| 29th August 2020 01:28 PM | |
| Rajkumar Agarwal | Nirma University B.Tech Electrical Engineering Sem 6 2EE304 Analog and Digital Electronics Syllabus Nirma University B.Tech Electrical Engineering Sem 6 2EE304 Analog and Digital Electronics Syllabus NIRMA UNIVERSITY Institute of Technology B.Tech. in Electrical Engineering Semester - III Course Code 2EE304 Course Title Analog and Digital Electronics Syllabus Teaching Hours: 45 Unit-1: Introduction 01 Overview of analog and digital circuits, comparison between analog and digital circuits, their applications Unit-2: Differential Amplifier 05 Design of conventional CE amplifier, Evolution of differential amplifier from conventional amplifier, Input output characteristics of differential amplifier, differential amplifier circuit configurations, dc and ac analysis of dual input balanced output differential amplifier, current mirror and level translator Unit-3: Operational Amplifier 05 Equivalent circuit of op – amp, the ideal operational amplifier, Open loop op-amp configuration and its importance, concept of positive and negative feedback, op-amps with voltage series and voltage shunt negative feedback, Op-amp parameters, frequency response of op-amp Unit-4: Op-amp Applications 07 Adder, subtractor circuits using op-amp, integrator and differentiator using op-amp, ac and dc voltmeter using op-amp, basic comparator, zero crossing detectors, Schmitt trigger, window detector, precision rectifier and various circuits, instrumentation amplifier and its applications, various other applications using op-amp Unit-5: Timer Circuits and Signal Generators 05 IC 555 and its functions, astable, bistable and monostable circuits using IC 555, various applications of IC 555, IC 566 - VCO, IC 565 – PLL, IC – 9400 V/F and F/V – Pin Diagrams, functions, applications Unit-6: Logic families 02 Overview of different logic families and IC design technologies, RTL, I2L, ECL, TTL, CMOS, open collector gates Unit-7: Karnaugh Map and Design of Combinational Circuits 06 Expressions of Boolean function in SOP & POS forms, merging & minimization of SOP and L POS forms, problems based on karnaugh Map, don’t care combinations, QM method for solving Boolean expressions, design of half and full adder, half and full subtractor, BCD adders, code converters, parity bit generators and checkers, multiplexers, demultiplexers, decoders, encoders, their applications Unit-8: Flip Flops & Design of Sequential Circuits 06 S-R latch, edge triggered S-R flip flop, JK flip flop, D flip flop, T flip flop, flip flop operating characteristics, shift registers, controlled buffer register, data transmission in shift register, serial in serial out, parallel in parallel out shift register, serial in parallel out, parallel in serial out shift register, asynchronous up/down counters, synchronous up/down counters Unit-9: Analog to Digital and Digital to Analog Converters 05 Digital to analog conversion, R-2R ladder type DAC, weighted resistor type DAC, switched current source type DAC, analog to digital conversion, counter type ADC, tracking type ADC, successive approximation type ADC, flash type ADC Unit-10: Memories and programmable logic devices 03 Role of memory in computer system, memory types & terminology, types of ROM, Semiconductor RAM, memory expansion, sequential memories, programmable logic devices and programmable logic array Self-Study Component: The self study contents will be declared at the commencement of semester. Around 10% of the questions will be asked from self study contents. Suggested Readings: 1. R. Boylestad and L. Nashelsky, Textbook of Electronics Devices & Circuit Theory, PHI Publication. 2. R. Gayakwad, Textbook of Operational Amplifiers and Linear Integrated Circuits, PHI Publication. 3. A. Mottershed, Textbook of Electronics Devices and Circuits An Introduction, PHI Publication. 4. Millman and Halkias, Textbook of Integrated Electronics, Mc Graw Hill. 5. Sergio Franko, Textbook of Designing with Operational Amplifiers and Analog Integrated Circuits, Mc Graw Hill. 6. R. Coughlin and Driscoll, Textbook of OpAmp & Linear Integrated Circuits, PHI Publications. 7. A. Anandkumar, Fundamentals of Digital Circuits, PHI publication 8. Malvino, Digital Computer Electronics, TMH publication 9. Morris Mano, Computer Logic Design, PHI publication L = Lecture, T Tutorial, P Practical, C Credit w.e.f. academic year 2019-20 and onwards |
