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Circuit Analysis and Synthesis Telecommunication Engineering Circuit Analysis and Synthesis Telecommunication Engineering Course Program CIRCUIT ANALYSIS AND SYNTHESIS Telecommunication Engineering (3rd Year ) Fall Term 2004/05 Departamento de Electrónica y Electromagnetismo Escuela Superior de Ingenieros. Universidad de Sevilla A ) Instructors: Group I: Óscar Guerra Vinuesa <[email protected]> Room: E2-SO-EE-08 (ESI) Tel.: 954-487378 Group II: Ricardo Carmona Galán <[email protected]> Room: E2-SO-EE-08 (ESI) Tel.: 954-487380 Group III: Rafael Domínguez Castro <[email protected]> Room: E2-SO-EE-08 (ESI) Tel.: 954-487379 Class hours: Group I: Tue. 15:30-17:00 / Thu. 17:45-18:45 / Fri. 19:30-21:00 (Lectures in Spanish) Group II: Tue. 17:15-18:45 / Wed. 19:30-20:30 / Fri. 15:30-17:00 (Lectures in English) Group III: Mon. 15:30-17:00 / Wed. 17:45-18:45 / Thu. 15:30-17:00 (Lectures in Spanish) Office hours: Group I: Tue. 9:00-12:00 / Thu. 9:00-12:00 Group II: Tue. 9:00-12:00 / Wed. 16:30-19:30 Group III: Mon. 16:00-19:00 / Tue. 16:00-19:00 B) Web page http://www.imse.cnm.es/elec_esi/asignat/ASC/index_en.html C) Objectives Learning to analyze and design electronic circuits with passive and active elements. Mastering the realization of continuous-time analog filters. D) Lectures 1. Continuous-time LTI circuit response and representation 1.1 Circuit analysis and synthesis 1.2 Classification 1.3 I/O representation in LTI systems 1.4 Zero-input and zero-state responses 1.5 Natural and forced responses 1.6 Poles and zeros of the transfer function. Stability Departamento. de Electrónica y Electromagnetismo 1 Escuela Superior de Ingenieros. Universidad de Sevilla Circuit Analysis and Synthesis Telecommunication Engineering 1.7 Sinusoidal steady-state response 2. Filter design fundamentals 2.1 Filters: concept and specifications 2.2 Normalization 2.3 Filter classification 2.4 Filter sensitivity 3. Filter approximation 3.1 Approximation theory 3.2 Lowpass magnitude approximation 3.3 Maximally flat approximation 3.4 Butterworth's filter 3.5 Chebyshev's filter 3.6 Inverse Chebyshev filter 3.7 Elliptic (Cauer's) filter 3.8 Bessel's filter 3.9 Frequency transformations 4. Passive filter synthesis 4.1 Introduction 4.2 Passive oneport network synthesis 4.3 Partial pole removal 4.4 Passive twoport networks 4.5 LC ladder synthesis 4.6 LC all-pass filters 5. Active filter synthesis: biquads 5.1 Introduction 5.2 Single-amplifier biquads 5.3 Passive RC circuits 5.4 Multi-amplifier biquads 6. Active filter synthesis: high order filters 6.1 Introduction 6.2 Cascaded realization 6.3 Multiple-feedback realization 6.4 LC ladder simulation 6.5 Inductance substitution 7. Monolithic realization of continuous-time active filters 7.1 Introduction 7.2 MOSFET-C filters 7.3 Gm-C filters 7.4 Automatic frequency tuning in IC's Appendix 1. The operational amplifier A1.1 Poles and zeros introduction by controlled sources A1.2 The ideal OPAMP A1.3 Non-ideal operation: static limitations A1.4 Non-ideal operation: dynamic limitations A1.5 The operational transconductance amplifier Appendix 2. Active circuit building blocks A2.1 Amplifiers/adders A2.2 Integrators A2.3 Gyrators A2.4 Inmittance converters A2.5 Bulding blocks with OTA's E) Prerequisites Basic circuit theory. Departamento. de Electrónica y Electromagnetismo 2 Escuela Superior de Ingenieros. Universidad de Sevilla Circuit Analysis and Synthesis Telecommunication Engineering F) Assesment Written final exam. Personal circuit design exercises. G) Methodology 4 hours/week classroom lectures in the blackboard. Printed materials at the copy room. Materials at the web page. 6 hours/week tutorial sessions. Practical exercises for homework. H) Bibliography • R. Schaumann, M.S. Ghausi and K.R. Laker, DESIGN OF ANALOG FILTERS. PASSIVE, ACTIVE RC AND SWITCHED CAPACITOR. Prentice Hall, 1990 ISBN: 0132002884 • T. Deliyannis, Y. Sun and J.K. Fidler CONTINUOUS-TIME ACTIVE FILTER DESIGN . CRC Press, 1999 ISBN: 0849378931 • Budak, PASSIVE AND ACTIVE NETWORK ANALYSIS AND SYNTHESIS. Houghton Mifflin, 1974 ISBN: 0395172039 • A.S. Sedra and P.O. Brackett, FILTER THEORY AND DESIGN: ACTIVE AND PASSIVE. Matrix Publishers, 1978 ISBN: 0916460142 • S. Natarajan, THEORY AND DESIGN OF LINEAR ACTIVE NETWORKS. MacMillan Publishing Company, 1987 ISBN: 0029497302 • L.P. Huelsman, ACTIVE AND PASSIVE ANALOG FILTER DESIGN. AN INTRODUCTION. McGraw-Hill, 1993 ISBN: 0070308608 • TW.K. Chen, ed., THE CIRCUITS AND FILTERS HANDBOOK. CRC Press - IEEE Press, 1995 ISBN: 0849309123 • G.C. Temes and J.W. La Patra, INTRODUCTION TO CIRCUIT SYNTHESIS AND DESIGN. McGraw-Hill, 2nd edition ISBN: 0070634890 • L.P. Huelsman and P.E. Allen, INTRODUCTION TO THE THEORY AND DESIGN OF ACTIVE FILTERS. McGraw-Hill, 1980 ISBN: 0070308543 • R. Unbehauen and A. Cichocki, MOS SWITCHED-CAPACITOR AND CONTINUOUS-TIME INTEGRATED CIRCUITS AND SYSTEMS. Springer- Verlag, 1989 ISBN: 0387505997 • Lindquist, ACTIVE NETWORK DESIGN WITH SIGNAL FILTERING APPLICATIONS. Steward & Sons, 1977 ISBN: 0917144015 • Papoulis, CIRCUITS AND SYSTEMS: A MODERN APPROACH. Holt, Rinehart and Winston, 1980 ISBN: 0030560977 • K.R. Laker and W. Sansen, DESIGN OF ANALOG INTEGRATED CIRCUITS AND SYSTEMS. Mc Graw Hill, 1994 ISBN: 007036060X • L.O. Chua, C.A. Desoer and E.S. Kuh, LINEAR AND NONLINEAR CIRCUITS. Mc Graw Hill, 1987 ISBN: 0070108986 Departamento. de Electrónica y Electromagnetismo 3 Escuela Superior de Ingenieros. Universidad de Sevilla .
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