Transformers and Power Supplies
Boost Converter Calculator
Boost Converter converts the entered electrical measurements into ideal boost output. Use it to the ideal boost output calculation.
Enter values for ideal boost output
Use one consistent electrical operating case for all fields.
How Boost Converter works
The example applies Vout = Vin ÷ (1 − D). Boost Converter uses Input voltage, Duty cycle to report Ideal boost output.
With the loaded values, ideal boost output evaluates to 30.00 V. Hold the remaining entries steady while testing an uncertain input.
Inputs for Boost Converter
Input voltage and Duty cycle belong to Boost Converter. Keep source units with input voltage. For secondary current, use Transformer Current Calculator.
Use the defaults to understand the output, then enter the real circuit or energy data.
- Input voltage
- Example entry: 12 V.
- Duty cycle
- Example entry: 60%.
Reading the Boost Converter result
This output represents Boost Converter.
Compare the output with equipment limits and the applicable design margins. Compare this result with Current Transformer Ratio Calculator when primary current is also needed.
Measurement and units
Check component ratings, isolation requirements, temperature, waveform, and manufacturer limits. Check prefixes on input voltage.
Alternatives should share one documented measurement convention.
Limits of this calculation
Switch, diode, and inductor limits constrain the result.
Unlisted circuit behavior remains outside the computed result. Unentered effects remain outside Boost Converter.
Questions about Boost Converter
What does Boost Converter calculate?
Boost Converter reports ideal boost output.