Impedance of Secondary Winding given Secondary Parameters Calculator

✖EMF Induced in Secondary Winding is the production of voltage in a coil because of the change in magnetic flux through a coil.ⓘ EMF Induced in Secondary [E₂]			+10% -10%
✖Secondary Voltage is defined as the voltage on the secondary side of a transformer or the side at which load is connected.ⓘ Secondary Voltage [V₂]			+10% -10%
✖Secondary Current is the current which is flows in the secondary winding of transformer.ⓘ Secondary Current [I₂]			+10% -10%

✖The Impedance of Secondary Winding is the impedance you anticipate the device connected to the transformer secondary side to have.ⓘ Impedance of Secondary Winding given Secondary Parameters [Z₂]

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Impedance of Secondary Winding given Secondary Parameters Solution

STEP 0: Pre-Calculation Summary

Formula Used

Impedance of Secondary = (EMF Induced in Secondary-Secondary Voltage)/Secondary Current
Z₂ = (E₂-V₂)/I₂
This formula uses 4 Variables

Variables Used

Impedance of Secondary - (Measured in Ohm) - The Impedance of Secondary Winding is the impedance you anticipate the device connected to the transformer secondary side to have.
EMF Induced in Secondary - (Measured in Volt) - EMF Induced in Secondary Winding is the production of voltage in a coil because of the change in magnetic flux through a coil.
Secondary Voltage - (Measured in Volt) - Secondary Voltage is defined as the voltage on the secondary side of a transformer or the side at which load is connected.
Secondary Current - (Measured in Ampere) - Secondary Current is the current which is flows in the secondary winding of transformer.

STEP 1: Convert Input(s) to Base Unit

EMF Induced in Secondary: 15.84 Volt --> 15.84 Volt No Conversion Required
Secondary Voltage: 288 Volt --> 288 Volt No Conversion Required
Secondary Current: 10.5 Ampere --> 10.5 Ampere No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Z₂ = (E₂-V₂)/I₂ --> (15.84-288)/10.5

Evaluating ... ...

Z₂ = -25.92

STEP 3: Convert Result to Output's Unit

-25.92 Ohm --> No Conversion Required

FINAL ANSWER

-25.92 Ohm <-- Impedance of Secondary

(Calculation completed in 00.004 seconds)

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Created by Urvi Rathod

Vishwakarma Government Engineering College (VGEC), Ahmedabad

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National Institute of Technology (NIT), Jamshedpur

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< Impedance Calculators

Impedance of Secondary Winding given Secondary Parameters

LaTeX Go Impedance of Secondary = (EMF Induced in Secondary-Secondary Voltage)/Secondary Current

Impedance of Secondary Winding

LaTeX Go Impedance of Secondary = sqrt(Resistance of Secondary^2+Secondary Leakage Reactance^2)

Impedance of Primary Winding

LaTeX Go Impedance of Primary = sqrt(Resistance of Primary^2+Primary Leakage Reactance^2)

Impedance of Primary Winding given Primary Parameters

LaTeX Go Impedance of Primary = (Primary Voltage-EMF Induced in Primary)/Primary Current

Impedance of Secondary Winding given Secondary Parameters Formula

LaTeX Go

Impedance of Secondary = (EMF Induced in Secondary-Secondary Voltage)/Secondary Current
Z₂ = (E₂-V₂)/I₂

What type of winding is used in a transformer?

In core type, we wrap the primary, and secondary windings on the outside limbs, and in shell type, we place the primary and secondary windings on the inner limbs. We use concentric type windings in core type transformer. We place a low voltage winding near the core. However, to reduce leakage reactance, windings can be interlaced.

How to Calculate Impedance of Secondary Winding given Secondary Parameters?

Impedance of Secondary Winding given Secondary Parameters calculator uses Impedance of Secondary = (EMF Induced in Secondary-Secondary Voltage)/Secondary Current to calculate the Impedance of Secondary, The Impedance of Secondary Winding given Secondary Parameters formula is defined as the impedance in the secondary winding of the transformer. Impedance of Secondary is denoted by Z₂ symbol.

How to calculate Impedance of Secondary Winding given Secondary Parameters using this online calculator? To use this online calculator for Impedance of Secondary Winding given Secondary Parameters, enter EMF Induced in Secondary (E₂), Secondary Voltage (V₂) & Secondary Current (I₂) and hit the calculate button. Here is how the Impedance of Secondary Winding given Secondary Parameters calculation can be explained with given input values -> -25.92 = (15.84-288)/10.5.

FAQ

What is Impedance of Secondary Winding given Secondary Parameters?

The Impedance of Secondary Winding given Secondary Parameters formula is defined as the impedance in the secondary winding of the transformer and is represented as Z₂ = (E₂-V₂)/I₂ or Impedance of Secondary = (EMF Induced in Secondary-Secondary Voltage)/Secondary Current. EMF Induced in Secondary Winding is the production of voltage in a coil because of the change in magnetic flux through a coil, Secondary Voltage is defined as the voltage on the secondary side of a transformer or the side at which load is connected & Secondary Current is the current which is flows in the secondary winding of transformer.

How to calculate Impedance of Secondary Winding given Secondary Parameters?

The Impedance of Secondary Winding given Secondary Parameters formula is defined as the impedance in the secondary winding of the transformer is calculated using Impedance of Secondary = (EMF Induced in Secondary-Secondary Voltage)/Secondary Current. To calculate Impedance of Secondary Winding given Secondary Parameters, you need EMF Induced in Secondary (E₂), Secondary Voltage (V₂) & Secondary Current (I₂). With our tool, you need to enter the respective value for EMF Induced in Secondary, Secondary Voltage & Secondary Current and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Impedance of Secondary?

In this formula, Impedance of Secondary uses EMF Induced in Secondary, Secondary Voltage & Secondary Current. We can use 1 other way(s) to calculate the same, which is/are as follows -

Impedance of Secondary = sqrt(Resistance of Secondary^2+Secondary Leakage Reactance^2)

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