QUESTION BANK 2019 SIDDHARTH GROUP OF INSTITUTIONS :: PUTTUR Siddharth Nagar, Narayanavanam Road – 517583 QUESTION BANK (DESCRIPTIVE) Subject with Code : PULSE & DIGITAL CIRCUITS (16EC410) Course & Branch: B.Tech – ECE Year & Sem: II-B.Tech & II-Sem Regulation: R16 UNIT-I LINEAR AND NON LINEAR WAVE SHAPING 1. (a)Show that a high pass circuit with a small time constant acts as differentiator [6M] (b) A 10v step is switvhed on to a 50kΩ resistor in series with a 500pf capacitor.calculate the rise time of the capacitor voltage,the time for the capacitor to charge 63.2% of its maximum voltage,and the time for the capacitor to be completely charged [6M] 2. (a)Design high pass RC circuit for sinsusoidal input. [6M] (b)Define clamper. With the help of neat circuit diagrams and output waveforms, Explain the working of positive peak and negative peak clamping circuits [6M] 3. Derive an expression for the output voltage levels under steady state conditions of a high pass circuit excited by a pulse input [12M] 4. Describe about attenuators and derive the condition for perfect compensation of an attenuator 5. a) Prove that a low pass circuit acts as an integrator. [6M] b)Design high pass RC circuit for sinsusoidal input [6M] 6 a) Discuss the function of series diode and shunt diode clipping circuits? How can the clipping level shifted to reference voltage? Explain? [6M] b) A pulse generator with an output resistance RS=500Ω is connected to an oscilloscope with an Input capacitance of Ci =30pf .determine the fastest rise time that can be displayed. [6M] 7. Discuss about attenuators and derive the condition for perfect compensation of an attenuator [12M] 8. a) With the help of a neat circuit diagram, explain the working of a two-level diode clipper. [6M] b)State and prove clamping circuit theorem. [6M] 9. a) write about synchronized clamping? Draw the circuit and explain its operation. [6M] b) Discuss the effect of diode characteristics on clamping circuits [6M] 10. Classify different types of clipper circuits. Give their circuit and explain their operation. [12M] Pulse & digital circuits Page 1 QUESTION BANK 2019 UNIT-II SWITCHING CHARACTERISTICS AND MULTIVIBRATORS 1. a)Elaborate about piece-wise linear approximation for a semiconductor diode characteristics. [6M] b) Explain the working of transistor as a switch and draw the output characteristics [6M] 2. a) Briefly explain the design of transistor switch. [6M] b) write about the storage and transition times of the diode as a switch. [6M] 3. Write short notes on [12M] (a) Diode switching times (b) Transistor switching times. 4. a) Define about storage time and delay time [6M] b) Describe about diode forward recovery time and reverse recovery time. [6M] 5. Discuss the operation of collector coupled monostable multivibrator with its output waveforms. [12M] 6. a) with a neat diagram, explain the operation of fixed bias bistable multivibrator. [6M] b)Design self bias bistable multivibrator with neat sketch. [6M] 7. Describe with neat circuit diagram and waveform of collector coupled astable multivibrator. [12M] 8. Discuss about the Schmitt trigger circuit with neat diagram. [12M] 9. Design a bistable multivibrator with hfe(min) equal to 20 and Vcc=VBB=10v. Assume silicon transistors are used. [12M] 10. a) write about the operation of diode as a switch. [6M] b) Describe about diode forward recovery time and reverse recovery time [6M] Pulse & digital circuits Page 2 QUESTION BANK 2019 UNIT – III TIME BASE GENERATORS 1. a)Explain the basic principles of Miller and Bootstrap time-base generators. [6M] b) Give the comparison of both Miller and Bootstrap generation methods. [6M] 2. With the help of neat circuit diagram and waveforms explain transistor miller time base generator. [12M] 3. a)Explain the working of Transistor Miller sweep circuit. [6M] b)What are its advantages miller over Bootstrap sweep circuits? [6M] 4. Briefly explain the working of a transistor bootstrap time base generator. [12M] 5. Derive the following expressions for [12M] a)Sweep speed error b) Displacement error c) Transmission error 6. With the help of a neat circuit diagram, explain the working of a simple current sweep. [12M] 7. a)What are the techniques used to improve the Linearity of current sweeps? [6M] b).Discuss about Transistor Current Time Base Generator. [6M] 8. Find the component values of a bootstrap sweep generator, Given VCC = 18 V, IC(sat) = 2 mA and hfe (min) = 30. [12M] 9. Explain in brief about the Bootstrap sweep circuit? [12M] 10 write about the operation of miller sweep circuit? [12M] Pulse & digital circuits Page 3 QUESTION BANK 2019 UNIT – IV SAMPLING GATES 1. a)Explain about unidirectional diode sampling gate. [6M] b)Write advantages and Disadvantages of sampling gate [6M] 2. a )Sketch the circuit of simple diode bidirectional gate and describe its function. [6M] b)Derive the expressions for the gain and control voltages? [6M] 3. With the help of neat diagram explain the working of bidirectional sampling gate using transistors? [12M] 4. a)With the help of neat diagram explain the working of a four diode sampling gate. [6M] b)Derive expressions for its gain (A) and Vmin. [6M] 5. With the help of neat diagram explain the working of a six diode gate? [12M] 6. a)Draw and explain the reduction of pedestal in a gate circuit [6M] b)Give a brief review about applications of the sampling gate? [6M] 7. a)Discuss the function of a sampling gate used in Sampling Scopes. [6M] b) Explain how sampling gate is used in chopping amplifiers. [6M] 7. a) Compare unidirectional and bidirectional sampling gates. [6M] b) Why the sampling gates are called linear gates? [6M] 10. a)Give a brief review about applications of the sampling gate? [6M] b) Illustrate the principle of sampling gates with series and parallel switches and compare them. [6M] Pulse & digital circuits Page 4 QUESTION BANK 2019 UNIT – V SYNCHRONIZATION AND FREQUENCY DVISION 1. (a) Compare sine wave synchronization with pulse synchronization. [6M] (b) Explain the frequency division with respect to a sweep circuit. [6M] 2. Explain the method of pulse synchronization of relaxation devices with example. [12M] 3. List out the factors which influence the stability of a relaxation divider, with the help of neat waveforms. [12M] 4. With the help of neat diagrams and waveforms explain the use of monostable relaxation circuit as frequency divider. [12M] 5. (a) Explain the synchronization of sweep circuit with symmetric signals. [6M] (b) How a sine wave frequency division is done with a sweep circuit? [6M] 6. (a) Construct a neat diagram of OR, AND & NOT gates using diodes. [6M] b) Explain the concepts of Open collector. [6M] 7. a)Explain the operation of AND, OR & NOT gates using transistors. [6M] b)Explain the concepts of Tristate outputs [6M] 8. Describe about CMOS NAND and NOR gate with neat circuit diagram. [12M] 9. a)Write short notes on CMOS logic. [6M] b) Discuss about CMOS inverter. [6M] 10. With the help of neat circuit diagram and truth table explain the working of [12M] (i) DTL NAND gate (ii) RTL NAND gate. 11.With reference to logic gates explain the terms: [12M] (i) Fan out (ii) Noise margin (iii) Propagation delay (iv) Figure of Merit Pulse & digital circuits Page 5