05207nam 2200805Ia 450 991102044930332120200520144314.09781119942689111994268397866136207506613620750978128059092412805909209781119942306111994230697811199422901119942292(CKB)2670000000151524(EBL)867632(SSID)ssj0000612860(PQKBManifestationID)11408013(PQKBTitleCode)TC0000612860(PQKBWorkID)10572417(PQKB)10422345(MiAaPQ)EBC867632(DLC) 2012007149(OCoLC)779616876(CaSebORM)9780470710265(PPN)190244305(OCoLC)810071452(OCoLC)ocn810071452 (Perlego)1013965(EXLCZ)99267000000015152420120216d2012 uy 0engur|n|---|||||txtccrSignal processing and integrated circuits /Hussein Baher1st editionHoboken, N.J. Wiley20121 online resource (474 p.)Description based upon print version of record.9780470710265 0470710268 Includes bibliographical references and index.Signal Processing and Integrated Circuits; Contents; About the Author; Preface; Part I Perspective; Chapter 1 Analog, Digital and Mixed-mode Signal Processing; 1.1 Digital Signal Processing; 1.2 Moore's Law and the ``Cleverness'' Factor; 1.3 System on a Chip; 1.4 Analog and Mixed-mode Signal Processing; 1.5 Scope; Part II Analog (Continuous-time) and Digital Signal Processing; Chapter 2 Analog Continuous-time Signals and Systems; 2.1 Introduction; 2.2 The Fourier Series in Signal Analysis and Function Approximation; 2.2.1 Definitions; 2.2.2 The Time and Discrete Frequency Domains2.2.3 Convolution2.2.4 Parseval's Theorem and Power Spectrum; 2.2.5 The Gibbs' Phenomenon; 2.2.6 Window Functions; 2.3 The Fourier Transformation and Generalized Signals; 2.3.1 Definitions and Properties; 2.3.2 Parseval's Theorem and Energy Spectra; 2.3.3 Correlation Functions; 2.3.4 The Unit Impulse and Generalized Signals; 2.3.5 The Impulse Response and System Function; 2.3.6 Periodic Signals; 2.3.7 The Uncertainty Principle; 2.4 The Laplace Transform and Analog Systems; 2.4.1 The Complex Frequency; 2.4.2 Properties of the Laplace Transform; 2.4.3 The System Function3.4.1 Low-pass to Low-pass Transformation3.4.2 Low-pass to High-pass Transformation; 3.4.3 Low-pass to Band-pass Transformation; 3.4.4 Low-pass to Band-stop Transformation; 3.5 Examples; 3.6 Phase-oriented Design; 3.6.1 Phase and Delay Functions; 3.6.2 Maximally Flat Delay Response; 3.7 Passive Filters; 3.8 Active Filters; 3.9 Use of MATLAB® for the Design of Analog Filters; 3.9.1 Butterworth Filters; 3.9.2 Chebyshev Filters; 3.9.3 Elliptic Filters; 3.9.4 Bessel Filters; 3.10 Examples of the use of MATLAB®; 3.11 A Comprehensive Application: Pulse Shaping for Data Transmission; 3.12 ConclusionProblemsChapter 4 Discrete Signals and Systems; 4.1 Introduction; 4.2 Digitization of Analog Signals; 4.2.1 Sampling; 4.2.2 Quantization and Encoding; 4.3 Discrete Signals and Systems; 4.4 Digital Filters; 4.5 Conclusion; Problems; Chapter 5 Design of Digital Filters; 5.1 Introduction; 5.2 General Considerations; 5.3 Amplitude-oriented Design of IIR Filters; 5.3.1 Low-pass Filters; 5.3.2 High-pass Filters; 5.3.3 Band-pass Filters; 5.3.4 Band-stop Filters; 5.4 Phase-oriented Design of IIR Filters; 5.4.1 General Considerations; 5.4.2 Maximally Flat Group-delay Response; 5.5 FIR Filters5.5.1 The Exact Linear Phase PropertyThis book provides a balanced account of analog, digital and mixed-mode signal processing with applications in telecommunications. Part I Perspective gives an overview of the areas of Systems on a Chip (Soc) and mobile communication which are used to demonstrate the complementary relationship between analog and digital systems. Part II Analog (continuous-time) and Digital Signal Processing contains both fundamental and advanced analysis, and design techniques, of analog and digital systems. This includes analog and digital filter design; fast Fourier transforSignal processingEquipment and suppliesSignal processingMathematicsIntegrated circuitsDesign and constructionElectric filtersSignal processingEquipment and supplies.Signal processingMathematics.Integrated circuitsDesign and construction.Electric filters.621.382/2Baher H622071MiAaPQMiAaPQMiAaPQBOOK9911020449303321Signal processing and integrated circuits4416521UNINA