Question 1:

(i) Find the node voltages v₁, v₂, v₃ in the circuit given in Figure Q1. (12 marks)

(ii) Find the power absorbed/delivered by the dependent current source. (3 marks)

Figure Q1

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Question 2:

(i) Find Thevenin’s equivalent between the nodes A and B in the circuit given in Figure Q2. (12 marks)

(ii) Determine the maximum power that can be drawn from the circuit by connecting a resistor between nodes A and B. (3 marks)

Figure Q2

Question 3:

The switch S in circuit shown in the Figure Q3 was open for a long time before being closed at t=0. Find the expression for capacitor voltage, v_c(t) after the switch is closed.

Figure Q3

(10 marks)

Question 4:

Using Superposition principle, find the current I in the circuit shown in Figure Q4.

Figure Q4

(10 marks)

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Question 5:

The load shown in Figure Q5 is connected to a 220 V, 50 Hz source. [R= 100Ω, L= 0.01 H and C= 500 μF].

Figure Q5

(i) Find the equivalent impedance of the load. (5 marks)

(ii) Find RMS current through each branch and their phases with respect to the source voltage. (4 marks)

(iii) Find source current (RMS) and its phase with respect to the source voltage. (4 marks)

Question 6:

A practical coil modeled as Z_coil = R_c+jX_L is connected in series with a purely resistive element R = 40 Ω. An AC source of 220 V, 50 Hz is connected across the series circuit. The RMS voltage measured across R is 90 V and measured across Z_coil is 140 V.

(i) Find the RMS current through the circuit. (2 marks)

(ii) Considering current phasor as I∠0°, sketch the phasors of the voltage across R, the voltage across Z_coil, and the voltage across the total load. (5 marks)

(iii) Using the phasor diagram of part (b) or using any other method find the values of R_c and X_L. (5 marks)

Question 7:

In the circuit shown Figure Q7, transformer turns ratio is N₁:N₂ = 5:1. The supply voltage is 240 V, 50 Hz. The components are R₁ = 10 Ω, R₂ = 10 Ω, and Z=j10 Ω. Determine the primary current and the secondary voltage.

Figure Q7

(12 marks)

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Question 8:

You have to design a DC-power supply to provide 1 A current to a 12 Ω load. The mains power supply is 240 V, 50 Hz AC. It is desired to have voltage ripple less than 1% of load voltage. Assume all components used are ideal.

(i) Draw the circuit schematic if a half-wave rectifier is used. Label all components properly. (3 marks)

(ii) What is the required turns ratio of the transformer? (2 marks)

(iii) Determine the value of the smoothing capacitor required to meet the specification of ripple. (5 marks)

(iv) Sketch the waveform of the voltage across the diode. (3 marks)

University	Nanyang Technological University (NTU)
Subject	Electronics Engineering

Electronics Engineering Circuit Assignment Questions: Theory & AC Analysis, Singapore