Lightning Protection Calculation Software | Free

When modeling a deep post or earth electrode, the software tools mentioned above typically take into account the following:

Most software relies on the Electrogeometric Model, which correlates the "striking distance" ($D_s$) to the peak current of the lightning stroke. The fundamental formula used is typically derived from IEC 62305: $$D_s = 10 \cdot I^{0.65}$$ Where $I$ is the peak current (kA). Software algorithms calculate this distance to determine the "zone of protection." lightning protection calculation software

You're looking for software to calculate lightning protection for a deep post or a deep earth electrode! When modeling a deep post or earth electrode,

A major criticism of LPS software is the opacity of algorithms. Users often trust the "green checkmark" without understanding the underlying physics. If the user inputs incorrect soil resistivity or selects the wrong Lightning Protection Level (LPL), the software will meticulously calculate an incorrect result. A major criticism of LPS software is the

Lightning strikes represent a significant threat to personnel safety, structural integrity, and the operational continuity of sensitive electronic systems. The primary objective of a Lightning Protection System (LPS) is to intercept a lightning flash, conduct it safely to earth, and dissipate it without damage to the protected structure.