Electrical Tools & Field Work

How to Calculate Voltage Drop for Electricians

Learn how to calculate voltage drop with a simple 240V example and see how Sparky Toolbox shows voltage loss, percentage drop, and resistance in ohms/kft.

Voltage drop becomes more important as a conductor run gets longer.

A feeder to a detached building, a remote panel, site lighting, or equipment at the far end of a building may need a quick voltage-drop check before wire is ordered.

Quick Voltage Drop Example

Example: a 240V single-phase circuit supplying a 44A load. The load is 160 feet from the panel using #6 copper conductors.

Measure the distance from the panel to the load in one direction.

One-way distance = 160 feet

Because this is an AC circuit, the calculation doubles the distance to include the path out to the load and back.

160 feet × 2 = 320 feet total conductor path

Get the conductor resistance from NEC Chapter 9, Table 8.

For this example:

#6 copper resistance = 0.491 ohms/kft

Now find the total circuit resistance:

0.491 ohms/kft × 320 feet ÷ 1,000 = 0.157 ohms

Now calculate voltage drop:

44 amps × 0.157 ohms = 6.9 volts dropped

Next, calculate the percentage of voltage drop:

6.9 volts ÷ 240 volts × 100 = 2.9% voltage drop

The load will receive approximately:

240 volts − 6.9 volts = 233.1 volts

Final Results for This Example

  • System voltage: 240V single-phase
  • Load current: 44 amps
  • One-way distance: 160 feet
  • Total conductor path used in the calculation: 320 feet
  • Conductor: #6 AWG copper
  • Conductor resistance: 0.491 ohms/kft
  • Voltage drop: 6.9 volts
  • Voltage-drop percentage: 2.9%
  • Voltage at the load: approximately 233.1 volts

How Sparky Toolbox Helps

Instead of finding conductor resistance, calculating the total circuit length, and working out the voltage-drop percentage by hand, enter the circuit details into Sparky Toolbox.

The Voltage Drop Calculator shows:

  • Voltage dropped over the run
  • Voltage-drop percentage
  • Conductor resistance in ohms/kft

That gives you a quick starting point before ordering wire or planning a long run.

Important Reminder

This is one simple single-phase example. Voltage drop can change based on system voltage, phase, conductor material, conductor size, load current, circuit length, conductor temperature, and installation conditions.

Always verify project details, equipment requirements, approved plans, and local inspection requirements before installation.

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