| | Thermal Resistivity | Derating factor | |------------------------|-------------------------|---------------------| | Damp clay/loam | 1.0 – 1.5 | 1.05 – 1.10 | | Standard (IEC assumed) | 2.5 | 1.00 | | Dry sand/gravel | 3.0 – 4.0 | 0.70 – 0.85 | 4. Depth of Burial (for buried cables) Deeper burial reduces heat dissipation (soil is cooler but more insulating).
Note: Always check manufacturer tables for exact values. When multiple cables run together, each heats its neighbors. The closer and more cables, the higher the derating. derating factor for cables
| | Arrangement | Derating factor | |----------------------|--------------------------------|---------------------| | 1 | Single circuit, free air | 1.00 | | 2–3 | Touching, in air | 0.80–0.85 | | 4–5 | Touching, in air | 0.70–0.75 | | 6–8 | Touching, in air | 0.60–0.65 | | >9 | Touching, in air | 0.50–0.55 | | | Thermal Resistivity | Derating factor |
Actual Cable Ampacity = Rated Ampacity (in ideal conditions) × Derating Factor Cables generate heat when carrying current. If ambient temperature is high, cables are bunched together, or buried in insulation, heat dissipation worsens. Without derating, insulation melts, causing short circuits or fires. Key Derating Factors (Per IEC & NEC Standards) 1. Ambient Temperature Derating Cables are rated at a reference temperature (e.g., 30°C for PVC, 40°C for XLPE). Above that, capacity drops. When multiple cables run together, each heats its neighbors