iium electronics ece 1231 mid-term examination semester ii, 2008/2009 session
DESCRIPTION
IIUM ELECTRONICS ECE 1231 MID-TERM EXAMINATION SEMESTER II, 2008/2009 SESSIONTRANSCRIPT
Midterm Examination Semester II 2008/2009
INTERNATIONAL ISLAMIC UNIVERSITY MALAYSIAMID-TERM EXAMINATION
SEMESTER II, 2008/2009 SESSIONKULLIYYAH OF ENGINEERING
Course Code: ECE 1231 Course Title: Electronics
Time
: 3:00 pm-5:00 pm Date: 21-Feb-2009Duration: 2 Hours
INSTRUCTIONS TO CANDIDATESDO NOT OPEN UNTIL YOU ARE ASKED TO DO SO
Do not use your own sheet.
A total mark of this examination is 100.
This examination is worth 30% of the total assessment. Answer ALL questions.Any form of cheating or attempt to cheat is a serious offence which may lead to dismissal.Question 1Question 2Question 3Question 4Total Marks
Marks25252525100
Marks Obtained
Q.1 [25 marks](a) Consider a pn junction at K in which A and . Find the forward-bias voltage to produce a current of 150 A. (6 marks)(b) In the circuit shown in Fig. 1, find the diode voltage and the supply voltage such that the current is mA. Assume the diode cut-in voltage is V. Also determine the power dissipated in the diode. (9 marks)
Fig. 1(c) Consider the Zener diode circuit shown in Fig. 2. The Zener breakdown voltage is V at mA, and the incremental Zener resistance is . Determine for and . (10 marks)
Fig. 2Q.2 [25 marks](a) Briefly explain the advantage of connecting an RC filter to the output of a diode rectifier circuit.(4 marks)(b) The input voltage to the half-wave rectifier in Fig. 3 is V. Assume a diode cut-in voltage of V. The ripple voltage is to be no more than V. If the filter capacitor is 50 F, determine the minimum load resistance that can be connected to the output. (4 marks)
Fig. 3(c) The input signal voltage to the full-wave bridge rectifier circuit in Fig. 4 is V. Assume V for each diode. Determine (i) the required turns ratio of the transformer to produce a peak output voltage of 100 V, (ii) the diode PIV rating, and (iii) the average value of the output voltage.(8 marks)
Fig. 4(d) In the voltage regulator circuit in Fig. 5, V, V, , and . Determine , , and . (9 marks)
Fig. 5Q.3 [25 marks](a) Define ripple voltage. How can the magnitude of the ripple voltage be reduced?
(4 marks)(b) For the diode clipper circuit in Fig. 6, plot versus time over two periods for sinusoidal input signal. Assume for each diode and . (7 marks)
Fig. 6(c) A diode clamper circuit with sinusoidal input signal is shown in Fig. 7. Assume . Plot (i) the capacitor voltage versus time and (ii) the output voltage versus time. (8 marks)
Fig. 7(d) Consider the circuit in Fig. 8. The output of a diode OR logic gate is connected to the input of a second diode OR logic gate. Assume for each diode. Determine the output and for: (i) ; (ii) V, V; and (iii) V.
(6 marks)
Fig. 8
Name:_______________________________________________
Matric No:____________________ Section:________
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