IAD=K⋅St×ln(θf+βθi+β)cap I sub cap A cap D end-sub equals the fraction with numerator cap K center dot cap S and denominator the square root of t end-root end-fraction cross the square root of l n open paren the fraction with numerator theta sub f plus beta and denominator theta sub i plus beta end-fraction close paren end-root : Cross-sectional area of the conductor ( mm2m m squared : Duration of short circuit ( : Initial and final temperatures ( ∘Craised to the composed with power cap C : Material-dependent constants. Where to Access IEC 60949
The standard follows a three-step process to determine the final permissible current: Calculate Adiabatic Current ( IADcap I sub cap A cap D end-sub iec 60949 pdf free top download
Unlike simpler "adiabatic" calculations—which assume all heat stays trapped in the conductor—IEC 60949 accounts for heat that escapes into surrounding materials. This "non-adiabatic" approach often allows for more optimized cable sizing, especially for longer fault durations. Key Calculation Steps IAD=K⋅St×ln(θf+βθi+β)cap I sub cap A cap D end-sub