That’s the new maximum before insulation damage. But the breaker is 20A, so the circuit is limited to 20A anyway.
The mixer draws 16 amps under full load. Well within limit. The kitchen’s exhaust fan breaks. Heat from ovens and griddles rises to the ceiling, where Alex’s wire passes through fiberglass insulation and a roof conduit. Ambient temperature inside the ceiling: 55°C (131°F) . wire derating chart
Use the chart, or rewire the fire later. Find wire’s 90°C column ampacity → multiply by ambient temp factor → multiply by bundling factor (if >3 CCCs) → result must be ≥ load + 125% if continuous. If not, go up one wire gauge. That’s the new maximum before insulation damage
However, if the mixer draws 16A continuously (more than 3 hours), the wire must be derated again by 125% — but here, 16A is fine. But Alex realizes: — because the breaker is thermal and also affected by ambient heat. 4. The Multiplier Trap Alex also has four current-carrying conductors in the same conduit (not just two). Table 310.15(C)(1) says: 4–6 conductors → derate by 0.80. Well within limit
Every electrician who skips derating because “it’ll never get that hot” or “the breaker will trip first” is gambling with insulation life. The chart’s story is simple:
Without derating, that 16-amp load would push conductor temperature over the limit. Insulation hardens, cracks, and eventually shorts. Alex opens the NEC (National Electrical Code) Table 310.16 — the standard wire derating chart. It tells him:
At 55°C ambient, the factor is .