Motor Full Load Current Calculator
Estimate motor FLA, apparent power, and feeder planning current from voltage, output power, efficiency, and power factor.
Motor Inputs
Calculated Motor Demand
⚠️ Engineering Caution:
This tool is intended for screening and pre-check workflows. Results are usually directionally useful, but they
can still shift with equipment selection, environmental conditions, naming conventions, revision status, or
interpretation rules. Confirm any value that affects ordering, substitution, compliance, or installation before
acting on it.
Frequently Asked Questions
Can I enter horsepower or kilowatts?
Yes. This calculator supports both HP and kW so you can estimate motor current from the values you actually have in hand.
Does this replace nameplate data?
No. It is a practical engineering estimate. Final decisions should still be checked against actual motor nameplate data and applicable code references.
What This Calculator Is For
Motor current is one of the first values engineers need when planning feeders, breakers, overload settings, and panel capacity. A simple lookup table is useful, but in practice many users want a more flexible engineering estimate based on their actual motor inputs.
This tool is designed for that flexible planning workflow.
Typical questions include:
- What full-load current should I expect for a
15 kWthree-phase motor at400 V? - How does current change if I assume different efficiency or power factor values?
- What current should I carry into feeder or panel planning for a given motor size?
What It Calculates
The calculator estimates:
- motor full-load current
- apparent power in kVA
- real power in kW
- a practical 125% feeder planning current reference
Core Relationships
For motor power conversion:
kW = HP × 0.746
For current estimation:
- Single-phase:
I = kW × 1000 ÷ (V × PF × Efficiency) - Three-phase:
I = kW × 1000 ÷ (√3 × V × PF × Efficiency)
For a simple feeder-planning reference:
Planning Current = FLA × 1.25
Practical Use Cases
This tool is useful for:
- motor feeder planning
- breaker and conductor pre-checks
- panel loading evaluations
- comparing motor options across voltages
- creating quick design estimates before detailed code review
Important Limitations
This tool is an engineering estimate, not a substitute for nameplate data or code tables. Final design may still depend on:
- actual nameplate current
- NEC or IEC table references
- service factor and duty cycle
- starting method and inrush behavior
- project-specific protection rules
Use this calculator as a practical design helper before final coordination and code checks.
FAQ
How is this different from the existing motor FLA tool?
This version is positioned as a flexible engineering design calculator using freely entered efficiency and power factor assumptions, while the existing tool remains useful as a more check-oriented FLA reference.
Can I enter horsepower or kilowatts?
Yes. The calculator supports both horsepower and kilowatts.
Does this replace nameplate current?
No. Nameplate current should always win for final field decisions. This tool is for planning and comparison.