Cable and Wiring Tools

AWG Wire Size Calculator

Find the smallest AWG conductor that passes both reference ampacity and voltage-drop checks.

Inputs
Result
8 AWG

8 AWG is the smallest listed conductor that passes 20.0 A required ampacity and 3.00% voltage-drop limit.

Required ampacity20.0 A
Selected ampacity40.0 A
Voltage drop2.61 V / 2.18%
Derating applied100%
Next checks
  • Use the selected size as a planning reference, then verify insulation, terminals, installation method, ambient correction, and local code.
  • Run breaker, conduit fill, and voltage-drop checks together before finalizing.
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AWG wire size equation

The calculator checks each AWG size from small to large and selects the first conductor that passes both ampacity and voltage-drop limits.

Required ampacity
Ireq = IloadFc Kbundle
DC or single-phase voltage drop
Vd = 2IloadRftL
Three-phase voltage drop
Vd = 3IloadRftL
Selection rule
Select first AWG where Iamp ≥ Ireq and Vd% ≤ Vlimit

where:

Ireq
Required conductor ampacity after continuous-load and bundling adjustment[A]
Iload
Load current[A]
Fc
Continuous-load factor, 1.25 when selected
Kbundle
Bundled current-carrying conductor derating factor
Vd
Voltage drop[V]
Rft
AWG conductor resistance per foot after material adjustment[ohm/ft]
L
One-way conductor length[ft]
Iamp
Reference ampacity for the AWG conductor[A]
Vlimit
Maximum allowed voltage drop[%]

The internal ampacity table is simplified for planning; final conductor sizing must follow the applicable NEC, IEC, BS, or local standard.

Assumptions

  • Reference ampacity table is simplified for planning
  • Bundling derating follows common 4-6, 7-9, and 10-20 conductor adjustment bands
  • Voltage drop uses copper resistance with material factor

Important Warnings

  • Final conductor sizing must follow the locally adopted NEC/IEC/BS standard, insulation rating, terminal temperature, ambient correction, and installation method.
  • Small-signal conductors may have product-specific limits not captured by building-wire ampacity tables.

FAQ

Why can voltage drop force a larger wire than ampacity?

Long routes can pass current capacity but lose too much voltage before the load, especially on low-voltage circuits.

Why does continuous load change the result?

Continuous loads are commonly sized at 125%, so the conductor must have more ampacity headroom.