SRM UNIVERSITY FACULTY OF ENGINEERING AND TECHNOLOGY SCHOOL OF ELECTRONICS AND ELECTRICAL ENGINEERING DEPARTMENT OF EEE Course Code : EE0305 Course Title : LINEAR INTEGRATED CIRCUITS Semester : V Course Time : July Nov 2014 Location : ESB BLOCK Course timings: Day order Section A B C D E HR TIMING HR TIMING HR TIMING HR TIMING HR TIMING Day-1 2 9.35-10.25AM 1 8.45-9.35AM 3 10.35-11.25AM Day-2 3 10.35-11.25AM 4 11.25-2.15PM 2,5 9.35-0.25AM, 1.30-2.20PM Day-3 4 11.25-2.15PM 1 8.45-9.35AM 4 11.25-2.15PM Day-4 1 8.45-9.35AM Day-5 3 10.35-1.25AM 6 2.20-3.10 PM 1 8.45-9.35AM 1 8.45-9.35AM Faculty Details Sec. Name of the Staff Office Office hour Mail id A Ms. N.KALAIARASI ESB 207 12.30-1.30 PM kalaiarasi.n@ktr.srmuniv.ac.in B Ms. R.UTHRA ESB 219 12.30-1.30 PM uthra.r@ktr.srmuniv.ac.in C Ms.ARUMUGASELVI 12.30-1.30 PM arumugaselvi.m@ktr.srmuniv.ac.iv D Ms.K.SUBHASHARMINI ESB 403 12.30-1.30 PM subhasharmini.k@ktr.srmuniv.ac.in E Ms.P.U.PURNIMA ESB 403 12.30-1.30 PM poornima.p@ktr.srmuniv.ac.in
Required Text Books: Katsuhiko Ogata, Modern Control Engineering second edition, Prentice Hall of India Private Ltd., New Delhi, 1995 Nagrath I J and Gopal.M., Control systems engineering, I edition, Wiley and sons, 1985 Benjamin C Kuo, Automatic Control system, 7th edition, Prentice Hall of India Private Ltd., New Delhi, 1993 Gajic Z., Lelic M., Modern Control System Engineering, Prentice Hall of India Private Ltd., New Delhi, 1996 Richard.C., Dorf and Robert.H.Biship, Modern Control System Engineering, Addison Wesley, 1999 Web Resources : 1. www.electronics.com 2. ebookee.com- circuits Prerequisite : INSTRUCTIONAL OBJECTIVES: After the completion of this course successfully the students will be able to: Design various circuits using Op Amps. Design waveform Generating circuits. Design simple filter circuits for specific engineering applications. Design multivibrator circuits using timers. Gain knowledge in digital and analog voltage regulator. Assessment Details Cycle Test I : 10 Marks Surprise Test : 05 Marks Cycle Test II : 10 Marks Model Exam : 20 Marks Attendance : 05 Marks Total : 50 Marks Test Schedule S. No DATE TEST TOPICS DURATION 1 4.08.2014 CYCLE TEST-I UNIT-I 1 hr 30 minutes 2 28.08.2014 CYCLE TEST-II UNIT-II & III 1 hr 30 minutes 3 23.10.2014 MODEL EXAM ALL 5 UNITS 3 hrs
Outcomes Student who have successfully completed this course, Program outcome Design various circuits using Op Amps. Design waveform Generating circuits. Design simple filter circuits for specific engineering applications. Design multivibrator circuits using timers. Gain knowledge in digital and analog voltage regulator. a).an ability to apply science, and engineering. b). An ability to design and well as to analyze and process to meet desired health and safety, sustainability e).an ability to identify, engineering problems h).the broad education necessary to understand the impact of engineering solutions in a global perspective j) a knowledge of contemporary issues.
