30 amp connection - too hot baby!

The NEC has one rating for "standard" circuits, and another rating for "continuous use" circuits.

Circuit breakers are rated to trip at 100%+ rated load, and rated to not trip at 80% or less current. In between, the breaker may never trip, trip after hours, or whatever.

I was looking any outlet and cord temperature ratings--And I did not find anything specific. However, for NEC wiring, there are temperature ratings:

https://lugsdirect.com/WireCurrentAmpacitiesNEC-Table-301-16.htm

Size	Copper Conductors					Aluminum Conductors Copper-Clad Conductors
		60° C (140° F)	75° C (167° F)	90° C (194° F)			60° C (140° F)	75° C (167° F)	90° C (194° F)
AWG Kcmil		Types	Types	Types			Types	Types	Types
		TW	RHW	TBS			TW	RHW	TBS
		UF	THW	SA			UF	THHW	SA, SIS
			THWN	SIS				THW	THHN, THHW
			XHHW	FEP				THWN	THW-2
			USE	FEPB				XHHW	THWN-2
			ZW	RHH				USE	RHH,
				THHN					RHW-2
				THWN					USE-2
				XHHW					XHH, XHHW
									XHHW-2, ZW-2

So--I would start to worry if the insulation was in the 140-194F range... And of course, Ambient temperature affects wiring temperature (cool 70F room vs 95F room in summer sunny conditions)... And cord ratings:

http://www.chem.cmu.edu/groups/bier/procedure_files/general/powercords.pdf

If you wanted to send 30 amps through the plug/cord continuously--Then I would do the 1.25 / 0.80 derating (1/0.80=1.25)

• 30 amps * 1.25 NEC continuous derating = 37.5 ~ 40 amp rated branch wiring/circuit breaker suggested.

Or, as you propose, run at 80% of circuit rated capacity:

• 30 amps * 0.80 NEC continuous current derating = 24 amps max continuous load

Remember of of the power equations is Power = I^2 * R (current squared * resistance)... So as current is increased with fixed resistance, the heating effect goes up even more.

Say you have a 0.1 Ohm resistance and 30 amps vs 24 amp load:

• P = 30a^2 * 0.1 Ohms = 90 Watts heating
• P = 24a^2 * 0.1 Ohms = 57.6 Watts heating
• 24a/30a = 0.80 = 80% (or 20% reduction in current)
• 57.6w/90w = 0.64 = 64% (or 36% reduction in heating)

Hubble makes good connectors (in general)--So I don't think you have a "cheap" connector issue.

I have seen a spool of extension cord get pretty hot. The coiled cord/poor air circulation heats the cord vs just laid out straight point to point.

-Bill