Conversion using the Series Resistor Formula
Series Resistor Formula
If you need your resistors in parallel, you can read our parallel resistor calculator for that. The total resistance Rtotal in a series circuit is caluclated using:
For Example, If you have three resistors with values R1 = 100Ω, R2 = 220Ω, and R3 = 330Ω:
Series Resistor Features
- User-Friendly Input: Enter the resistance values in ohms (Ω) for each resistor.
- Real-Time Calculation: As you input values, the total resistance is updated instantly.
- Support for Multiple Resistors: Add as many resistors as needed for your circuit design.
- Unit Compatibility: Accepts values in different units, such as kilo-ohms (kΩ) or mega-ohms (MΩ), with automatic conversion.
Suggested Reading
- Kilovolt-amps (KVA) to Volt-amps (VA) Conversion Calculator
- Kilowatt-hours (KWh) to Milliamp-hour (mAh) Conversion Calculator
- Volts (V) to joules (J) Conversion Calculator
- Kilowatts (KW) to amps (A) Conversion Calculator
- Kilowatts (Kw) to Volts (V) Conversion Calculator
- Kilovolt-amps (KVA) to Amps (A) Conversion Calculator
Series Resistor conversion Application
- Circuit Design: Determine the equivalent resistance of resistors in series to meet specific voltage and current requirements.
- Education: Helps students understand series circuit concepts and calculations.
- Troubleshooting: Identify and replace faulty resistors in electronic devices.
Frequently Asked Questions - FAQs for Series Resistor Calculator
All of those reactances add up for a higher value of overall resistance.
The current through each resistor in a series circuit diagram is, yes, the same.
you can divide the voltage across each resistor to get lower voltages.
To provide protection from too much power, a series resistor is needed to limit current with LEDs.
They’re used in devices like radios, TVs, and computers, to control voltage and current.