Detailed Session Plan SESSION PLAN UNIT 1 OP-AMP FUNDAMENTALS, CHARACTERISTICS AND APPLICATIONS 9 Basic information, Op-anp configurations, Ideal op-amp circuit analysis-dc and AC characteristics of ideal op-amp, - Inverting and Noninverting amplifiers - summing amplifier - difference amplifier - voltage follower - Differentiator - Integrator Non applicationsclamper - clipper sample and hold circuit, Log and Antilog Amplifier, Multiplier and Divider. Session No. Topics to be covered Text book Chap.no & 1 Basic information, configurations, ideal opamp circuit analysis 2,3 DC characteristics& AC characteristics 4 Inverting & Non inverting amplifier 5 Summing amplifier, difference amplifier, voltage follower circuits,wile y 44-50 Model Exam 117-143 51-57 57-60 Class notes 6,7 Differentiator, Integrator 186-197 8 Clipper, Clamper 173-176 9 Sample and hold circuit 176 9 Log & Antilog amplifier 178-183 Cycle test I Surprise test To design simple circuits like amplifiers using OP- AMPs well as to analyze and interpret results. economic,environmental, social, political, ethical, health and safety, manufacturability, and sustainability 10 Multiplier & Divider 183-186 UNIT 2 COMPARATORS AND WAVEFORM GENERATORS Introduction - Basic comparator application, sine wave generator- wein bridge and phase shift oscillator, square wave, triangular wave, saw tooth wave generation, Schmitt trigger, window detector. 9 Session No. Topics to be covered Text book Chap.no & Page No.
11 Basic comparator Operation 12 Sine wave generator 250-254 (Wein bridge circuits,wiley oscillator) 13 Phase shift oscillator 250-252 231-234 Model Exam Cycle test I Surprise Test To design waveform generating circuits well as to analyze and 14,15,16 Square wave & Triangular wave 17 Saw tooth wave circuits,wiley 241-246 247-249 Class notes sustainability 18 Schmitt trigger & window detector 237-240 UNIT 3 ACTIVE FILTERS &PLL 9 RC active filters- Low pass, High pass, Band pass, Band reject and notch filter. PLL Description and application Frequency multiplier, Frequency divider, AM detector and FM detector. Session No. Topics to be covered Text book Chap.no & RC active filters Low 291-300 19,20,21 pass & High pass Class notes filter 22,23 Band pass, band circuits,wiley 301-310 reject 23 Notch Filter 306-310 24 PLL Description 355-363 25 Frequency multiplier, divider 26 AM detector & FM detector 374-375 375-377 Model Exam Cycle test II To design simple filter circuits for particular application well as to analyze and
sustainability UNIT 4 ANALOG/DIGITAL AND DIGITAL/ ANALOG CONVERTERS 9 Digital to analog converters- basic concepts, analog switches,types-weighted,r-2r ladder DAC. Analog to Digital converter- basic concepts,types-flash, counter, successive approximation and dual slope Session No. Topics to be covered Text book Chap.no & 27 Basic concepts, analog switches 28 Weighted resistor, R 2R 29,30 A/D basic concepts, flash type counter type 31,32 Successive approximation, dual slope circuits,wiley 380-382 Model Exam 382-387 391-396 396-402 Cycle Test II To design simple circuits like amplifiers using OP-AMPs. well as to analyze and sustainability UNIT 5 VOLTAGE REGULATORS AND TIMERS 9 voltage regulators - Fixed voltage regulators, Adjustable voltage regulators 723 general purpose voltage regulator. IC555 Timer-Timer functional diagram, monostable and astable operation, Schmitt trigger and their applications. Session No. Topics to be covered Text book Chap.no & circuits,wiley 272-275 33 Fixed voltage regulators 34 Adjustable voltage regulators 35,36 723-General purpose voltage regulators 264-265 Model To gain knowledge in Exam designing stable voltage 270-271 regulators.
37 IC-555 Functional diagram 38 Monstable operation& Applications 39 Astable operation 335-337 well as to analyze and 337-344 345-351 sustainability 40 Schmitt trigger & their application 352 41,42 Revision