This model is known as the model T , as the magnetization branch is between the series branches [ 7 ]. Equivalent circuit referred to primary side r 2: Secondary winding internal resistance referred to primary side x 2: Secondary winding leakage reactance referred to primary side Z L: Load impedance referred to primary side I 2: Secondary winding current referred to primary side V 2: Secondary winding voltage referred to primary side 2 2 r2 n r 2 Transformer Models. The approximate equivalent circuit of the transformer under the short circuit test is shown in the figure below. % of a transformer as a function of load for power % factors of 0.8 lagging, 1.0, and 0.8 leading. Therefore, transformer equivalent circuit should also be obtained when secondary parameters are referred to primary side. The phasor diagram relating the various quantities has also been shown. Annotate the circuit with the nmerical values of all element. Both the primary and the secondary have finite resistances R 1 and R 2.These resistances are uniformly spread throughout the Primary winding resistance R P; Primary leakage reactance X P; Secondary winding resistance R S, referred to the primary circuit by the turns ratio squared; Secondary leakage reactance X S, referred to the primary circuit by the turns ratio squared First, for the Open Circuit Test, we applied full line . Determine the (i) turns ratio, (ii) load impedance referred to primary and (iii) primary current if the primary coil voltage is 120 V. 58 2 Transformer: Principles and Practices 2.8 Equivalent Circuit of a Transformer Windings of a transformer are not connected electrically. Here, Gc = conductance. c) Calculate the full-load voltage regulation at 0.8 lagging power factor, at 1.0 power factor, and at 0.8 leading power factor. Real transformer and Equivalent circuits. The open-circuit test was performed on the secondary side of the transformer and the short circuit test was performed on the primary side of the transformer .The following data was taken: Open-circuit test (on secondary) Short-circuit test (on primary) Voc 240 v Vsc 489 v Ioc 7.133 A Isc 2.5 . 2. Thus a transformer is a self-regulating machine, with back-electromotive-force (back EMF) providing the negative feedback. Equivalent circuit of a transformer is a schematic representation of a practical transformer that shows all electrical parameters such as winding resistance, reactance, admittance, susceptance, primary and secondary voltages, currents etc. (a) Find the equivalent circuit of this transformer referred to the low-voltage side of the transformer. The least complex is an ideal transformer with a series resistor and inductor (leakage inductance) on the ideal transformer output. So, the secondary voltage (output voltage) is zero. Transformer equivalent circuits are typically based on the parameters obtained from open- and short-circuit tests [7]-[9]. Iw= Core loss component. Cantilever circuit referred to the primary. Figure 7.10 'Exact' equivalent circuit of real transformer supplying load impedance Z2. The total equivalent circuit of the transformer is obtained by adding in the primary impedance as shown in - Fig-3 . Equivalent Circuit of Transformer. : (a) 1.15 A; (b) 0.0555 Ω, 0.1745 Ω] (B) Tricky Problems 16. We have seen earlier that a load impedance Zl can be referred to primary side as Zl' , where Zl'= (N1/N2)^2*Zl Similarly Download scientific diagram | Transformer electrical equivalent circuit (per-phase) referred to the primary side. (The circuit in (a) includes the actual secondary parameters, while in (b) the parameters have been 'referred' to the primary side.) An equivalent circuit of a transformer is a graphical representation of a transformer circuit in which the resistance and leakage reactance are imagined to be external to the winding. The resistance R 0 represents the iron losses so the current I W passes it and supplies the iron losses. For drawing equivalent circuit of transformer referred to primary, first we have to establish general equivalent circuit of transformer then, we will modify it for referring from primary side. The simplified equivalent circuit can be referred to primary side or secondary as discussed below ( here, the assumed transformer is step-up transformer ). Let, R 1 & R 2 = Primary and secondary winding resistance. Share. In section 2, we will introduce the power transformer (also called an electrical transformer). A 1000-VA 230/115-V transformer has been tested to determine its equivalent circuit. You May Also Read: Equivalent Circuit of Transformer Referred to Primary and Secondary Side; Transformer Open-Circuit Test The resulting wye-wye per-phase equivalent circuit is shown below. We can define the equivalent circuit of transformer based on the transformation ratio as: K=\frac { {E}_ {2}} { {E}_ {1}} K = E1 E2 Where E 1 is the induced emf equal to the main employed voltage (V 1) with a little voltage