Voltage Drop Calculator

Source Voltage (V)

Load Current (Amps)

Source Voltage (V)

Cable Length — one way (ft)

Wire Resistance (Ω/1000ft)

Phase

Voltage Drop

—

Volts Drop

Vdrop = 2 × I × R × L ÷ 1000

0—50 V drop

Conversion Visualization LIVE

Overview

Understanding Voltage Drop

Voltage drop reduces available power at the load. NEC recommends max 3% for branch circuits and 5% total from service to final outlet.

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Formula

1φ: Vdrop = 2 × I × R × L ÷ 1000. 3φ: use √3 instead of 2.

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NEC Limits

Max 3% on branch circuits, 5% total. Exceeding causes dim lights and motor issues.

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Applications

Wire sizing, long cable runs, solar panel wiring, industrial feeders.

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Key Factors

Current, wire gauge (resistance), cable length, and phase type all affect drop.

Formula

Voltage Drop Formula

Calculate voltage lost across conductors.

Vdrop = 2 × I × R × L ÷ 1000 (single-phase)

I = current (amps), R = wire resistance (Ω per 1000ft), L = one-way length (ft). For 3-phase: use √3 instead of 2.

Steps

How to Calculate Voltage Drop

4 steps to determine voltage drop.

01

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Know Your Current

Determine the load current in amps.

02

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Measure Cable Length

One-way distance from panel to load in feet.

03

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Get Wire Resistance

Look up Ω/1000ft for your wire gauge (e.g., 12 AWG = 1.588).

04

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Calculate Drop

Vdrop = 2 × I × R × L ÷ 1000. Check if % drop is within limits.

Reference

Wire Resistance Chart (Copper)

Resistance in Ω per 1000 ft for common wire gauges.

AWG	Ω/1000ft	Max Amps (60°C)	Typical Use
14	2.525	15	Lighting circuits
12	1.588	20	General outlets
10	0.999	30	Dryers, AC units
8	0.628	40	Ranges, feeders
6	0.395	55	Large appliances
4	0.249	70	Feeders, sub-panels
2	0.156	95	Service entrance

Examples

Voltage Drop Examples

Real-world cable sizing scenarios.

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Home Circuit

20A on 12 AWG, 75ft run, 120V:
2 × 20 × 1.588 × 75 ÷ 1000 = 4.76V (3.97% — OK)

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Industrial Feeder

100A on 4 AWG, 200ft, 480V 3φ:
√3 × 100 × 0.249 × 200 ÷ 1000 = 8.63V (1.80% — excellent)

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Solar Panel Run

30A on 10 AWG, 150ft, 240V:
2 × 30 × 0.999 × 150 ÷ 1000 = 8.99V (3.75% — borderline)

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FAQ

Voltage Drop FAQ

Common questions about voltage drop.

NEC recommends max 3% for branch circuits and 5% total. Some jurisdictions are stricter.

Use larger wire gauge, shorten cable runs, or increase voltage (e.g., 240V instead of 120V).

Wire resistance. Longer runs, smaller wire, and higher current all increase voltage drop.

Yes. Voltage drop creates heat in the wire (I²R losses), wasting energy and potentially causing fires.

The basic formula is similar, but AC adds impedance effects. For most residential/commercial work, the resistive formula is adequate.