Cycle test -1 : 10Marks Surprise test : 5 Marks ... - SRM University

SRM UNIVERSITY FACULTY OF ENGINEERING AND TECHNOLOGY SCHOOL OF ELECTRONICS AND ELECTRICAL ENGINEERING DEPARTMENT OF TCE COURSE PLAN Course Code Course Title Class Semester Location Faculty Details Sec. A&B

: TE0201 : Analog and Digital Systems : II Year -ITCE : III Semester (June-Dec 2012) : S.R.M.E.C – Tech Park NAME

OFFICE

Mrs. N. Showme

Tech Park

OFFICE HOURS

E-MAIL ID

12.00 -1.30

[email protected]

Required Text Books: 1) Floyd and Jain, "Digital Fundamentals", Pearson Education, 8th edition, 2007 2) Morris Mano, "Digital Design", Pearson Education 3rd edition 3) Ramakant A. Gayakwad, "op-amps and Linear Integrated Circuits", Pearson Education, 4th edition REFERENCE BOOKS

4) John F. Wakerly, "Digital design - Principles and Practices", Prentice Hall International, 3rd edition, 2001 5) Ronald J.Tocci, Neal S.Widmer, "Digital Systems - Principles and Applications", Pearson Education, 8th edition, 2001 6) William I. Fletcher, "An Engineering Approach to Digital Design", Prentice Hall of India, 1980 7) Theodore F.Bogart. Jr, "Introduction to digital circuits", Tata McGraw-Hill International, 1992 8) Coughlin & Driscull, "Operational Amplifiers & Linear Integrated Circuits", Pearson Education, 6th edition, 2003 Prerequisite Nil.

Objectives This course gives an overview of various analog and digital electronic systems. This course helps the students to know the basic of analog and digital techniques, which forms the foundation for the higher courses.

Assessment details

Cycle test -1 Cycle test- II Model Exam

: 10Marks : 10Marks : 20 Marks

Surprise test Attendance

: :

5 Marks 5 Marks

Test Schedule SL.NO 1 2 3

Outcomes

DATE

TEST Cycle test- I Cycle test- II Model Exam

TOPICS 1 to 18 19 to 36 1 to 45

DURATION 2 HRS 2 HRS 3 HRS

Students who have successfully completed this course will have able to do the following

• • •

Course outcome Illustrates general analog and digital principles and design methodologies Address a wide variety of design-oriented applications Synthesize and Implement combinational and sequential system design

•

Program outcome To know the basic analog and digital techniques

DETAILED SESSION PLAN

OP-AMP FUNDAMENTALS AND APPLICATIONS Introduction to op-amp: op-amp symbol - terminals - packages - specifications - block diagram representation ideal op-amp - practical op-amp - open-loop and closed-loop configurations. Practical Limitations of op-amp circuits: Bias and offset currents / offset voltage - frequency compensation and stability - slew rate - CMRR. Basic op-amp circuits: Inverting & Non-Inverting amplifiers - voltage follower - summing and differential amplifiers - AC amplifiers. Op-amp applications: Instrumentation amplifier - Differentiator & Integrator - precision rectifiers - clipper and clamper circuits - log and anti-log circuits - comparator and its applications. Session No 1

2

3 4

Topics to be covered op-amp symbol - terminals packages - specifications block diagram representation ideal op-amp - practical op-amp - open-loop and closed-loop configurations Bias and offset currents / offset voltage - frequency compensation stability - slew rate - CMRR

Refer ence

Teaching Method

Testing Method

3,8

BB

1.Group discussion 2.Self-test questions

3,8

BB

1.Self test questions

3,8

BB

1.Self-test questions 2.Group discussion

3,8

BB

1.Group discussion

Inverting & Non-Inverting 3,8 BB 1.Self test questions amplifiers - voltage follower summing and differential 6 3,8 BB 1.Group discussion amplifiers - AC amplifiers Instrumentation amplifier 7 3,8 BB 1.Self test questions Differentiator & Integrator precision rectifiers - clipper and 1.Quiz 8 3,8 BB clamper circuits 2.Self test questions log and anti-log circuits 9 3,8 BB 1.Self test questions comparator and its applications OP-AMP OSCILLATORS AND DATA CONVERSION DEVICES Op-amp oscillators: positive feedback and Barkhausen criterion - Wien Bridge oscillator - phase shift oscillator square / triangle / ramp function generator. Single-chip oscillators: VCO and its applications - 555 timer (Astable & Monostable operation) and its applications. Data converters: Performance specifications - D/A conversion circuits(R-2R & inverted R-2R Ladder D/A converters) - A/D conversion circuits (Successive approximation, dual slope and flash A/D converters). 5

10

11

positive feedback and Barkhausen criterion - Wien Bridge oscillator phase shift oscillator - square / triangle / ramp function generator