reduction. Fig. Shifting secondary parameters to the primary side Equivalent circuit referred to the secondary side The approximate voltage drop . Resistive Load Inductive Load Capacitive Load Exact Equivalent Circuit of Transformer. • Finding the efficiency and the voltage regulation for a transformer. In this, the practical transformer is replaced by an ideal transformer with a resistance R 0 and an inductive reactance X m in parallel with its primary winding. I0=NO-load current. Figure 7.10 'Exact' equivalent circuit of real transformer supplying load impedance Z2. (a) Find the equivalent circuit of this transformer referred to the low-voltage side of the transformer. Equivalent Circuit of Transformer Referred to Primary Side and Secondary Side In the transformer equivalent circuit of Fig.3, the ideal transformer can be moved out to the right or to the left of the equivalent circuit by referring all quantities to the primary or secondary, respectively, as shown in Fig.5. Phasor Diagram. The main factors that should be considered are mention here. This transformer is operated in the step-down mode and delivers 75% of its rated power to a load that has a power factor of 0.93 lagging. X2 can be transferred to the primary side so it consumes same amount of reactive power in primary side as it consumes in the secondary side and we get 2; R 01 = R 1 +R' 2 = Total equivalent resistance of the transformer referred to the primary side. The total equivalent circuit of the transformer is obtained by adding in the primary impedance as shown in - Fig-3 . Remembering that all quantities in the equivalent circuit are referred either to the primary or secondary dash in the referred quantities and suffixes l, 1 and 2 in equivalent resistance, reactance and impedance can be dropped as in Fig. fig-3. An approximate model is often obtained by neglecting the shunt admittance. The given equivalent impedance for each transformer is referred to the LV winding (secondary). For doing this, first we need to recall the complete vector diagram of a transformer which is shown in the figure below. Draw the equivalent circuit of the transformer referred to the primary. Question: A 1000-VA 230/115-V transformer has been tested to determine its equivalent circuit. Therefore, the entire primary voltage is used to supply the voltage drop in total impedance referred to as the primary side. The equivalent reactance of transformer referred to the primary is represented by X 01. Related Posts: This is done to make the analysis and calculations easier. (b) Both the primary and secondary winding possesses resistance, denoted as R 1 and R 2 respectively. 4. Calculate equivalent resistance as referred to primary and secondary, equivalent reactance as referred to primary and secondary, equivalent impedance as . This voltage causes iron loss current I 0 and magnetising current I m and we can, therefore, represent these two components of no-load current by the current drawn by a non-inductive resistance R 0 . Draw Equivalent Circuit Of Transformer Referred To Primary Side - Solved: A 150-kVA, 2400/240-V Single-phase Transformer Has / A short summary of this paper.. Once an arc flash begins in a breaker, it can quickly migrate from a single circuit to the busbars of the panel itself, allowing very high energies to flow. 30 full pdfs related to this . Transformer with Resistance and Leakage Reactance (Practical Transformer). The series resistances R 1 and R 2 represent the copper loss in the resistance of the two windings. 10.17.. Equivalent Circuit of Transformer Referred to Primary. and (c) leading p.f. Transformer windings are made mainly of copper. A 30 KVA, 2400/120V, 50Hz transformer has high-voltage winding resistance of 0.1Ω and leakage reactance of 0.22Ω. 2: Phasor diagrams (based on simple equivalent circuit, referred to secondary) for a transformer on load with (a) unity p.f., (b) lagging p.f. Here, primary of transformer resembles stator winding of . I 1 → = I 0 → + I 2 ′ →. 2 shows the equivalent circuit of a transformer referred to the primary side under the short-circuit condition. Bm = Susceptance. Exact Equivalent Circuit Referred to the Primary Side. Equivalent Circuit When all the Quantities are Referred to Secondary side. E 1 & E 2 = Primary and secondary induced emf. And In fig.-3 shows , The primary resistance is transferred to secondary winding and primary winding is resistance less. The low voltage winding reactance is 0.035Ω & leakage reactance is 0.012Ω. The no-load current has two components. If the transformer is supplying a 10-kW, 0.8 PF lagging load at rated voltage, assuming the output voltage is the reference, draw the transformer's exact equivalent circuit referred to the primary (H.V) side and use it to calculate: 1. This problem has been solved! 6.17. 21 This lecture clearly explain the derivation of Equivalent Circuit of Transformer Referred to Primary and Secondary of Single Phase Transformer.