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ECE 3455: ElectronicsSection 12071Spring 2011
Final Exam
Version B
May 7, 2011
Do not open the exam until instructed to do so. Answer the questions in thespaces provided on the question sheets. If you run out of room for an answer,
continue on the back of the page. This is a closed-book/notes exam and you mayuse a calculator. You may use two crib-sheets as described in the syllabus and
discussed in class. You will have 3 hours to finish the exam.
Student’s Name:
Question Points Score
1 30
2 30
3 20
4 20
5 20
Total: 120
From Table 6.2:
iC = ISevBE/VT
iB =iC
β=
(IS
β
)evBE/VT
iE =iC
α=
(IS
α
)evBE/VT
Note: For the pnp transistor, replace vBE with vEB.
iC = αiE
iC = βiB
β =α
1− α
iB = (1− α) iE =iE
β + 1
iE = (β + 1) iB
α =β
β + 1
VT = thermal voltage =kTq' 25 mV at room temperature
Summary of Table 6.4 (Small Signal Model Parameters)Model Parameters in Terms of DC Bias Currents
gm =IC
VTre =
VT
IE= α
VT
ICrπ =
VT
IB= β
VT
ICro =
|VA|IC
In Terms of gm
re =α
gmrπ =
β
gmIn Terms of re
gm =α
rerπ = (β + 1) re gm +
1rπ
=1re
ECE 3455 Final Exam May 7, 2011
1. (30 points) A customer asks you to design a circuit that has the following frequency response(a straight-line approximation of its magnitude) using only ideal op-amps, capacitors (anyvalue), and 10 kΩ and 100 kΩ resistors.
(a) Write a possible transfer function H(jω) in terms of 3 dB corner frequencies that arelabeled as ω1, ω2, etc.
(b) Break the transfer function up into components that you can construct as circuits.
(c) Design the sub-circuits.
(d) Indicate how the sub-circuits fit together to make your complete circuit.
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ECE 3455 Final Exam
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2. (30 points) The following circuit is a phase splitter. For your solutions, you must first showa series of expressions (each boxed in) and then you may calculate a numerical answer. Forexample, you may find VBB as a function of resistors and power supply voltages and thenbox in this expression. You may then use VBB in subsequent expressions.
(a) Complete the DC analysis of this circuit and confirm that the circuit is in active mode.
(b) Sketch the circuit for the small signal analysis.
(c) Find an expression for the bandpass gain vc/vin and calculate its value. Please note thatyou are to find vc/vin, not vc/vs.
(d) Find an expression for the bandpass gain ve/vin and calculate its value.
(e) Find an expression for the bandpass values for Rin, RoutC (at the collector), and RoutE (atthe emitter), and calculate their values.
(f) Compare the gains at the two output terminals and explain why this is called a phasesplitter.
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Important: From the next three questions, complete any two. You mustindicate which one should not be graded by clearly marking Do notgrade on the page or else I will not grade the last problem.
3. (20 points) In the following circuit, it is much easier to find a solution if we apply Miller’s
theorem to move the resistor R f . Remember that for the Miller theorem, RMi =R
1− Kand
RMo =R
1− 1K
, where K is the voltage gain between the component to be substituted. To
make this easier, take advantage of the fact that R f R2||RL and ignore the current flowingthrough R f when finding K.
(a) Find K.
(b) Find RMi and RMo and sketch the new circuit.
(c) Findvout
vSfor the bandpass as indicated on the circuit.
(d) You cannot use this modified circuit to determine Rout. Why not?
(e) Find Rin and Rout.
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4. (a) (10 points) For the circuit below, plot vA and vB for
vIN = Vo sin (ωot) ,
where Vo = 5 volts andi. ωo = 100 rad/s.
ii. ωo = 10, 000 rad/s.Place your sketches for vA and vB on the same plot and make one plot for each frequency.Assume a constant voltage drop model for the diodes with VD = 0.7 volts, VZ = 4 volts,and an ideal op-amp. Be sure to label your graph to receive credit. Hint: For the constantvoltage drop model, the Zener diode internal resistance can be neglected.
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ECE 3455 Final Exam
(b) (10 points) For the following circuit,i. Sketch VOUT vs. VIN on the first graph provided.
ii. Sketch VOUT(t) on the second graph alongside the sketch of VIN(t).
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5. (20 points) For the following circuit,
(a) Sketch the circuit for the small signal analysis (do not do a DC analysis - leave everythingin terms of the circuit resistors, β, and rπ).
(b) Find an expression for the bandpass gain of the circuit.
(c) Find expressions for Rin and Rout as indicated on the circuit in the bandpass.
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