Electrical Unit Converter

Convert electrical units instantly and accurately. From amps to watts, kW to kVA, volts to kilovolts, and more. Essential conversion tool for electricians, engineers, and electrical professionals.

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Why Use Our Electrical Unit Converter?

Bidirectional Conversion

Convert in both directions instantly. Enter a value in any field and see all related conversions automatically

Power Factor Support

Accurate kW to kVA conversions with adjustable power factor for real-world electrical calculations

Professional Accuracy

Precise conversions for all common electrical units used in residential, commercial, and industrial applications

Common Electrical Conversions

Basic Units

1000 milliamps:1 amp

1000 watts:1 kilowatt

1000 volts:1 kilovolt

1000 ohms:1 kiloohm

Power Conversions

1 HP:0.746 kW

kVA × PF:kW

kW ÷ PF:kVA

Typical PF:0.8 - 0.95

Electrical Unit Converter

Convert between electrical units instantly with professional accuracy

Quick Examples

Current

Bidirectional

Amps (A)

Milliamps (mA)

Kiloamps (kA)

Microamps (μA)

Voltage

Bidirectional

Volts (V)

Kilovolts (kV)

Millivolts (mV)

Megavolts (MV)

Power

Bidirectional

Watts (W)

Kilowatts (kW)

Megawatts (MW)

Horsepower (HP)

Milliwatts (mW)

BTU/hour (BTU/hr)

Resistance

Bidirectional

Ohms (Ω)

Kiloohms (kΩ)

Megohms (MΩ)

Milliohms (mΩ)

Apparent Power

Bidirectional

Volt-Amps (VA)

Kilovolt-Amps (kVA)

Megavolt-Amps (MVA)

kW ⇄ kVA Power Factor Converter

Real ⇄ Apparent Power

Real Power (kW)

Apparent Power (kVA)

Power Factor (PF)

Formula

kW = kVA × PF

Reactive Power

— kVAR

Efficiency

85.0%

Quick Examples:

Common Electrical Formulas

Ohm's Law

V = I × R

I = V ÷ R

R = V ÷ I

Power Formulas

P = V × I

P = I² × R

P = V² ÷ R

AC Power

P = V × I × PF

S = V × I

Q = V × I × sin(φ)

3-Phase Power

P = √3 × V × I × PF

P = 1.732 × V × I × PF

Energy

E = P × t

kWh = kW × hours

Conversion

1 HP = 746 W

1 BTU/hr = 0.293 W

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Quick Reference Guide

Common conversion factors and formulas for electrical professionals. Bookmark this page for quick access.

Current & Voltage

1 Amp1,000 mA

1 Kilovolt1,000 V

1 Megohm1,000 kΩ

120V / 20A2,400W Circuit

Power & Energy

1 HP Motor746W (746 VA)

10 kW Load12.5 kVA (PF=0.8)

1 kWh3,412 BTU

100A @ 240V24 kW (Unity PF)

Understanding Power Factor in Conversions

Resistive Heating

PF: 1.0 (Unity)

Pure resistance - watts = VA

Incandescent Lights

PF: 1.0 (Unity)

Resistive load - no reactive power

Fluorescent Lights

PF: 0.5 - 0.95

Depends on ballast type and correction

Motors (Loaded)

PF: 0.8 - 0.9

Inductive load - lags voltage

Motors (No Load)

PF: 0.2 - 0.4

High reactive power component

Electronics/LED

PF: 0.5 - 0.95

Non-linear loads - harmonics affect PF

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Electrical Conversion Fundamentals

Real Power vs Apparent Power

Real Power (kW) is the actual power consumed by electrical equipment, while Apparent Power (kVA) is the total power supplied including reactive components. The relationship is kW = kVA × Power Factor. Understanding this difference is crucial for proper electrical system sizing and billing calculations.

Power Factor Importance

Power Factor (PF) ranges from 0 to 1.0 and represents how efficiently electrical power is being used. A PF of 1.0 (unity) means all power is being used effectively. Lower power factors result in higher currents for the same real power, requiring larger conductors and transformers. Many utilities charge penalties for poor power factor.

Common Conversion Applications

Electricians use these conversions for load calculations, wire sizing, and troubleshooting. Engineers apply them in system design and power studies. Common scenarios include converting motor nameplate ratings, calculating circuit loads, sizing transformers, and determining energy consumption for cost analysis.

Metric vs Imperial Units

While electrical units are standardized globally (amps, volts, watts), different regions may use different power ratings and conductor sizes. In the US, wire gauges use AWG, while international standards use mm². Understanding these conversions is essential for working with international equipment and following various electrical codes.

Professional Calculation Notice

This converter provides accurate unit conversions for planning and reference purposes. Real-world electrical systems may have additional factors affecting performance. Always consult local electrical codes, consider temperature derating, voltage regulation, and safety factors. Verify calculations with licensed professionals for critical applications.

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