Code: A-09/C-03/T-03 Subject: ANALOG & DIGITAL ELECTRONICS
Time: 3 Hours Max. Marks: 100
NOTE: There are 11 Questions in all.
· Question 1 is compulsory and carries 16 marks. Answer to Q. 1. must be written in the space provided for it in the answer book supplied and nowhere else.
· Answer any THREE Questions each from Part I and Part II. Each of these questions carries 14 marks.
· Any required data not explicitly given, may be suitably assumed and stated.
Q.1 Choose the correct or best alternative in the following: (2x8)
a. For the circuit shown in
Fig.1, the input resistance 
will be
(A)
. (B)
.
(C)
. (D)
Infinity.
|
b. A second order filter has its
poles at 
.
The transmission is zero at 
and is unity at 
The transfer function of
the filter is
(A)
. (B)
.
(C) 
. (D) 
.
c. Transfer function of a
filter is given by 
. It represents a _________filter.
(A) Low pass. (B) High pass.
(C) Band pass. (D) Band stop.
d. The circuit shown below in Fig.2
|
represents __________ filter.
(A) Low pass. (B) High pass.
(C) Band pass. (D) All pass.
|
e. The circuit shown in Fig.3 below
represents _________ gate
(A) AND.
(B) NAND.
(C) OR.
(D) NOR.
f. Active loaded MOS differential circuit has a
(A) high CMRR. (B) low CMRR.
(C) high delay. (D) high differential gain.
g. NPN transistor is not suitable for good analog switch because
(A) 
characteristic
curve pass directly through origin.
(B) the device has very high input impedance.
(C) the device is asymmetrical with an
offset voltage 
off.
(D) it has well defined transition frequency
.
h. CMOS logic has the property of
(A) increased capacitance and delay.(B) decreased area.
(C) high noise margin. (D) low static power dissipation.
PART I
Answer any THREE Questions. Each question carries 14 marks.
Q.2 a. Explain Miller Integrator. What are the effects of the OP-AMP input offset voltage, input bias and offset currents on the performance of Miller Integrator. (7)
b. Consider a symmetrical square wave of 20V peak to peak, zero average and 2ms period applied to a Miller integrator. Find the value of the time constant (CR) such that the triangular waveforms at the output has 20V peak to peak amplitude. (7)
Q.3 a. Draw the circuit diagram of two stage CMOS op-amp configuration. What do you understand by systematic output dc offset voltage? How can it be eliminated? (8)
b. Draw the circuit diagram of a CMOS inverter and explain its operation. (6)
Q.4 The
transfer function of a two port network is given by 
where 
and 
represent any impedances.
Explain how the following passive filters can be realized from this network.
(i) Bandpass filter. (4)
(ii) Notch filter. (5)
(iii) All pass filter. (5)
Q.5 a. With proper diagram explain the operation of dual slope A/D converter and charge redistribution A/D converter. Compare their advantages and disadvantages. (10)
b. Explain the operation of sample & hold circuit. Discuss its applications. (4)
Q.6 a. What types of doping should be used in a switching diode. What is reverse recovery time? (4)
b. Explain the operation of a MOSFET analog switch with suitable circuit diagram. (6)
c. What property of Schottky diode make it suitable for fast switching? Explain . (4)
PART II
Answer any THREE Questions. Each question carries 14 marks.
Q.7 Implement the following Boolean expressions by synthesizing Pull up and Pull down networks:
(i) 
. (4)
(ii)
. (5)
(iii)
. (5)
Q.8 a. Explain the following logic families and compare their performances. (9)
(i) ECL. (ii) TTL
b. How ECL and TTL logic families are interfaced with each other. (5)
Q.9 a. With a suitable circuit diagram explain how a four bit binary full adder works. How this 4-bit adder can be used as substracter. (8)
b. Explain the operation of a BCD to decimal decoder. (6)
Q.10 Explain the following with timing diagram.
(i) JK flip-flop. (7)
(ii) Clocked SR flip-flop. (7)
Q.11 Write short notes on any TWO of the following:
(i) Programmable logic Array.
(ii) RAM & PROM.
(iii) Seven segment display system.
(iv) Shift register. (7+7)