<p>In the realm of industrial and commercial applications, selecting the right accessory can significantly impact system performance. The Multi-Purpose Connecting Clamp is a robust solution designed for those who require reliable connectivity in isolated lightning protection systems. Crafted from high-quality stainless steel, this clamp ensures durability and longevity, even in challenging environments.</p><p>The dimensions of this accessory are compact yet practical with a width, height, and depth each measuring 4 mm. Despite its small size, it boasts an impressive weight of 0.0962 kg which speaks to its solid construction. This makes it a fitting choice for installations where space is at a premium but strength cannot be compromised.</p><p>Engineered to comply with EN 62561-1 standards and approvals, the clamp guarantees adherence to industry benchmarks for safety and performance. It is capable of handling lightning currents up to 100 kA, making it suitable for high-demand applications where effective grounding and bonding are critical.</p><p>One of the key features of this connecting clamp is its versatility in conductor compatibility. With a clamping range accommodating diameters from 8 mm to 10 mm, it offers flexibility in use without sacrificing secure attachment. The conductor size matches perfectly at 8 mm ensuring optimal fitment.</p><p>Installation is streamlined thanks to the M10 x 30 mm thread size which provides sturdy anchoring capability while allowing straightforward integration into existing setups or new projects alike. The untreated finish maintains the material&#39;s natural resilience against environmental factors without additional coatings that might degrade over time.</p><p>Overall, this Multi-Purpose Connecting Clamp stands out as an essential component for professionals seeking dependable accessories within their lightning protection infrastructure. Its combination of strong material composition, compliance with stringent standards, and adaptable design makes it an invaluable asset across various technical scenarios involving isolated systems.</p>