Is 10 AWG OK for 30A at 75 ft? — NEC Compliance Check
10 AWG copper: 30A ampacity, 4.66% voltage drop at 75 ft for 30A on 120V. NEC 2023 result: NOT compliant.
Advanced options — derating, breaker & conduit
FAIL
NEC 2023
Ampacity OKVD 4.66%
Upgrade to 8 AWG copper
Ampacity utilization100% of 30A
30A
Ampacity
at 60°C
24A
Continuous limit
80% of ampacity
4.66%
Voltage drop
5.59V
114.4V
At load
receiving end
30A
Breaker size
NEC 240.6(A)
~$108
Wire cost est.
150 ft THHN
3/4" EMT
Conduit size
3 conductors
10 AWG Cu
Ground wire (EGC)
NEC 250.122
162W
Power loss
~$198.67/yr
⚠Voltage drop 4.66% exceeds 3% limit. Min for VD: 8 AWG.
Is 10 AWG sufficient for 30A at 75 ft on 120V?
10 AWG copper has an ampacity of 30A at 60°C and 10,380 circular mils.
For a 30A load at 75 ft on 120V, the voltage drop is 5.59V (4.66%).
NEC result: ✗ NOT COMPLIANT — Voltage drop 4.66% exceeds 3% limit. Min for VD: 8 AWG.
Ampacity & voltage drop check
NEC 2023 Table 310.16. Voltage drop recommendation per NEC 215.2.
Recommendation: Upgrade to 8 AWG
10 AWG does not meet NEC guidelines for this circuit. Upgrade to 8 AWG.
Voltage drop requires ≥ 16,125 CM → minimum 8 AWG.
Assumptions behind this wire check
Calculation assumes copper conductors, 60C insulation/terminal rating, single-phase power, not more than 3 current-carrying conductors, and 30C ambient unless the interactive calculator is changed.
Ampacity is based on NEC 2023 Table 310.16. Voltage drop uses the standard circular-mil formula and the branch-circuit planning target shown on the page.
The result checks conductor ampacity and voltage drop; it does not inspect breaker type, local amendments, conduit fill for mixed conductors, temperature at terminals, or equipment nameplate rules.
Safety and code review notes
Do not use a wire-size calculator as installation approval for energized work. Final conductor size must match the equipment nameplate, breaker, insulation, raceway, ambient temperature, and local code requirements.
Continuous loads, HVAC MCA/MOCP labels, aluminum terminations, wet locations, burial depth, and shared raceways can change the final legal wire size.
This scenario has warnings: Voltage drop 4.66% exceeds 3% limit. Min for VD: 8 AWG.
Nearby gauge alternatives for this load
Nearby AWG options for 30A at 75 ft on 120V. Use the final installation conditions before choosing a smaller conductor.
Voltage drop by nearby gauge
Visual Analysis1 series8 points
Interactive bar view for 1 series and 8 sampled points, built for quick reading and clear comparison.
Trend
Downward
Min
0.58
Max
7.41
Insight
Voltage drop by nearby gauge shows a downward pattern, with a visible peak around 12 AWG at 7.41.X-axis: GaugeY-axis: Voltage drop (%)
Voltage drop by nearby gauge
Breaker, ground wire, conduit, and loss planning
Planning values are contextual helpers. Breaker, EGC, and raceway choices must be checked against the real wiring method and local code.
Derating sensitivity for this gauge
How 10 AWG ampacity changes as conductor count and ambient temperature increase.
Voltage drop derivation
Wire gauge check FAQ
Is 10 AWG safe for 30A at 75 ft?
10 AWG does not fully pass the modeled checks. Use the recommendation and confirm the real installation conditions before choosing a conductor.
10 AWG does not fully pass the modeled checks. Use the recommendation and confirm the real installation conditions before choosing a conductor.
Why can voltage drop fail when ampacity passes?
Ampacity checks heat at the conductor rating. Voltage drop checks delivered voltage over distance, so a long run can need a larger wire even when the load amperage is allowed.
Ampacity checks heat at the conductor rating. Voltage drop checks delivered voltage over distance, so a long run can need a larger wire even when the load amperage is allowed.
Should continuous loads use a larger conductor?
Continuous loads are commonly planned at 125%. This page models a continuous-load conductor limit of 24A for the selected gauge.
Continuous loads are commonly planned at 125%. This page models a continuous-load conductor limit of 24A for the selected gauge.
What can change this result?
Breaker size, terminal temperature, conductor material, insulation, conduit fill, ambient temperature, local code, and equipment nameplate rules can change the final legal answer.
Breaker size, terminal temperature, conductor material, insulation, conduit fill, ambient temperature, local code, and equipment nameplate rules can change the final legal answer.