Category: Transformer equivalent circuit problems

Transformer equivalent circuit problems

The equivalent circuit of transformer is shown in the figure. The no-load primary current I o has two components, namely I m and I w. The core-loss resistance R o and the magnetizing reactance X o of a transformer are determined by the open circuit test of transformer.

Primary Components. All the components on the secondary side of the transformer are transferred to the primary side as shown in the figure. Although this shifting creates an error in the voltage drop across R 1 and X 1 yet it greatly simplifies the calculation work and gives much simplified equivalent circuit.

Your email address will not be published. I w supplies for the no-load losses and is assumed to flow through the no-load resistance which is also known as core-loss resistance R o.

The magnetizing component, I m is assumed to be flowing through a reactance which is known as magnetizing reactance, X o.

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The parallel combination of R o and X o is also known as the exciting circuit. Load impedance Z L can be resistive, inductive or capacitive.

The equivalent circuit of single phase transformer is further simplified by transferring all the quantities to either primary or secondary side. This is done in order to make the calculations easy.

Mod-01 Lec-04 Lecture-04-Equivalent Circuits of Single Phase Transformers

Leave a Comment Cancel Reply Your email address will not be published. Leave this field empty.The equivalent circuit diagram of any device can be quite helpful in the pre-determination of the behavior of the device under the various condition of operation. It is simply the circuit representation of the equation describing the performance of the device. The simplified equivalent circuit of a transformer is drawn by representing all the parameters of the transformer either on the secondary side or on the primary side.

The equivalent circuit diagram of the transformer is shown below:. The induced emf E 1 is equal to the primary applied voltage V 1 less primary voltage drop. This voltage causes current I 0 no-load current in the primary winding of the transformer.

transformer equivalent circuit problems

The value of no-load current is very small, and thus, it is neglected. The no-load current is further divided into two components called magnetizing current I m and working current I w. These two components of no-load current are due to the current drawn by a non-inductive resistance R 0 and pure reactance X 0 having voltage E 1 or V 1 — primary voltage drop. The terminal voltage V 2 across the load is equal to the induced emf E 2 in the secondary winding less voltage drop in the secondary winding.

In this case, to draw the equivalent circuit of the transformer all the quantities are to be referred to the primary as shown in the figure below:. The equivalent resistance referred to the primary side is given as:. The equivalent reactance referred to the primary side is given as:.

The equivalent circuit diagram of the transformer is shown below when all the quantities are referred to the secondary side. Primary resistance referred to the secondary side is given as. The equivalent resistance referred to the secondary side is given as.

Equivalent Circuit of a Transformer

The equivalent reactance referred to the secondary side is given as. Further simplification of the equivalent circuit of the transformer can be done by neglecting the parallel branch consisting of R 0 and X 0.

Simplified Equivalent Circuit Diagram of a Transformer. Your email address will not be published. Save my name, email, and website in this browser for the next time I comment. Circuit Globe All about Electrical and Electronics.

Electronic Instrumentation. Leave a Reply Cancel reply Your email address will not be published.In a practical transformer - a Some leakage flux is present at both primary and secondary sides. This leakage gives rise to leakage reactances at both sides, which are denoted as X 1 and X 2 respectively. Mutual flux also causes core loss in iron parts of the transformer. We need to consider all the above things to derive equivalent circuit of a transformer. Equivalent circuit of transformer Resistances and reactances of transformerwhich are described above, can be imagined separately from the windings as shown in the figure below.

Hence, the function of windings, thereafter, will only be the transforming the voltage. The value of E 1 can be obtained by subtracting I 1 Z 1 from V 1. But, using this equivalent circuit does not simplifies the calculations. To make calculations simpler, it is preferable to transfer current, voltage and impedance either to primary side or to the secondary side.

In that case, we would have to work with only one winding which is more convenient. Now, as the values of winding resistance and leakage reactance are so small that, V 1 and E 1 can be assumed to be equal.

Then the equivalent circuit becomes as shown in the figure below. I've just found 10, ways that won't work. Home Transformer Equivalent circuit of Transformer. If only voltage regulation is to be calculated, then even the whole excitation branch parallel combination of R0 and X0 can be neglected. Related Posts. Subscribe to: Post Comments Atom.Electrical Academia.

All transformers have winding resistance, a core with finite permeabilityleakage fluxand hysteresis and eddy current losses and are thus non-ideal. These can be represented by an equivalent circuit that allows us to analyze the transformer.

A non-ideal transformer is illustrated in Fig. It can be described by the following characteristics:. There is a flux leakage which means that not all of the flux produced by one winding will link the other winding.

The magnetic core is NOT perfectly permeability which means that it requires a finite mmf for its magnetization. Since the flux in the magnetic core is alternating, there exist hysteresis as well as eddy current losses, collectively called core or iron losses. In deriving the equivalent circuit for the two-winding transformer of Fig. Consider the primary circuit. A voltage equation around the loop may be written as. Thus, equation 1 reduces to.

The secondary circuit is considered next. From Fig. From the flux direction, the secondary flux may be represented by the difference between the mutual flux and the secondary leakage flux:.

Substituting equation 6 into 5 yields. Thus, equation 7 may be written using the inductance of the secondary winding as:. In equations 4 and 8the last terms represent the induced voltages across the primary and secondary windings, respectively; that is.