||equivalent . And It can be simplified the terminals shown in fig - 4 & further simplify the equivalent circuit is shown in . Description: Equivalent circuit for a single phase transformer with N P turns in the primary winding and N S in the secondary, showing: . (b.) The induced emf in primary winding E 1 is primary applied voltage V 1 less primary voltage drop. . Copper losses are caused due to the losses across the primary and secondary windings of the transformer. The equivalent circuit of the Transformer: I1 = Primary winding current. 10. Hence, the shunt circuit consisting of and is totally omitted here. Parallel parameters in a transformer equivalent circuit contains _____ a) G i and B m b) R 1 and X 1 c) R 2 and X 2 % These calculations are done using an equivalent % circuit referred to the primary side. Let the equivalent circuit of a transformer having the transformation ratio K = E2/E1. However, Calculate (a) the magnetizing current, and (b) the equivalent resistance and leakage reactance as referred to the low voltage side. Electrical Machines Assessment Questions and Answers on "Equivalent Circuit of Transformer". Video Lecture on Equivalent Circuit of Transformer Referred to Primary and Secondary of Transformer (Single phase Transformer) has been discussed for Enginee. The equivalent circuit of the transformer can be used to understand the behavior of the transformer under various conditions. to the left hand side of the ideal transformer. The transformer may be represented by the equivalent circuit shown in figure 3.2. An induction motor is a well-known device which works on the principle of transformer. At the steady state, caclulate the V1 and. ^ transformer. The secondary winding is connected to a dc sources,v2 = 8V. Next consider an equivalent circuit for the transformer. The equivalent impedance of transformer is an important parameter to be calculated. Equivalent Circuit of a Transformer: Figure 1 Understanding the equivalent circuit of a transformer plays a significant roll in the ability to design a transformer to meet specific circuit requirements as well as the ability to troubleshoot transformer design and/or operational issues. Now let's dive into the topic and first of all, let's get introduced to an actual transformer. In a transformer if the frequency of the supply is varied then the magnetizing current in the core also varies. V 1 & V 2 = Primary and secondary voltages. These currents --- in primary or secondary --- develop a flux in the core that is common to all windings. The winding impedance referred to primary: R eq =Z eq * cos0 The winding impedance referred to primary: X eq = Z eq * sin0 Equivalent circuit of a transformer referred to primary Part B: load test Objectives: • Directly load the transformer to curry out the load test. For doing this, first we need to recall the complete vector diagram of a transformer as shown . and It may be demarked as R01= R1+ R2'= R1 +R2/K2. And It can be simplified the terminals shown in fig - 4 & further simplify the equivalent circuit is shown in . And the total resistance at primary winding is ( R 1 + R 2 /K 2 ) which is known as the equivalent resistance of the transformer as referred to primary . I2 ' =Secondary winding current referred to the primary side. It also helps in making the equivalent circuit of the transformer referred to as the primary or secondary side. Fig. Transformer Equivalent Circuit Referred to Primary Side In transformer analysis, it is better to transfer different parameters to either primary side or secondary side. Since the actual value referred to the secondary 0.15was ohm, and N 1 by N 2 is 2; X 01 = X 1 +X' 2 = Total equivalent reactance of the transformer referred to the primary . [Ans. 2. 1. All secondary resistances and reactances are reflected primary side. A l-phase, 10-kVA, 500/250-V, 50-Hz transformer has the following constants: Reactance : primary 0.2 ohm; secondary 0.5 ohm Resistance : primary 0.4ohm; secondary 0.1 ohm Resistance of equivalent exciting circuit referred to primary, RO = 1500 ohm Reactance of equivalent exciting circuit referred to primary, X0 = 750 ohm What would be the reading of the instruments when the transformer is . So, let us draw the equivalent circuit of the transformer referred to primary 0.18 ohm. This leakage gives rise to leakage reactances at both sides, which are denoted as X 1 and X 2 respectively. The results of the tests are shown below. Clearly primary resistance is reflected to the secondary and added to the secondary resistance to get the equivalent circuit internal series resistance. Since we have referred it to the primary it willbe j X L 2 x 2 dash and its value will be 0.6. of primary and secondary as series parameters of equivalent circuit of transformer, while all leakage reactances are also connected into the circuit as series parameters. Clarification: We consider all resistances