NEC Table 310.16 Ampacity Cheatsheet

Table 310.16 — Copper conductors

Ampacity for not more than 3 current-carrying conductors in raceway, cable, or earth. Ambient temperature 30°C (86°F).

AWG / kcmil	60°C (140°F) TW, UF	75°C (167°F) THW, THWN, USE, RHW	90°C (194°F) THHN, THWN-2, XHHW-2, USE-2
#14	15	20	25
#12	20	25	30
#10	30	35	40
#8	40	50	55
#6	55	65	75
#4	70	85	95
#3	85	100	110
#2	95	115	130
#1	110	130	150
1/0	125	150	170
2/0	145	175	195
3/0	165	200	225
4/0	195	230	260
250 kcmil	215	255	290
300 kcmil	240	285	320
350 kcmil	260	310	350
400 kcmil	280	335	380
500 kcmil	320	380	430
600 kcmil	355	420	475
750 kcmil	400	475	535
1000 kcmil	455	545	615

Table 310.16 — Aluminum conductors

Same conditions as copper table above. Aluminum conductors are typically 2 sizes larger than copper for the same ampacity.

AWG / kcmil	60°C (140°F) TW, UF	75°C (167°F) THW, THWN, USE	90°C (194°F) THHN, THWN-2, XHHW-2
#12	15	20	25
#10	25	30	35
#8	30	40	45
#6	40	50	60
#4	55	65	75
#3	65	75	85
#2	75	90	100
#1	85	100	115
1/0	100	120	135
2/0	115	135	150
3/0	130	155	175
4/0	150	180	205
250 kcmil	170	205	230
300 kcmil	190	230	255
350 kcmil	210	250	280
400 kcmil	225	270	305
500 kcmil	260	310	350
600 kcmil	285	340	385
750 kcmil	320	385	435
1000 kcmil	375	445	500

Ambient temperature correction factors

Table 310.16 is based on 30°C (86°F) ambient. In hotter environments — attics, outdoor conduit in Florida, industrial spaces near equipment — derate ampacity using these multipliers.

Ambient temp	60°C insulation	75°C insulation	90°C insulation
10°C or less (50°F)	1.29	1.20	1.15
11–15°C (52–59°F)	1.22	1.15	1.12
16–20°C (61–68°F)	1.15	1.11	1.08
21–25°C (70–77°F)	1.08	1.05	1.04
26–30°C (79–86°F)	1.00	1.00	1.00
31–35°C (88–95°F)	0.91	0.94	0.96
36–40°C (97–104°F)	0.82	0.88	0.91
41–45°C (106–113°F)	0.71	0.82	0.87
46–50°C (115–122°F)	0.58	0.75	0.82
51–55°C (124–131°F)	0.41	0.67	0.76
56–60°C (133–140°F)	—	0.58	0.71
61–70°C (142–158°F)	—	0.33	0.58
71–80°C (160–176°F)	—	—	0.41

Corrected ampacity = Table ampacity × correction factor Example: #6 copper THWN (75A @ 90°C) in 45°C ambient Corrected: 75A × 0.87 = 65.3A

Conduit fill derating — more than 3 current-carrying conductors

Table 310.16 assumes 3 current-carrying conductors. Run more and you must derate — the conductors can't shed heat as easily when packed together.

Number of current-carrying conductors	Ampacity multiplier
4–6	0.80 (80%)
7–9	0.70 (70%)
10–20	0.50 (50%)
21–30	0.45 (45%)
31–40	0.40 (40%)
41 and above	0.35 (35%)

Note: Equipment grounding conductors do not count toward the fill derating. Neutral conductors count only if they carry unbalanced load (which is most of the time in mixed-load circuits).

Applying both factors at once

Final ampacity = Table ampacity × ambient factor × fill factor Example: 8 THWN-2 (#6 copper) conductors in EMT in a 40°C space Table ampacity at 90°C: 75A Ambient factor (40°C, 90°C insulation): 0.91 Fill factor (7–9 conductors): 0.70 Final: 75 × 0.91 × 0.70 = 47.8A

Apply both correction factors when both conditions are present. Always use the corrected ampacity to select conductor size — not the table value.

How to use the table — the right way

Step 1: Determine the termination temperature rating

Most equipment (panelboards, breakers, switches) is listed for 75°C terminations. Use the 75°C column to select your conductor, even if the wire insulation is THHN (rated 90°C). The 90°C column is only used for derating math (see below).

Step 2: Apply derating factors using the 90°C column

When derating for ambient temperature or conductor fill, start with the 90°C column (highest rated), apply the correction factors, and then verify that the final derated ampacity doesn't exceed the 60°C or 75°C column for your termination temperature.

Step 3: Apply continuous load rule

Loads that operate continuously for 3 hours or more require the conductor to be sized at 125% of load. A 60A continuous load requires a conductor rated for at least 75A. Size the conductor first, then verify it meets the 125% overcurrent rule for the OCPD (NEC 210.19, 215.3).

Continuous load: Conductor ampacity ≥ load × 1.25 Non-continuous: Conductor ampacity ≥ load × 1.00 Mixed: Conductor ampacity ≥ (continuous load × 1.25) + (non-continuous load)

Step 4: Select the OCPD

The OCPD (breaker or fuse) must not exceed the conductor ampacity — or if the conductor is derated below the standard breaker size, you use the conductor's derated ampacity to select the OCPD. Always use the lower of the conductor's allowable ampacity and the OCPD standard size that doesn't exceed it.

Common conductor sizing errors

Using the 90°C column for conductor selection with 75°C terminations. THHN is rated 90°C, but if your panelboard is rated for 75°C terminations, you must use the 75°C column. The conductor's insulation rating doesn't override the equipment's termination rating.
Forgetting the continuous load factor. HVAC equipment, receptacle circuits with computers, lighting — these are all continuous loads. If it runs for 3 hours, it's continuous. Size at 125%.
Not counting neutrals. In circuits with non-linear loads (variable frequency drives, electronic ballasts), the neutral carries third-harmonic currents and must be counted as a current-carrying conductor for fill derating.
Ignoring ambient temperature in mechanical rooms and attics. A THWN conductor in an attic in summer (140°F+) is severely derated. Run the numbers before assuming a wire that "looks big enough" is actually big enough.

The practical conductor sizing quick rule

Electricians carry these in their head for quick field estimates. They're not substitutes for the full calculation, but they'll get you in the right neighborhood fast:

Ampacity needed	Copper (75°C) size	Aluminum (75°C) size
15A	#14	(not rated at 15A below #12)
20A	#12	#10
30A	#10	#8
40A	#8	#6
50–55A	#6	#4
70–85A	#4	#2
100A	#1/0	#2/0
125–130A	#2/0	#3/0
150A	#3/0	#4/0
175–200A	#4/0	250 kcmil
230A	350 kcmil	350 kcmil
310–320A	500 kcmil	600 kcmil