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    Current Divider Inductance Calculator | Calculate current in inductors | Online inductor current calculator

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    Current Divider Inductor to Inductor Calculator

    The Current Divider Inductance Calculator is an efficient tool for the calculation of the current that is passing through the two parallel inductors. Type in the following values for total current and inductance to avoid getting it wrong right from the start. A great match for technicians, engineers, or students who deal with parallel circuits. This reliable and easy-to-operate instrument should help you save time on calculating and eliminate errors.

    Inductor Current divider Calculator

    Current divider Inductor Circuit

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    current divider inductor to inductor12 AIout2 = 4 ACurrentLnIL26 HL1© Online Works Tools3 HIIIIout1 = 8 A
    Fig-1: Current divider Inductor Circuit
    A
    • Picoampere (pA)
    • nanoamperes (nA)
    • microamperes (µA)
    • milliamperes (mA)
    • Amperes (A)
    • kiloamperes (kA)
    H
    • henry (H)
    • millihenry (mH)
    • microhenry (µH)
    • nanohenry (nH)
    • picohenry (pH)
    H
    • henry (H)
    • millihenry (mH)
    • microhenry (µH)
    • nanohenry (nH)
    • picohenry (pH)
    A
    • Picoampere (pA)
    • nanoamperes (nA)
    • microamperes (µA)
    • milliamperes (mA)
    • amperes (A)
    • Kiloamperes (KA)
    A
    • Picoampere (pA)
    • nanoamperes (nA)
    • microamperes (µA)
    • milliamperes (mA)
    • amperes (A)
    • Kiloamperes (KA)

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    What is the Current Divider Inductor

    Use the current divider resistor calculator to quickly determine the current flowing via parallel Inductor. To obtain precise results right away, enter the values for the total current and resistance. Perfect for students, technicians, and electrical engineers. With the help of this simple tool, you can save time, prevent mistakes, and grasp the current divider rule with ease.

    Inductor Divider Calculator
    Fig-1: Inductor Divider Calculator

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

    A specific tool for determining the current passing through inductors connected in parallel is the Current Divider Inductance Calculator. Engineers, technicians, and students can save time and ensure accurate results by using this tool to apply the current divider rule for inductors.
    The current divides between inductors linked in parallel according to their respective inductance values. Inductors' current is directly proportional to their inductance values, in contrast to resistors. The current divider rule for inductors governs this relationship and aids in the analysis and design of parallel inductor circuits.

    Total Current 1 (Iout):

    I1 = Iin × L2L1 + L2

    For Example, Total Current of 12A flows into a parallel circuit with 2 inductors: Inductor 1 L,1 = 3H or Inductor 2 L2 = 6 H

    I1 = 12 × 63 + 6 or, I1 = 4A

    Total Current 2 (Iout):

    I2 = Iin × L1L1 + L2

    For Example, Total Current of 12A flows into a parallel circuit with 2 inductors: Inductor 1 L,1 = 3H or Inductor 2 L2 = 6 H

    I2 = 12 × 33 + 6 or, I2 = 8A

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    Inductor Current Divider Key Features:

    Frequently Asked Questions - Current divider Inductor Conversion FAQs:

    What is the current divider rule for inductors?

    It states that current divides among inductors in parallel based on their inductance values, proportional to their inductance.

    How does this calculator work?

    You enter the total current and inductance values, and the tool calculates the current through each inductor.

    What units should I use for inductance and current?

    Use henries (H) for inductance and amperes (A) for current.

    How is the current divided between inductors?

    Current divides proportionally based on the inductance values.

    Why does higher inductance carry more current?

    In parallel circuits, higher inductance allows more current to flow compared to lower inductance.

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    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.