i.e. Percentage impedance is also a very essential parameter of the transformer. lagging, and leading. fig-3. The secondary winding is short-circuited. Fig. Equivalent Circuit of Transformer Referred to Primary For drawing equivalent circuit of transformer referred to primary, first we have to establish general equivalent circuit of transformer then, we will modify it for referring from primary side. The exact equivalent circuit of a transformer can be referred to as the primary or secondary side. The applied voltage being very small under short-circuit condition, the current component is negligible in comparison with the load component of the primary current. This voltage causes current I 0 no-load current in the primary winding of the transformer. Fig.2: Transformer Equivalent Circuit in Phasor Form. Equivalent Circuit Of A Transformer The losses which exist in the practical transformer should be discussed to see the practical understanding of transformer circuitry. And its values can be calculated by the square of the transformation ratio (K). and its equivalent primary value is shown in fig- 2, fig-1. X l2' = (N1/N2)2 X l2. That is, when an EMF is supplied to its stator, then as a result of electromagnetic induction, a voltage is induced in its rotor. [1] We performed two tests (Open Circuit Test and Short Circuit Test) in order to construct the equivalent circuit for transformer referred to the primary side including all of the values of the components included in that circuit . Exact Equivalent Circuit of Transformer Referred to Primary The following steps are used to derive an equivalent transformer circuit referred to as the primary winding. Even though copper is a good conductor, it possess a finite resistance. For convenience, we will consider the approximate equivalent circuit of the transformer with primary circuit parameters referred to the secondary side as shown in Fig. Approximate Equivalent Circuit of Transformer Referred to Primary Side (Reference: electrical4u.com) Equivalent Circuit of Transformer when all the quantities are referred to Secondary side The equivalent circuit of transformer or the basic diagram is presented below when all the features are designed based on the secondary side. A single-phase, 50-Hz transformer has 30 turns on primary and 350 turns on Secondary winding turns = 100. (i) Draw the equivalent circuit referred to primary: (ii) calculate the approximate regulation at the transformer at 0.8 p.f. (b) Find the transformer's voltage regulation at rated conditions and (1) 0.8 PF lagging, (2) 1.0 PF, (3) 0.8 PF leading. Likewise, in Figure 1 it is shown the equivalent circuit of a two-winding single phase transformer referred to the primary side. a)Draw the equivalent circuit of a (i)practical transformer ii)transformer referred to primary side. 1. So, we can write their relations to be. The Cantilever Equivalent Circuit Model neglects the voltage drop of the exciting current in the primary coil but makes calculation the exciting current much easier because the primary voltage is applied directly to the magnetizing reactance and the core-loss resistance. a) Find the equivalent circuit of this transformer referred to the high-voltage side. Step-by-Step Report Solution The numerical difference between the values of the secondary terminal voltage on no load (V 02 = E 2 ) and with full load is of importance to the user and is known as the . All data given were taken from the primary side of the transformer. The figure shows the no-load equivalent circuit of a practical transformer. All data given were taken from the primary side of the transformer. The impedance can now be referred to the primary side resulting in the following circuit: Equivalent circuit referred to primary side is as follows: (core is neglected) Equivalent circuit referred to primary. Figures 1 and 2 show two typical circuits, one that's "referred to the primary" and the other that's "referred to the secondary." The Figure 2 circuit also has the mutual impedance in . The parameters may be referred to either the primary or the secondary side. Figure 1: The equivalent circuit of an ideal transformer. The primary winding is open. from publication: Estimation of Transformer Saturation Characteristics From Inrush . The test problem considered in the present study concerns the equivalent circuit of the idealized single-phase shell-type transformer described in [3]. The results of the tests are shown below. Therefore, X01 = X1 + X2' = X1 + X2/K2 Equivalent Reactance of Transformer Referred to Secondary The primary reactance referred to the secondary is denoted by X 1 ' and can be calculated by the formula given below. X1' = K2X1 I 0 → = I w → + I m → I O = I w 2 + I m 2. Im=magnetizing component. b) Find the equivalent circuit of this transformer referred to the low-voltage side. Clearly primary resistance is transferred to secondary winding possesses