Voltage Drop Calculator

Voltage Drop Calculator — Calculate Electrical Voltage Loss in Circuits

Calculate voltage drop in electrical circuits to ensure proper wire sizing and prevent power loss. Essential for electrical installations, solar systems, and industrial applications.

Step 1: Electrical Parameters

System Voltage (V)

Custom Voltage (V)

Current Load (Amps)

Cable Length (feet)

Phase Type

Understanding Voltage Drop

Voltage drop occurs when electrical current flows through a conductor. Excessive drop can cause equipment malfunction, reduced efficiency, and safety issues. NEC recommends maximum 3% drop for branch circuits.

Step 2: Conductor Specifications

Conductor Material

Wire Size (AWG/kcmil)

Ambient Temperature (°C)

30°C

Conduit Type

Show wire size comparison table

Show voltage drop visualization

About Conductor Materials

Copper has better conductivity than aluminum (approximately 61% higher). Aluminum wires need to be larger to carry the same current. Always follow local electrical codes and consult a licensed electrician.

Voltage Drop Results

Summary

Wire Comparison

Breakdown

Voltage Drop

2.4V

1.0% of 240V

System Voltage

240V

Current Load

20A

Cable Length

100 ft

Wire Size

8 AWG Copper

Wire Size Comparison

Wire Size	Material	Voltage Drop	Percentage	NEC Compliant

Voltage Drop Analysis

Voltage Drop Formula

VD = (2 × K × I × L) / CM (Single Phase)

VD = (1.732 × K × I × L) / CM (Three Phase)

Where: K = conductor resistivity, I = current (A), L = length (ft), CM = circular mil area. For aluminum, use K = 21.2. For copper, use K = 12.9.

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