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Dividing equation 9 by 10 yields the voltage ratio:. Figure 2 shows the equivalent circuit of the two-winding transformer of Fig. The circuit elements that are used to model the core magnetization and the core losses can be added to either the primary side or the secondary side.

In Fig. The core-related circuit elements R c1 and L m1 are usually determined at rated voltage and are referred to the primary side in Fig. They are assumed to remain essentially constant when the transformer operates at, or near, rated conditions. In phasor form, the transformer equivalent circuit takes the form shown in Fig. A phasor diagram for a lagging power factor inductive load connected across the secondary of the transformer of Fig.

The notation used is as follows:. In the transformer equivalent circuit of Fig. This is almost always done because of the great simplicity it introduces in transformer analysis.By using our site, you acknowledge that you have read and understand our Cookie PolicyPrivacy Policyand our Terms of Service.

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transformer equivalent circuit problems

It only takes a minute to sign up. The primary is connected with a 3-phase line with line-line voltage Vs. So we're asked to draw the equivalent single phase circuit of.

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Which is, according to solutions, this : So what the primary sees is this:. Sign up to join this community. The best answers are voted up and rise to the top. Home Questions Tags Users Unanswered. Asked 1 year, 11 months ago. Active 1 month ago. Viewed 2k times. Yannick Yannick 1 1 silver badge 12 12 bronze badges. Active Oldest Votes. Sign up or log in Sign up using Google. Sign up using Facebook. Sign up using Email and Password.

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Featured on Meta. Community and Moderator guidelines for escalating issues via new response…. Feedback on Q2 Community Roadmap. Related 2. Hot Network Questions. Question feed.Transformer Equivalent Circuit is the electrical circuit representation of equations describing the behavior of Transformer.

In fact equivalent circuit of any electrical device is necessary for its performance analysis and to find any scope of further design modification. The equivalent circuit of a transformer consists of a combination of resistanceinductancecapacitancevoltage etc. This circuits can then be studied and analyzed by applying principles of circuit theory.

Equivalent circuit of Transformer

Let us now consider the equation which describes the behavior of a Transformer under load condition. To better understand, it is recommended to first read Transformer Phasor Diagram. By the above two equations, the transformer equivalent circuit can be drawn as shown below. Since the transformer primary current consists of two components: load component current and exciting current.

The load component current counteracts the secondary mmf N 2 I 2. Therefore this current is shown to flow in the primary winding in the equivalent circuit shown below.

transformer equivalent circuit problems

The exciting current I e consists of core loss current I c and magnetizing current I m. Since I c accounts for the core loss of transformer, a resistance R c is shown in the transformer equivalent circuit such that. The resistance R c and reactance X m are called core loss resistance and magnetizing reactance respectively.

X m and R c are shown in the below equivalent circuit. This is the exact transformer equivalent circuit. In transformer analysis, it is better to transfer different parameters to either primary side or secondary side.

This is done to make the analysis and calculations easier. Therefore, transformer equivalent circuit should also be obtained when secondary parameters are referred to primary side. Let us obtain this.

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Secondary Resistance drop I 2 r 2 referred to Primary. Therefore the total resistance of primary circuit.

The secondary leakage reactance drop when referred to primary side. Thus, the total leakage impedance of transformer referred to primary side is given as. Thus when the secondary resistance drop and reactance drop are referred to primary side, the transformer equivalent circuit will be as shown below.Thevenin Theorem is a popular method of solving complex circuits. But The German scientist, Hermann von Helmholtz, was known at the time Discovered this same theory in the But then the Theorem has gained huge popularity as Thevenin Theorem.

Today we will talk about the Thevenin Theorem in detail. What is going on in our discussion today:. Thevenin states in his Theorem that no matter what component is within a network circuit Figure 1 if it is a two-terminal network and a linear bi-lateral circuit, it can be expressed by a voltage source and series resistance Figure 2.

A linear circuit can have an independent source, dependent source, and register. By combining these Thevenin voltages and Thevenin resistance, the Thevenin circuit is available. It also acts as a common resistor or other device load resistor in the Thevenin circuit, which can absorb power from the circuit.

In many cases, we have to change the load resistance or some Elements from the circuit while solving the circuit. But when an element or load resistance is changed from the circuit, the whole circuit is changed. So we can solve this circuit easily by using the Thevenin Theorem, transforming that circuit into a simple series circuit.

Since the circuit is in series there is no difficulty in changing the load resistance or any element.

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To solve a circuit with Thevenin Theorem, we have to follow some steps or Steps. The following is explained with:. Step 1: To determine the current of the resistance, open the resistance from the circuit and take it apart.

Circuit 2. Step 3: Shorten all voltage sources and open the current source. But if the voltage source has an internal resistance, it needs to be added to the voltage source.

Circuit 5. Question: From the following circuit, determine how much current I will flow through the R resistance of the circuit using the Thevenin theorem?

Since we have to calculate the current flowing through R resistance, we have to open this load and separate it. The voltage from the circuit this time V th Has to figure out. If we make the current of this circuit I 1 Circuit circuit 1. This time the voltage source of the circuit is shortened by the open edge R th To be diagnosed circuit 1. So R The amount of current flowing through the resistance. See author's posts. Your email address will not be published.

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