3,8

BB

3,8

BB

1.Self test questions

1..Self test questions

12

VCO and its applications

3,8

BB

1.Quiz 2.Self test questions

555 timer (Astable operation) 3,8 BB seminar and its applications. 555 timer (Monostable 14 3,8 BB Group discussion operation) and its applications. Performance specifications 1.Quiz 15 D/A conversion circuits(R-2R 3,8 BB 2.Self test questions Ladder D/A converters) D/A conversion circuits 1.Quiz 16 (inverted R-2R Ladder D/A 3,8 BB 2.Self test questions converters) A/D conversion circuits 1.Quiz 17 3,8 BB (Successive approximation) 2.Self test questions A/D conversion circuits (dual 18 slope and flash A/D 3,8 BB Group discussion converters). DIGITAL DESIGN PRINCIPLES Number systems: Review of number systems and their conversion - binary arithmetic in computers. Binary codes: Weighted binary codes - non-weighted codes - error-detecting codes - error-correcting codes alphanumeric codes. Logic gates: The Inverter - AND gate - OR gate - NAND gate - NOR gate - Exclusive- OR gate - Exclusive-NOR gate. Boolean algebra and Logic simplification: Basic theorems and properties of Boolean algebra - DeMorgan's theorems - canonical and standard forms - universal prpoperty of NAND & NOR gates - minimaixation of logic functions, SOPs & POSs representations,minimization of Boolean expressions using algebric, k-map and tabular methods - minimization of multiple output functions. 13

19 20 21

22

23

24 25

Review of number systems and their conversion - binary arithmetic in computers Weighted binary codes - nonweighted codes Error detecting codes - errorcorrecting codes alphanumeric codes The Inverter - AND gate - OR gate - NAND gate - NOR gate Exclusive- OR gate - ExclusiveNOR gate Basic theorems and properties of Boolean algebra DeMorgan's theorems canonical and standard forms universal prpoperty of NAND & NOR gates minimization of logic functions

1,2

BB


1,2

BB

1.Group discussion 2.Self test questions

1,2

BB


1,2

BB


1,2

BB


1,2

BB


1,2

BB


SOPs & POSs 1.Quiz representations,minimization of 26 1,2 BB 2.Self test questions Boolean expressions using algebric k-map and tabular methods 1.Quiz 27 minimization of multiple output 1,2 BB 2.Self test questions functions. COMBINATIONAL & SEQUENTIAL SYSTEM DESIGN: SYNTHESIS & IMPLEMENTATION Arithmetic functions: Basic adders - subtractors - carry look-ahead adder - decimal adder - magnitude comparator. MSI Logic circuits: Decoders - Encoders - Multiplexers - DeMultiplexers - Code converters - Parity generators/checkers - implementation of combinational functions using MUX, DeMUX, decoders and code converters. Flip-flops: RS flip-flop - T flip-flop - D flip-flop - JK flip-flop - Master-Slave flip-flops - IC flip-flops their truth table and excitation table. Shift Registers: SISO, SIPO, PISO and PIPO shift registers - bidirectional and universal shift registers. Counters: Asynchronous counter operation - Synchronous counter operation up/down synchronous counter - ring counter - shift register counter.

28 29

Basic adders - subtractors carry look-ahead adder decimal adder - magnitude comparator

1,2

BB

1,2

BB

1.Quiz 2.Self test questions 1.Quiz 2.Self test questions

30

31

32

33

34

35

36

Decoders - Encoders Multiplexers - DeMultiplexers Code converters - Parity generators/checkers implementation of combinational functions using MUX implementation of combinational functions using DeMUX, decoders and code converters RS flip-flop - T flip-flop - D flipflop - JK flip-flop - Master-Slave flip-flops - IC flip-flops - their truth table and excitation table SISO, SIPO, PISO and PIPO shift registers - bidirectional and universal shift registers Asynchronous counter operation - Synchronous counter operation up/down synchronous counter ring counter - shift register counter

1,2

BB


1,2

BB

Group discussion

1,2

Group discussion BB

1,2

Self test questions BB

1,2


1,2


1,2

Quiz BB

MEMORY AND PLDS Introduction to memories: Memory types and terminology - general memory operation. Read-only-Memory: ROM architecture - ROM types - ROM timing - ROM applications. Read/Write Memory: RAM architecture - Static RAM - Dynamic RAM - expanding word size and capacity. PLDs: Fundamentals of PLD - SPLDs - PAL - GAL - Introduction to CPLDs and FPGAs.

37

Memory types and terminology - general memory operation

1,2

BB


38

ROM architecture - ROM types

1,2

BB

Seminar

39

ROM timing - ROM applications

1,2

BB


40

RAM architecture - Static RAM

1,2

BB

41

Dynamic RAM - expanding word size and capacity

1,2

BB

42

Fundamentals of PLD - SPLDs

43

PAL - GAL

44

Introduction to CPLDs

45

Introduction to FPGAs

BB - Black Board

1,2 1,2 1,2 1,2

BB BB BB BB

1.Quiz 2.Self test questions 1.Quiz 2.Self test questions 1.Quiz 2.Self test questions 1.Quiz 2.Self test questions 1.Quiz 2.Self test questions Group Discussion