 to 125 degrees Celsius, making it suitable for use in diverse climates and challenging settings.</p><p>Its compliance with CE, cULus, REACH, and RoHS standards underscores its commitment to safety and environmental responsibility. These certifications ensure that the product meets international quality benchmarks and contributes to sustainable practices.</p><p>Durability is a standout feature of the 17.600 G series, boasting a shock resistance of up to 500 g/1 ms. This capability allows it to endure sudden impacts or vibrations without compromising performance—ideal for high-stress environments where reliability is non-negotiable.</p><p>The mechanical life of this product extends up to 10 million operations, reflecting its long-lasting nature and cost-effectiveness over time. Users can depend on this longevity for consistent operation across various applications without frequent replacements or maintenance interruptions.</p><p>For seamless integration into existing systems, the device features a G1/4 inch DIN 3852 mechanical connection alongside ISO 4400 male and female electrical plug connections. These standardized interfaces facilitate straightforward installation and compatibility with other equipment.</p><p>Constructed with FKM seal material known for its excellent chemical resistance and thermal stability, the product offers enhanced protection against leaks even under harsh conditions or exposure to aggressive substances commonly encountered in industrial settings.</p><p>This combination of precision engineering, durability, ease of integration, and adherence to stringent standards makes the 17.600 G series an asset in any technical setup requiring dependable performance under pressure while maintaining operational efficiency across varied applications.</p>