Wire size scenario

What size wire for 15 amps?

For a 15 amps copper circuit at 240 V single-phase, NEC 310.16 ampacity needs 14 AWG at 75 °C. Over 100 feet, voltage drop bumps the recommendation to 12 AWG (about 2.41% drop). Adjust the run below.

Phase
Termination temperature rating

Recommended wire size

Enter a load, length, and voltage to size the conductor.

How the size was chosen
Ampacity needs
Voltage drop needs
Recommended (larger of the two)
Ampacity of recommended
Voltage drop of recommended
Governing constraint
Estimate only — not a substitute for a licensed electrician. Ampacity from NEC 310.16 (30 °C ambient, ≤3 current-carrying conductors); voltage drop from NEC Ch.9 Table 8. Does not model temperature/conductor-count derating, continuous loads (125%), conduit fill, or full terminal ratings. Verify against the current NEC and your local code / AHJ.

15 amps: the short answer

At 240 V single-phase over 100 feet, a 15 amps copper load needs 12 AWG (about 2.41% drop). Ampacity alone would allow copper 14 AWG, but over 100 feet voltage drop pushes the recommendation up to 12 AWG to stay within the 3% target (about 2.41%).

Before you pull wire

This recommendation covers ampacity and voltage drop only, for copper at 75 °C. It does not apply ambient-temperature or conductor-count derating, the 125% factor for continuous loads, conduit fill, or terminal ratings — any of which can push the size up. Aluminum of the same load typically goes up one or two sizes. Always confirm with a licensed electrician and your local code (AHJ).

Ampacity per NEC 310.16; voltage drop per NEC Ch.9 Table 8 (75 °C copper).

FAQ

What size wire do I need for 15 amps?

For 15 amps of copper at 240 V, NEC 310.16 ampacity at 75 °C needs 14 AWG. Over a 100 feet run, voltage drop calls for 12 AWG, so the recommended size is 12 AWG — the larger of the two. Aluminum, derating, continuous load, and local code may change this; confirm with a licensed electrician.

What size wire for 15 amps on a short run?

On a short run where voltage drop isn't a factor, 15 amps of copper needs 14 AWG at 75 °C by ampacity alone (NEC 310.16, with the NEC 240.4(D) small-conductor breaker cap applied). Longer runs need a larger size for voltage drop — this page assumes 100 feet.

Does this size for ampacity or voltage drop?

Both. The conductor must carry the current (ampacity, NEC Table 310.16) and keep voltage drop within target (NEC Chapter 9 Table 8). The recommended size is the larger of the two. It still doesn't replace ambient or conductor-count derating, the 125% continuous-load factor, conduit fill, or terminal-rating checks — verify with your local code (AHJ).

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Estimate only, based on NEC 310.16 ampacity and NEC Chapter 9 Table 8 voltage drop. Not a substitute for a licensed electrician or your local code (AHJ). It does not fully model ambient or conductor-count derating, the 125% continuous-load factor, conduit fill, or terminal ratings. Verify against the current NEC and local code before wiring. Based on NEC 310.16 and NEC Ch.9 Table 8.