How Many Amps Is 250 kVA at 575V?

A load with an apparent power of 250 kVA at 575V draws 251.02 amps per line on a three-phase circuit. 575V is a commercial or industrial panel voltage where three-phase is the dominant interpretation. On single-phase at the same voltage the same apparent power would pull 434.78 amps. At a load power factor of 0.8 the load's real power is 200 kW (load-side conversion; a generator or UPS feeding this load has its own separate kW rating set by the manufacturer).

250 kVA equals 251.02 amps at 575 volts (three-phase, L-L)
251.02 Amps
Single Phase (575V)434.78 A
Try: 200kVA at 575V 150kVA at 575V 100kVA at 575V 75kVA at 575V
251.02

Assumes an AC three-phase line-to-line circuit at the input voltage. kVA is apparent power, so no power factor term is involved.

Formulas

Single Phase

I(A) = (kVA × 1000) ÷ V

(250 × 1000) ÷ 575 = 250,000 ÷ 575 = 434.78 A

Three Phase (575V Line-to-Line)

I(A) = (kVA × 1000) ÷ (VL-L × √3)

250,000 ÷ (575 × 1.732) = 250,000 ÷ 995.9 = 251.02 A

Single Phase vs Three Phase

The same 250 kVA unit draws very different current depending on the phase configuration:

ConfigurationFormulaCurrent at 575V
Single Phase250,000 ÷ 575434.78 A
Three Phase (575V L-L)250,000 ÷ (575 × √3)251.02 A

For this specific case, 250 kVA at 575V, three-phase carries about 42.26% less current per line than single-phase at the same voltage. That gap tracks the 1 ÷ √3 factor for L-L three-phase (or 1 ÷ 3 for L-N), which is why three-phase distribution is common at commercial and industrial scale: the same apparent power rides on smaller conductors and smaller breakers.

Generator & UPS Sizing

Load-Side Real Power by Power Factor

A load with an apparent power of 250 kVA draws different amounts of real power depending on the load's own power factor. The table below is a load-side conversion, not a forecast of what a generator or UPS will output for that load: generators and UPS units publish their own independent kW rating set by the engine or inverter design, and that rating is often lower than kVA × the load's PF.

Load TypeLoad PFLoad Real Power (kW)Current at 575V (three-phase, per line)
Resistive (heaters, lights)1.0250 kW251.02 A per line
Mixed typical0.85212.5 kW251.02 A per line
Motors/HVAC0.80200 kW251.02 A per line
Computers/servers (no PFC)0.65162.5 kW251.02 A per line

Note: current draw stays the same across the rows because kVA sets the current, not the load's power factor. PF only affects how much real work (kW) the load does per amp drawn.

Sizing a load against a source. If you are feeding this load from a UPS, generator, or transformer, check the load against both the source's kVA rating AND the source's kW rating. Those are two independent numbers published by the manufacturer. A 10 kVA / 8 kW generator, for example, can supply up to 10 kVA of apparent power AND up to 8 kW of real power, whichever limit is reached first. Do not use the kW figures above as a substitute for the source's published kW rating.

Circuit Sizing: Starting Points

The numbers below are rough order-of-magnitude starting points under typical assumptions (copper conductors, 75°C terminations, short run, no ambient or bundling derates, non-continuous duty). They are not install specs. Actual breaker and wire selection depends on the equipment nameplate, conductor and termination temperature ratings, cable type, run length and voltage-drop target, ambient and bundling conditions, whether the load is continuous, any NEC 430/440 motor or HVAC provisions, and local code.

 Single PhaseThree Phase
Current draw (at full kVA)434.78 A251.02 A
Ballpark branch OCP~500A~300A

For a real install, run the full wire-size calculator with your actual run length, voltage, and drop target, and verify breaker selection against the equipment nameplate and local code.

Energy Cost at Full Load

A load with an apparent power of 250 kVA at load PF 0.85 draws 212.5 kW of real power. Running cost at that draw: $36.13/hour at $0.17/kWh (rates last reviewed April 2026), or $8,670.00/month (8h/day). Full breakdown.

kW Equivalent

250 kVA at PF 0.85 = 212.5 kW. See 212.5 kW to amps at 575V.

Other kVA Ratings at 575V

kVAThree Phase Amps (L-L, per line)Single Phase AmpsReal Power (PF 0.8)
10 kVA10.04 A17.39 A8 kW
15 kVA15.06 A26.09 A12 kW
20 kVA20.08 A34.78 A16 kW
25 kVA25.1 A43.48 A20 kW
30 kVA30.12 A52.17 A24 kW
40 kVA40.16 A69.57 A32 kW
50 kVA50.2 A86.96 A40 kW
75 kVA75.31 A130.43 A60 kW
100 kVA100.41 A173.91 A80 kW
150 kVA150.61 A260.87 A120 kW
200 kVA200.82 A347.83 A160 kW
250 kVA251.02 A434.78 A200 kW

Frequently Asked Questions

250 kVA at 575V is 251.02 amps per line on a three-phase circuit, or 434.78 amps on single-phase at the same voltage.
Three-phase draws 251.02A per line. Single-phase at the same voltage draws 434.78A. Three-phase delivers the same apparent power across three conductors, so each line carries less current and the wire and breakers can be smaller for the same kVA.
This is a sizing question, not a conversion question, and there is no single answer from a page like this. Breaker selection depends on the equipment nameplate FLA, whether the load is continuous (NEC 210.19(A) applies the 125% continuous-load rule), conductor ampacity and termination temperature, any NEC 430/440 motor or HVAC provisions, and local code. The current draw on this page is the input to that sizing process, not the output. Verify against the equipment nameplate and a licensed electrician.
kVA is apparent power (V×I), which sets the current on the circuit and the sizing of conductors, breakers, and windings. kW is real power (the portion that does useful work), equal to kVA×load PF. A load with an apparent power of 250 kVA at load PF 0.8 draws 200 kW of real power. For a source such as a generator or UPS, kVA and kW are two independent manufacturer ratings, not two views of the same spec, and both have to be checked when sizing a load.
Fuel burn is set by the generator's specific-fuel-consumption curve, not a rule of thumb tied to the kVA rating. It varies sharply with fuel type (gasoline vs diesel vs natural gas vs propane), load percentage (partial-load efficiency is much worse than full-load), engine size and age, altitude, and ambient temperature. For a specific unit, check the manufacturer's fuel-consumption curve at your expected load percentage. Generic per-hour estimates from the kVA rating alone are not reliable enough to plan fuel capacity from.
This calculator provides estimates for reference purposes only. Always consult a licensed electrician and verify compliance with the National Electrical Code (NEC) and local electrical codes before performing any electrical work.
person Written by Sean Day verified Reviewed by WireResult update Last updated Apr 11, 2026