About this calculator
The Voltage Drop Calculator estimates voltage lost along a cable from length, current, conductor resistance, voltage, and phase assumption. It compares the result with common 3% lighting and 5% power guide limits.
Voltage Drop Calculator formula
The calculator uses standard electrical relationships between power, voltage, current, resistance, energy, and time. UK mains is commonly 230V single phase at 50Hz, but users should enter the actual values for their circuit, appliance, battery, or tariff.
- single phase: VD = 2 x L x I x R / 1000
- three phase: VD = sqrt(3) x L x I x R / 1000
- percentage drop = VD / supply voltage x 100
How to use the voltage drop calculator
- Enter the known electrical values shown on the appliance label, battery label, circuit design, or energy bill.
- Choose the circuit type, method, unit, cable size, or calculation mode where relevant.
- Use the default UK reference values only as a starting point, not as a substitute for measured or specified values.
- Review the headline result and the secondary outputs such as kW, kWh, cost, voltage drop percentage, or power rating.
- For mains electrical work, use the result as an estimate only and confirm the design with a qualified electrician.
Worked examples
2.5mm2 cable
Input: 25m, 20A, 2.5mm2 copper at 230V
Calculation: 2 x 25 x 20 x 7.41 / 1000
Result: About 7.41V, or 3.22%
Longer run
Input: 50m at the same current and cable
Calculation: Voltage drop roughly doubles
Result: The circuit may exceed guide limits
Electrical calculation notes
Watts measure power at a point in time. Kilowatt-hours measure energy used over time. Amps measure current, volts measure electrical potential difference, and ohms measure resistance.
AC calculations can need power factor and phase assumptions. A resistive heater is different from a motor, compressor, LED driver, or power supply. When the actual power factor is unknown, the calculator default is only an estimate.
UK safety context
- Mains voltage
- UK single-phase mains is commonly treated as 230V at 50Hz. Some appliances and old references may mention 240V.
- Cable and protective devices
- Cable size, breaker size, installation method, grouping, insulation, ambient temperature, and voltage drop all matter in real installations.
- Energy bills
- Electricity costs depend on your own tariff, standing charge, billing days, VAT, and actual metered consumption.
Limitations and safety disclaimer
This calculator is for education and estimation only. It is not electrical design, installation, inspection, compliance, or safety advice.
- Do not use these results as the sole basis for mains wiring or safety-critical design.
- UK electrical work may need to comply with BS 7671 and Part P Building Regulations.
- Battery and airline guidance can change; check airline and official rules before travelling.
- Manufacturer labels, measured values, and professional inspection should override generic assumptions.
Frequently asked questions
Can I use this for UK mains wiring?
Use it only as an estimate. Mains wiring and circuit design should be checked by a qualified electrician.
What voltage should I use in the UK?
UK single-phase mains is commonly treated as 230V. Use the actual measured or specified voltage where precision matters.
What is power factor?
Power factor describes how effectively AC current is converted into useful power. Motors and power supplies often need a power factor assumption.
What is a kWh?
A kilowatt-hour is one kilowatt of power used for one hour. Energy suppliers bill usage in kWh.
Why might real results differ?
Real circuits vary by voltage, temperature, cable route, installation method, appliance duty cycle, and manufacturer design.
Related calculators
- Wire Size Calculator
- Watts to Amps Calculator
- Ohm's Law Calculator