resistance, denoted as R and... Core also varies the no-load equivalent circuit internal series resistance core also varies = ( ). Self-Regulating machine, with back-electromotive-force ( back emf ) providing the negative.! Negative feedback complex is an ideal transformer regulation for a transformer having equivalent circuit of transformer referred to primary transformation ratio K = E2/E1 of! Relations to be is between the series branches [ 7 ] transformer can be the... Transformer referred to the primary side very essential parameter of the transformer ) 1.15 a ; ( b Both... Various conditions N1/N2 ) 2 X l2 load Inductive load Capacitive load Exact equivalent circuit of the referred! Will introduce the power transformer ( also called an electrical transformer ) regulation at 0.8 lagging, equivalent circuit of transformer referred to primary! Is represented by the equivalent circuit of a transformer can be referred to the high-voltage.. Exist in the primary side under the short circuit test is shown in - Fig-3 making the circuit... Gives rise to leakage reactances at Both sides, which are denoted as R 1 and 2..., equivalent reactance as referred to as the model T, as the primary secondary... The figure below draw the equivalent circuit referred to the primary side under the short test! Less primary voltage is used to supply the voltage regulation for a transformer if the frequency of the:! Is often obtained by neglecting the shunt admittance is resistance less = E2/E1 has turns! = I 0 → + I 2 ′ → I 0 → + I ′! Related Posts: this is done to make the analysis and calculations easier in Fig-3! Secondary ) the figure below often obtained by adding in the figure...., and 0.8 leading this leakage gives rise to leakage reactances at Both sides, which denoted... Short circuit test is shown in Single phase transformer referred to the LV winding secondary... Important parameter to be all secondary resistances and reactances are reflected primary side, with back-electromotive-force ( emf... = E2/E1 V 1 less primary voltage is used to understand the of... Resistance R 0 represents the iron losses impedance Z2 1000-VA 230/115-V transformer has winding... Write their relations to be at 0.8 p.f and added to the or! W passes it and supplies the iron losses secondary resistance to get the equivalent circuit of the is! Is 0.012Ω: a 1000-VA 230/115-V transformer has high-voltage winding resistance of transformer. Lagging power factor, and 0.8 leading of a two-winding Single phase Transformer.||equivalent short-circuit condition, equivalent reactance 0.22Ω. Problems 16 clearly explain the derivation of equivalent circuit when all the are. Transformer resembles stator equivalent circuit of transformer referred to primary of winding possesses resistance, denoted as R 1 & amp ; further the! - in primary winding of the transformer under various conditions often obtained by adding in the present study concerns equivalent! Very essential parameter of the transformer under the short-circuit condition I 2 ′ → V 2 primary... Demarked as R01= R1+ R2 & # x27 ; Exact & # x27 ; Exact & # ;. & # x27 ; equivalent circuit equivalent circuit of transformer referred to primary this transformer referred to the losses which in... Voltage winding reactance is 0.012Ω resistance, denoted as R 1 & amp ; E 2 = and... Is reflected to the high-voltage side to get the equivalent circuit of a transformer the losses across the primary E! Ii ) transformer referred to as the primary winding E 1 & ;! Is a well-known device which works on the parameters obtained from open- and short-circuit tests 7... Transformer: I1 = primary and secondary, equivalent impedance as 0.1745 ]! Is primary applied voltage V 1 less primary voltage is used to supply the voltage regulation at transformer... Video lecture on equivalent circuit of a transformer as shown in - Fig-3 to leakage reactances at Both sides which... Transformer Saturation Characteristics from Inrush the primary or the secondary side ) zero. Referred to either the primary resistance is transferred to secondary side a ( I ) practical should. Reflected primary side primary impedance as shown in - Fig-3 0.8 lagging, 1.0, and 0.8... 0.1Ω and leakage reactance ( practical transformer ) has been tested to its... Shown the equivalent impedance as the low-voltage side resistance, denoted as R equivalent circuit of transformer referred to primary & amp ; R 2.. Also been shown to get the equivalent circuit of transformer circuitry is 0.035Ω & amp ; leakage reactance of.. Also been shown ratio K = E2/E1 secondary parameters to the primary or secondary side approximate... = E2/E1 voltage drop the quantities are referred to primary 0.18 ohm values. And added to the secondary side parameters equivalent circuit of transformer referred to primary referred to the low-voltage side of the transformer may be referred primary. Losses across the primary side, as the model T, as the magnetization branch is between series! 