q.2a. calculate the voltage vab across terminals a and b
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Q.2a. Calculate the voltage VAB across terminals A and B in the network, shown in Fig 3.
Fig.3 Fig.4
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b. Using source transformation, calculate the current ix flowing in the circuit shown in Fig 4.
Q.3 a. After steady-state current is established in the R-L circuit shown in Fig.5 with switch S in position ‘a’, the switch is moved to position ‘b’ at t = 0. Find
iL(0 +) and i(t) for t > 0.What will be the value of i(t) when t = 4 seconds?(8)
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Fig.5
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b. Determine the amplitude and phase for F(j2) from the pole-zero plot in s-plane
for the network function ( ) ( )224
2 ++=
ssssF
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Q.4 a. Switch K in the circuit shown in Fig.6 is opened at t = 0 + Draw the Laplace transformed network for t > 0 + and find the voltages V1 (t) and V2 (t), t > 0 +.
Fig.6
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b. In the network shown in Fig. 7, the switch ‘K’ is moved from position ‘a’ to
position ‘b’ at t=0, a steady state having previously been established at position ‘a’. Solve the current i(t) using the Laplace transformation method (8)
Q.5 a. Determine the equivalent Norton network at the terminals a and b of the
circuit shown in Fig.8 below.
Fig.7
Fig.8
Fig.9
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b.Use the Thevenin equivalent of the network shown in Fig.9 to find the value of R which will receive maximum power. Find also this power.
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Q.6a. Test the following polynomial for the Hurwitz property. 232)( 234 ++++= sssssP
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b. Determine if the function F(s) = 9s7s4s3s9s5s
23
23
++++++ is Positive real function.
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Q.7 a. Following short circuit currents and voltages are obtained experimentally for a two port network. Determine Y parameters.
(i) With output short circuited I1=5mA, I2 = - 0.3mA, V1=25V (ii) With input short circuited I1 = - 5mA, I2 = -10mA, V2=30V
b. Derive the Relationship between Z and Y parameter.
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Q.8 a. Consider the system given by system function Z(s) =
)6s)(2s()3s)(1s(2
++++ . Design a RC
network.
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b.Design a one-port RL network to realize the driving point admittance function F(s) =
)3s(s)4s)(2s(3
+++
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Q.9 a. Synthesise the network that has a transfer impedance Z21(s) = 2s4s3s
223 +++
and 1Ω termination at the output.
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b.Show that the filter described by the transfer function H(s)=
)1s84776.1s)(1s73536.0s(1
22 ++++is a low pass filter.
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Text books
1. Network Analysis, M.E.Van Valkenberg, 3rd Edition, Prentice-Hall India, EEE 2006 2. Network Analysis and Synthesis, Franklin F Kuo, 2nd Edition, Wiley India Student Edition 2006