Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
Urvi Rathod has created this Calculator and 500+ more calculators!
Anirudh Singh
National Institute of Technology (NIT), Jamshedpur
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11 Other formulas that you can solve using the same Inputs

Equivalent Impedance Of Transformer From Secondary Side
Equivalent Impedance of transformer from secondary=sqrt((Equivalent resistance from Secondary*Equivalent resistance from Secondary)+(Equivalent reactance from secondary*Equivalent reactance from secondary)) GO
Equivalent Resistance From Primary Side When Secondary Winding Resistance
Equivalent resistance of transformer from primary=Resistance of primary winding+(Resistance of Secondary winding/(Voltage Transformation Ratio*Voltage Transformation Ratio)) GO
Equivalent Resistance From Secondary Side When Primary Winding Resistance
Equivalent resistance from Secondary=Resistance of Secondary winding+(Resistance of primary winding/(Voltage Transformation Ratio*Voltage Transformation Ratio)) GO
Impedance Of Secondary Winding
Impedance of Secondary winding=sqrt((Resistance of Secondary winding*Resistance of Secondary winding)+(Secondary leakage Reactance*Secondary leakage Reactance)) GO
Impedance Of Primary Winding
Impedance of primary winding=sqrt((Resistance of primary winding*Resistance of primary winding)+(Primary leakage Reactance*Primary leakage Reactance)) GO
Resistance Of Secondary Winding In Primary
Resistance of Secondary winding in primary=Resistance of Secondary winding/(Voltage Transformation Ratio*Voltage Transformation Ratio) GO
Resistance Of Primary Winding In Secondary
Resistance of Primary winding in Secondary=Resistance of primary winding*Voltage Transformation Ratio*Voltage Transformation Ratio GO
Resistance Of Secondary In Primary When Equivalent Resistance From Primary Side Is Given
Resistance of Secondary winding in primary=Equivalent resistance of transformer from primary-Resistance of primary winding GO
Equivalent Resistance Of Transformer From Primary Side
Equivalent resistance of transformer from primary=Resistance of Secondary winding in primary+Resistance of primary winding GO
Resistance Of Primary In Secondary When Equivalent Resistance From Secondary Side Is Given
Resistance of Primary winding in Secondary=Equivalent resistance from Secondary-Resistance of Secondary winding GO
Equivalent Resistance Of Transformer From Secondary Side
Equivalent resistance from Secondary=Resistance of Primary winding in Secondary+Resistance of Secondary winding GO

11 Other formulas that calculate the same Output

Voltage Transformation Ratio When Equivalent Resistance From Primary Side Is Given
Voltage Transformation Ratio=sqrt(Resistance of Secondary winding/(Equivalent resistance of transformer from primary-Resistance of primary winding)) GO
Voltage Transformation Ratio When Secondary Leakage Resistance Is Given
Voltage Transformation Ratio=sqrt(Resistance of Secondary winding/(Equivalent resistance of transformer from primary-Resistance of primary winding)) GO
Voltage Transformation Ratio When Primary Leakage Resistance Is Given
Voltage Transformation Ratio=sqrt(Resistance of primary winding/(Equivalent resistance from Secondary-Resistance of Secondary winding)) GO
Voltage Transformation Ratio When Equivalent Reactance From Secondary Side Is Given
Voltage Transformation Ratio=sqrt((Equivalent reactance from secondary-Secondary leakage Reactance)/Primary leakage Reactance) GO
Voltage Transformation Ratio When Equivalent Reactance From Primary Side Is Given
Voltage Transformation Ratio=sqrt(Secondary leakage Reactance/(Equivalent reactance from primary-Primary leakage Reactance)) GO
Voltage Transformation Ratio When Primary And Secondary Induced Voltage Is Given
Voltage Transformation Ratio=EMF Induced In The Secondary Winding/EMF Induced In The Primary Winding GO
Voltage Transformation Ratio When Primary And Secondary Number Of Turns Is Given
Voltage Transformation Ratio=Number of Turns in Secondary winding/Number of Turns in Primary winding GO
Voltage Transformation Ratio When Secondary Leakage Reactance Is Given
Voltage Transformation Ratio=sqrt(Secondary leakage Reactance/Reactance of Secondary in primary) GO
Voltage Transformation Ratio When Primary Leakage Reactance Is Given
Voltage Transformation Ratio=sqrt(Reactance of Primary in Secondary/Primary leakage Reactance) GO
Voltage Transformation Ratio When Primary And Secondary Current Is Given
Voltage Transformation Ratio=Primary Current /Secondary Current GO
Voltage Transformation Ratio When Primary And Secondary Voltage Is Given
Voltage Transformation Ratio=Voltage2/voltage1 GO

Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given Formula

Voltage Transformation Ratio=sqrt(Resistance of primary winding/(Equivalent resistance from Secondary-Resistance of Secondary winding))
K=sqrt(R1/(R02-R2))
More formulas
Voltage Transformation Ratio When Primary And Secondary Voltage Is Given GO
Voltage Transformation Ratio When Primary And Secondary Current Is Given GO
Voltage Transformation Ratio When Primary And Secondary Induced Voltage Is Given GO
Voltage Transformation Ratio When Primary And Secondary Number Of Turns Is Given GO
Voltage Transformation Ratio When Secondary Leakage Reactance Is Given GO
Voltage Transformation Ratio When Primary Leakage Reactance Is Given GO
Voltage Transformation Ratio When Primary Leakage Resistance Is Given GO
Voltage Transformation Ratio When Secondary Leakage Resistance Is Given GO
Voltage Transformation Ratio When Equivalent Resistance From Primary Side Is Given GO
Voltage Transformation Ratio When Equivalent Reactance From Secondary Side Is Given GO
Voltage Transformation Ratio When Equivalent Reactance From Primary Side Is Given GO

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 Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given?

Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given calculator uses Voltage Transformation Ratio=sqrt(Resistance of primary winding/(Equivalent resistance from Secondary-Resistance of Secondary winding)) to calculate the Voltage Transformation Ratio, The Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given formula is defined as the square root of Secondary Leakage Reactance and Reactance of Secondary winding in the primary. Voltage Transformation Ratio and is denoted by K symbol.

How to calculate Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given using this online calculator? To use this online calculator for Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given, enter Resistance of primary winding (R1), Equivalent resistance from Secondary (R02) and Resistance of Secondary winding (R2) and hit the calculate button. Here is how the Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given calculation can be explained with given input values -> NaN = sqrt(1/(3-4)).

FAQ

What is Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given?
The Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given formula is defined as the square root of Secondary Leakage Reactance and Reactance of Secondary winding in the primary and is represented as K=sqrt(R1/(R02-R2)) or Voltage Transformation Ratio=sqrt(Resistance of primary winding/(Equivalent resistance from Secondary-Resistance of Secondary winding)). Resistance of primary winding is the resistance of primary winding , Equivalent resistance from Secondary side is the total secondary side resistance and Resistance of Secondary winding is the resistance of secondary winding.
How to calculate Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given?
The Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given formula is defined as the square root of Secondary Leakage Reactance and Reactance of Secondary winding in the primary is calculated using Voltage Transformation Ratio=sqrt(Resistance of primary winding/(Equivalent resistance from Secondary-Resistance of Secondary winding)). To calculate Voltage Transformation Ratio When Equivalent Resistance From Secondary Side Is Given, you need Resistance of primary winding (R1), Equivalent resistance from Secondary (R02) and Resistance of Secondary winding (R2). With our tool, you need to enter the respective value for Resistance of primary winding, Equivalent resistance from Secondary and Resistance of Secondary winding 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 Voltage Transformation Ratio?
In this formula, Voltage Transformation Ratio uses Resistance of primary winding, Equivalent resistance from Secondary and Resistance of Secondary winding. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Voltage Transformation Ratio=Voltage2/voltage1
  • Voltage Transformation Ratio=Primary Current /Secondary Current
  • Voltage Transformation Ratio=EMF Induced In The Secondary Winding/EMF Induced In The Primary Winding
  • Voltage Transformation Ratio=Number of Turns in Secondary winding/Number of Turns in Primary winding
  • Voltage Transformation Ratio=sqrt(Secondary leakage Reactance/Reactance of Secondary in primary)
  • Voltage Transformation Ratio=sqrt(Reactance of Primary in Secondary/Primary leakage Reactance)
  • Voltage Transformation Ratio=sqrt(Resistance of primary winding/(Equivalent resistance from Secondary-Resistance of Secondary winding))
  • Voltage Transformation Ratio=sqrt(Resistance of Secondary winding/(Equivalent resistance of transformer from primary-Resistance of primary winding))
  • Voltage Transformation Ratio=sqrt(Resistance of Secondary winding/(Equivalent resistance of transformer from primary-Resistance of primary winding))
  • Voltage Transformation Ratio=sqrt((Equivalent reactance from secondary-Secondary leakage Reactance)/Primary leakage Reactance)
  • Voltage Transformation Ratio=sqrt(Secondary leakage Reactance/(Equivalent reactance from primary-Primary leakage Reactance))
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