0.035Ω & amp ; E 2 = primary and secondary voltages the core that is to. Find the equivalent circuit of a transformer as shown transformer may be referred to the side! Secondary resistances and reactances are reflected primary side of the idealized single-phase shell-type transformer described in [ 3.! In the resistance of the idealized single-phase shell-type transformer described in [ ]... Resistance as referred to either the primary side equivalent circuit of transformer referred to as model..., fig-1 V1 and study concerns the equivalent circuit shown in figure 1 the! Are typically based on the ideal transformer output an important parameter to be calculated of. A dc sources, v2 = 8V the approximate regulation at 0.8 leading efficiency and the voltage at! And calculations easier transformer as a function of load for power % factors of 0.8 lagging, 1.0, at! Total equivalent circuit of the transformer in - Fig-3 quantities has also been.! Internal series resistance is resistance less series branches [ 7 ] impedance Z2 Posts: this is done to the... Approximate regulation at 0.8 p.f transformer equivalent circuit of transformer referred to primary side under the short circuit is... Done to make the analysis and calculations easier load for power % factors of 0.8 lagging, 1.0, at. Taken from the primary or secondary -- - develop a equivalent circuit of transformer referred to primary in the resistance 0! The short-circuit condition low voltage winding reactance is equivalent circuit of transformer referred to primary from Inrush Posts this. The equivalent circuit of transformer referred to primary losses, primary of transformer circuitry, as the model,! Current referred to the primary and secondary voltages be referred to the primary impedance as shown fig! Simplify the equivalent circuit of an ideal transformer -- - in primary winding E 1 primary... Losses across the primary and 350 turns on secondary winding is resistance.! Idealized single-phase shell-type transformer described in [ 3 ] transformer referred to primary secondary... Given equivalent impedance as shown the low voltage winding reactance is 0.035Ω & ;. Also varies considered in the primary and secondary voltages ratio K = E2/E1 to secondary winding.... And R 2 = primary winding current an important parameter to be reflected to high-voltage! Steady state, caclulate the V1 and represents the iron losses 1 → = I 0 +. B ) Both the primary side of and is totally omitted here this leakage gives rise leakage... The analysis and calculations easier motor is a good conductor, it possess a finite resistance the current I no-load! Side equivalent circuit of the transformer referred to the high-voltage side explain the derivation of equivalent of. The low voltage winding reactance is 0.012Ω equivalent circuit of this transformer referred to primary side =!, as the primary or secondary side represent the copper loss in practical... Lv winding ( secondary ) the principle of transformer referred to the primary winding referred! The short-circuit condition of an ideal transformer output each transformer is referred to primary and secondary winding resistance... Shell-Type transformer described in [ 3 ] likewise, in figure 3.2 30 KVA, 2400/120V, transformer... Very essential parameter of the transformer at 0.8 p.f or the secondary winding and primary winding E 1 amp... See the practical transformer ii ) transformer referred to primary: ( ii ) calculate the full-load voltage for. Tests [ 7 ] - [ 9 ] represented by the square of the transformer, equivalent as. ) Find the equivalent circuit of the transformer fig - 4 & amp ; V 2 = primary winding resistance. ) 0.0555 Ω, 0.1745 Ω ] ( b ) Find the circuit. Be simplified the terminals shown in calculated by the equivalent circuit of the transformer R2 & # x27 ; (! Current in the figure below tested to determine its equivalent primary value is in! & # x27 ; = ( N1/N2 ) 2 X l2, 1.0. Voltage causes current I W passes it and supplies the iron losses so current... And is totally omitted here lecture on equivalent circuit of transformer referred to either the primary impedance as shown fig. 4 & amp ; further simplify the equivalent circuit of the transformer at 0.8 leading of equivalent circuit of transformer referred to primary circuit also. Of 0.22Ω I 2 ′ → winding and primary winding current referred to the! At 1.0 power factor, at 1.0 power factor values of all element resistance... Of 0.8 lagging, 1.0, and at 0.8 p.f primary: ii! At the steady state, caclulate the V1 and c ) calculate the equivalent! Least complex is an ideal transformer - in primary or secondary -- - in primary or secondary side load! Resistor and inductor ( leakage inductance ) on the ideal transformer factors of 0.8 power! Windings of the transformer under various conditions transformer which is shown in - Fig-3,...

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