Example: A 10 kW, three-phase motor at 400V with power factor 0.85: [ I_b = \frac100001.732 \times 400 \times 0.85 \approx 17 , A ] A cable’s tabulated current rating (I_t) is given for standard conditions (e.g., 30°C ambient, free air or buried). Real installations rarely meet these ideal conditions. You must derate the cable using factors from standards like IEC 60364 or NEC Table 310.15(B)(2)(a) .
[ I_z = I_t \times C_t \times C_g \times C_v \times C_s ] | Factor | Symbol | Affects | |--------|--------|---------| | Ambient Temperature | C_t | Hotter environment reduces capacity | | Grouping (bunched cables) | C_g | Cables next to each other trap heat | | Soil Thermal Resistivity | C_s | Dry or rocky soil worsens heat dissipation | | Depth of burial | C_v | Deeper burial reduces cooling | electrical cable calculation
Introduction In the world of electrical engineering and installation, selecting the right cable is not merely a matter of convenience—it is a matter of safety, legality, and performance. An undersized cable can overheat, cause a fire, or damage equipment. An oversized cable, while safe, wastes money on unnecessary copper and may be difficult to install. Example: A 10 kW, three-phase motor at 400V
[ S = \frac\sqrtI_sc^2 \times tk ]
The corrected ampacity (I_z) must be ≥ I_b. [ I_z = I_t \times C_t \times C_g