Three-Phase Electrical Calculator

Three-Phase Calculator — Electrical Power & Current Calculations

Calculate three-phase electrical parameters including power, current, voltage, and power factor. Get precise calculations for industrial and commercial electrical systems.

Step 1: Electrical Parameters

Voltage (Line-to-Line)

Current

Power Factor

0.90

System Type

Electrical Parameters

Three-phase systems are commonly used for industrial and commercial power distribution. Line-to-line voltage is typically 400V or 480V in most systems.

Step 2: Power Details

Frequency

Phase Angle (Degrees)

System Efficiency

Load Type

Show phase vector diagram

Show power triangle

Three-Phase Power Formula

Three-phase power (P) = √3 × V × I × PF, where V is line-to-line voltage, I is line current, and PF is power factor. For Wye systems, phase voltage = line voltage / √3.

Three-Phase Calculation Results

Summary

Phase Vectors

Power Breakdown

Total Apparent Power

34.64 kVA

Real Power: 31.18 kW

Real Power (P)

31.18 kW

Reactive Power (Q)

15.13 kVAR

Apparent Power (S)

34.64 kVA

Power Factor

0.90

Three-Phase Vector Diagram

Phase A Voltage

230V ∠0°

Reference Phase

Phase B Voltage

230V ∠-120°

120° Lagging

Phase C Voltage

230V ∠120°

120° Leading

Line-to-Line

400V

Phase-to-Phase

Three-Phase Vector Relationships

In a balanced three-phase system, voltages are separated by 120°. Line-to-line voltage = √3 × phase voltage. For Wye configuration, line current = phase current.

Power Components & Efficiency

Three-Phase Power Formulas

Three-Phase Power Calculations

Apparent Power (S) = √3 × V_L-L × I_L
Real Power (P) = √3 × V_L-L × I_L × PF
Reactive Power (Q) = √3 × V_L-L × I_L × sin(θ)
Power Factor = cos(θ) = P / S

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