AboutPrivacy-policyTerms-conditionsFaqContact

    Voltage Divider Inductor Calculator | Simplify Inductor Voltage Design

    Created by Md jony islam

    All body ads

    Voltage Divider Inductor to Inductor Calculated

    Voltage Divider Calculator. use this online tool to calculate the output voltage of a Inductors divider circuit for a given set of Inductors values and source voltage. Our Voltage Divider Inductor Calculator simplifies the process by allowing you to calculate voltage drops across inductors quickly and accurately.

    Inductor Voltage divider Calculator

    Voltage divider Inductor circuit

    View

    Download

    Voltage Divider inductance to inductance1 HL1Power Supply+-Vin© Online Works ToolsV2L20.5 H8 V12 V4 VV1
    Fig-1: Voltage Divider Inductance Circuit
    V
    • nanoVolts (nV)
    • microVolts (µV)
    • milliVolts (mV)
    • Volts (V)
    • kilovolts (kV)
    • megavolts (MV)
    H
    • henry (H)
    • millihenry (mH)
    • microhenry (µH)
    • nanohenry (nH)
    • picohenry (pH)
    H
    • henry (H)
    • millihenry (mH)
    • microhenry (µH)
    • nanohenry (nH)
    • picohenry (pH)
    V
    • Picovolts (pV)
    • nanovolts (nV)
    • microvolts (µV)
    • millivolts (mV)
    • Volts (V)
    • Kilovolts (KV)
    • megavolts (MV)
    V
    • Picovolts (pV)
    • nanovolts (nV)
    • microvolts (µV)
    • millivolts (mV)
    • Volts (V)
    • Kilovolts (KV)
    • megavolts (MV)

    Learn how we tools this below

    Add this tools to your site

    Buy me a for Source Code

    What is the Voltage Divider Inductance?

    The voltage divider calculator calculates the output voltage of the voltage divider network based on the value of the Inductor, L1, Inductor, L2, and the input voltage, Vin. This output voltage Vout, which is the voltage that is dropped across the Inductor, L2, is calculated by the formula

    Inductor Divider Calculator
    Fig-1: Inductor Divider Calculator

    🙋 Check our Resistor Wattage calculator and discover

    Voltage Divider Law (Resistive Circuit) - Voltage divider equations:

    For a circuit with two Inductor L1 and L2 in series connected to a voltage source Vin:

    Total Inductance (Ltotal):

    Ltotal = L1 + L2

    For Example, R1 = 2 µH, L2 = 3 µH, or Vin = 10V

    Ltotal = 2 µH + 3 µH = 5 µH

    Voltage Across L1 (V1):

    V1 = Vin ×L1L1 + L2

    For Example, L1 = 2 µH, L2 = 3 µH, or Vin = 10V

    V1 = 10 ×22 + 3 = 4V

    Voltage Across R2 (V2) NO Load:

    V2 = Vin ×L2L1 + L2

    For Example, L1 = 2 µH, L2 = 3 µH, or Vin = 10V

    V2 = 10 ×32 + 3 = 6V

    Suggested Reading

    What Is an Inductive Voltage Divider?

    An inductive voltage divider is designed based on the concept of inductive reactance. When AC is passed through a series combination of inductors then the voltage is divided in proportion to inductive reactance of each inductor involved. This one is widely employed in high frequency circuits where RF circuits and signal conditioning is available.

    Inductor Divider conversion application

    Frequently Asked Questions - Inductor Calculator Conversion FAQs:

    What is an inductive voltage divider?

    It is a circuit of an AC voltage that is divided depending on the reactive inductance of 2 series inductors.

    Can this calculator be used for DC circuits?

    Inductors do not have reactance in the DC circuit so the calculator is intended only for the AC circuits.

    How does frequency affect the voltage division?

    The dependency of inductive reactance on the frequency determines the voltage ratio.

    Can I calculate impedance with this tool?

    This calculator is specifically for voltage divider calculators, but it uses reactance as part of the process.

    How accurate are the results?

    These are theoretical results based on input inductance and frequency values, where Laplace transformation is used.

    You may like these posts

    About the Author

    Md Jony Islam

    Md Jony Islam: Multidisciplinary Engineer & Financial Expert:

    Md. Jony Islam is a highly skilled professional with expertise in electronics, electrical, mechanical, and civil engineering, as well as finance. Specializing in transformer service and maintenance for 33/11kV substations, he ensures reliable and efficient electrical systems. His mechanical engineering skills drive innovative designs, while his financial acumen supports effective project budgeting. With a strong foundation in civil engineering, he contributes to robust infrastructure development. Md. Jony Islam's multidisciplinary approach ensures efficiency, quality, and reliability across all projects.