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Amps to kVA Converter — Circuit Converter
Amps ↔ kVA Converter
Electrical
0
Inputs
Formula
01

What this converter does

This converter turns line current in amps into apparent power in kVA for single-phase and three-phase circuits — handy for reading an existing load off a clamp meter and sizing the supply. Enter the voltage, pick the phase, and read the kVA. Swap the arrow to go back to amps.

No power factor is needed: apparent power is just voltage times current, scaled by √3 for three-phase. For real power in kilowatts, use the Amps to kW converter, which applies power factor.

02

The units it covers

Apparent power from current depends only on the phase and voltage — power factor plays no part.

View all units & their values
UnitSymbolValueMainly used
Line currentAIMeasured at the conductor
Apparent powerkVASTransformer and generator rating
VoltageVVLine-to-line for three-phase
√3 factor√31.732Applies to three-phase only
03

The formula

Apparent power is voltage times current, with √3 for three-phase:

Conversion
kVA = √3 × V × A ÷ 1000 — drop √3 for single-phase

Where:

  • A = the measured line current
  • V = supply voltage (line-to-line for 3-phase)
  • √3 = 1.732, the three-phase factor
04

Worked example

A three-phase line draws 144 A at 400 V. Find the apparent power.

Step 1 · The formula
kVA = √3 × V × A ÷ 1000
Step 2 · Substitute
1.732 × 400 × 144 ÷ 1000 = 99.8 kVA

The load is about 100 kVA — the rating a transformer would need.

05

The units in this example

Line currentsymbol: A

The amperes flowing in each conductor, read from a meter or nameplate. Multiplied by voltage (and √3 for three-phase) it gives apparent power.

Quick apparent-power checks
  • kVA = V × A ÷ 1000 — 1ph
  • kVA = √3 × V × A ÷ 1000 — 3ph
  • 144 A, 400 V, 3ph = 100 kVA
  • √3 = 1.732
Apparent powersymbol: kVA

The total power the supply must carry, used to size transformers, generators and switchgear. It ignores power factor because the phase angle is already built in.

Quick apparent-power checks
  • A = kVA × 1000 ÷ V — 1ph
  • A = kVA × 1000 ÷ (√3 × V) — 3ph
  • 1 kVA, 400 V, 3ph = 1.44 A
  • 1 MVA = 1,000 kVA
06

FAQ

QHow do I convert amps to kVA?
Multiply voltage by amps and divide by 1000; for three-phase also multiply by √3 (1.732).
QDo I need power factor?
No. kVA is apparent power, so voltage and current alone give it; power factor is not used.
08

Sources

US DOE — electric motors · US EIA — electricity basics

InfoCalculator Editorial Team Fact-checked
Updated Jul 2026 · 3 min read · Reviewed by the InfoCalculator editorial team