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MODULE-1 1. Find the current through (Given any value) resistor in given circuit. (Given Circuit) 2. Find the voltage at node 2 for the figure shown. (Given Circuit) 3. Find the current (Given any value) using superposition theorem. (Given Circuit) 4. Find the Thevenin's equivalent network (Given Circuit) MODULE-2 1. Find the equivalent inductance of the network shown. (Given Circuit) 2. Explain the graphical representation of series resonance circuit. 3. Find current through (Given any value) resistor. (Given Circuit) 4. For the network shown in figure, find the voltage across the capacitor. (Given Circuit) 5. Find Voltage across (Given any Numerical) resistor using mesh Analysis. (Given Circuit) MODULE-3 1. A series R-L circuit is shown in fig. has a constant voltage V applied at (Given any value). At what time does (Given any value). (Given Circuit) 2. For the network shown plot poles and zeros of the transfer impedance function. (Given Circuit) 3. Determine the expression for the current i(t). (Given Circuit) 4. In the network given the switch is changed from position a to b at (Given any value). Find out, (Given any value). (Given Circuit) 5.The wolves of primary constants of an open wire line per km are (Given any value). For a signal frequency of 1 KHz. Calculate (Given any value) 6. Find the expression for i(t). (Given Circuit) 7. Draw and explain transformed network in s domain for given circuits. Use current and voltage equation. (Given Circuit) 8. Find the circuit constants. (Given any Numerical) 9. Find poles and zeros of the impedance of the following network. (Given Circuit) 10. Determine the characteristic impedance and propagation constant of the Line at a frequency of 1kHz. (Given any Numerical) MODULE-4 1. Determine h parameters of the network given. (Given Circuit) 2. For the given network determine (Given any value). (Given Circuit) 3. The impedance parameters of two port network are (Given any Numerical) Compute the Y parameters 4. List the types of damping in a series R-L-C circuit and mention the condition for each damping. 5. Obtain Transmission parameters in terms of 'Z' Parameter. MODULE-5 1. Test whether F(s)= (Given any Numerical) is a positive real functions. 2. Check the whether the following polynomials are Hurwitz or not. Use continued fraction method. (i) P(s) = (Given any Numerical) (ii) P(s) = (Given any Numerical) 3. Realise caur forms of the following LC impedance function. Z(s) = (Given any Numerical) 4. Realise the following function in Foster- I and Foster-Il form. Z(s) =(Given any Numerical) 5. What are conditions for rational function F(S) with real coefficient to be p.r.f? 6. Realise the following function in Cauer-I and Cauer-II forms Z(S) = (Given any Numerical) MODULE-6 1. Design an m-derived T section high pass filter with a cut off frequency of (Given any value) KHz. Design impedance of (Given any value) 2. Explain various types of filters in circuit theory. 3. Find the characteristic impedance, cut off frequency and pass band for the network shown: (Given Circuit) |
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