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Answers and Discussions for

ECE Ph.D. Qualifying Exam ES-1 August 2007



Question 2

The following information about the circuit model of the transformer may be obtained from the figure:

  • Winding resistances: $ r_1 = r_2 = 1 \, \Omega $
  • Winding leakage inductances: $ L_{\ell 1} = L_{\ell 2} = 0 $
  • Magnetizing inductances: $ L_{m1} = L_{m2} = 1 \, \textrm{H} $
  • Winding turns: $ N_1 = N_2 = 10 $

The following information about the circuit excitation and state of the transformer is given in the text (note that it is easier to avoid referred quantities because of how the information is given):

  • Initial primary winding voltage: $ v_1(0) = 10 \, \textrm{V} $
  • Secondary winding current (initially short circuited): $ i_2(t) = 0, \; 0 \leq t < 1 \, \textrm{s} $
  • Primary winding current (becomes short circuited): $ i_1(t) = \begin{cases} 10 \left(1 - e^{-t}\right) \, \textrm{A} \; &0 \leq t < 1 \, \textrm{s} \\ 0 \; &t \geq 1 \, \textrm{s} \end{cases} $
    • For convenience, it is given that $ i_1 \left(t = 1^- \, \textrm{s}\right) = 6.32 \, \textrm{A} $
  • Secondary winding voltage (becomes open circuited): $ v_2(t) = 0, \; t \geq 1 \, \textrm{s} $

The electrical energy provided to the machine is denoted $ W_E $.

$ \begin{equation} W_E = \sum_{k = 1}^{N} \int v_k i_k \, dt \label{eqn:W_E} \end{equation} $

From KVL, the voltage equations are found ($ p $ denotes the Heaviside operator).

$ \begin{align} v_1 &= r_1 i_1 + p\lambda_1 \\ v_2 &= r_2 i_2 + p\lambda_2 \label{eqn:v_k} \end{align} $

The flux linkage equations for a transformer are used. Recall that the magnetic flux linked to winding 1 due to a current in winding 2 is $ \Phi_{1,2} = L_{m1} \frac{N_2}{N_1} i_2 $.


$ \begin{align} \lambda_1 &= L_{\ell 1} i_1 + L_{m1} \left(i_1 + \frac{N_2}{N_1} i_2\right) \\ \lambda_2 &= L_{\ell 2} i_2 + L_{m2} \left(i_2 + \frac{N_1}{N_2} i_1\right) \label{eqn:lambda_k} \end{align} $


Discussion



Back to ES-1, August 2007

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