Effect of Leakage Reactance

1. Effect of Leakage Reactance

       Uptill now it is assumed that the entire flux produced by the primary links with the secondary winding. But in practice it is not possible. Part of the primary flux as well as the secondary flux completes the path through air and links with the respecting winding only. Such a flux is called leakage flux. Thus there are two leakage fluxes present as shown in the Fig. 1.

Fig .1 Individual impedance

       The flux Φ_L1 is the primary leakage flux which is produced due to primary current I₁. It is in phase with I₁ and links with primary only.

       The flux Φ_L2 is the secondary leakage flux which is produced due to current I₂. It is in phase with I₂ and links with  the secondary winding only.

       Due to the leakage flux Φ_L1 there is self induced e.m.f. e_L1 in primary. While due to leakage flux Φ_L2 there is self induced e.m.f. e_L2 in secondary. The primary voltage V₁ has to overcome this voltage e_L1 to produce E₁ while induced e.m.f. E₂ has to overcome e_L2 to produce terminal voltage V₂. Thus the self induced e.m.f.s are treated as the voltage drops across the fictitious reactance placed in series with the windings. These reactances are called leakage reactance of the winding.

  So                       X₁ = Leakage reacatnce of primary winding.
  and                      X₂ = Leakage reactance of secondary winding.

       The value of X₁ is such that the drop I₁ X₁ is nothing but the self induced e.m.f. e_L1 due to fluxΦ_L1. The value of X₂ is such that the drop  I₂ X₂ is equal to the self induced e.m.f. e_L2 due to flux Φ_L1.

       Leakage fluxes with the respective windings only and not to both the windings. To reduce the leakage, as mentioned, int eh construction both the winding's are placed on same limb rather than on separate limbs.

1.1 Equivalent Leakage Reactance

       Similar to the resistances, the leakage reactances also can be transferred from primary to secondary or viceversa. The relation through K² remains same for the transfer of recatnaces as it is studied earlier for the resistances.

       Let X₁ is leakage reactance of primary and X₂ is leakage reactance of secondary.
       Then the total leakage reacatance referred to primary is X_1e given by,
                           X_1e = X₁ + X₂' where    X₂' = X₂/K²
       While the total leakage reacatnce referred to secondary is given by ,
                            X_2e = X₂ + X₁' where X₁' = K² X₁
And                      K = N₂/N₁ =transformation ratio

Sponsored links :