000 04338nam a2200241Ia 4500
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_d613
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003 OSt
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008 170602s9999 xx 000 0 und d
020 _a97881265247434
028 _q2016
_bAllied Informatics, Jaipur
040 _bEnglish
_aBSDU
_cBSDU
082 _a621.319 21
_bRAJ
100 _aRajankar, S O, Kaduskar, R G
245 0 _aNetwork Synthesis and Filter Design
260 _bWiley India Pvt. Ltd. India
_a New Delhi
_c2013,c2010
300 _a255
500 _aNetwork Synthesis and Filter Design is targeted to serve as a core text for undergraduate students of electrical, electronics and telecommunication engineering of all major Indian universities. The book is well organized in seven chapters and covers all the important topics in the field of electric network. The text starts with the fundamentals of network synthesis and discusses about the network functions in details followed by synthesis of one-port networks and transfer functions. Then the text gives a glimpse into the important filters used in network design. The performance of any network depends on how well it can perform its functions and its robustness despite distortions. Parameters like sensitivity and gain are then dealt with in detail. The book is intended for those readers who are well-versed with the basic concepts of electrical network and filters. It aims to provide a platform for advanced network synthesis techniques. Filters, the essence of any network design, have been appropriately handled in the book.
504 _aContents Preface About the Authors 1. Network Functions and Fundamentals of Network Synthesis 1.1 The System Function 1.2 Different Forms of System Functions 1.3 Partial-Fraction Expansion 1.4 R-C Differentiator and Integrator 1.5 Poles and Zeros 1.6 Basic Concept in Bode Plot 1.7 Poles and Zeros and Time Delay 1.8 Uniform Dissipation or Uniform Loading 1.9 Elements of Realizibility: Causality and Stability 1.10 Hurwitz Polynomials 1.11 Positive Real Functions 1.12 Basic Synthesis Procedure 2. Synthesis of One-Port Network 2.1 Introduction 2.2 Properties of L-C Immittance Functions 2.3 Synthesis of L-C Driving-Point Immittances 2.4 Properties of R-C Driving-Point Impedances 2.5 Synthesis of R-C Impedances or R-L Admittances 2.6 Properties of R-L Impedances and R-C Admittances 2.7 Synthesis of Certain R-L-C Functions 3. Synthesis of Transfer Function 3.1 Introduction 3.2 Two-Port Networks 3.3 Transfer Functions in Terms of the Z and Y Parameters 3.4 Properties of Transfer Functions 3.5 Zeros of Transmission (ZOT) 3.6 Synthesis of Y21 and Z21 with 1 W Termination 3.7 Synthesis of Open-Circuited Two-Port Network Function 3.8 Synthesis of Constant-Resistance Networks 4. Basic of Filters and Sensitivity 4.1 Introduction 4.2 Classification of Basic Filter 4.3 Passive and Active Filters 117 4.4 Filter Design Flow 4.5 Necessity of Approximation 4.6 Normalized Ideal LPF 4.7 Filter Approximation Techniques 4.8 Squared Magnitude Function 4.9 Sensitivity 4.10 w and Q Sensitivity 4.11 Multiple-Element Deviations 4.12 Gain Sensitivity 4.13 Factors Affecting Gain Sensitivity 5. Design of Passive Filters 5.1 Introduction 5.2 Butterworth Approximation 5.3 Basic Frequency and Network Transformation 5.4 Chebyshev Approximation 5.5 Elliptic Approximation 5.6 Bessel Approximation 6. Design of Active Filters 6.1 Introduction 6.2 Factored Forms of the Approximation Function 6.3 Active Filter Design Approach 6.4 Biquad Topologies 6.5 Low-Pass Filter Using Active RC Elements 6.6 Impedance Scaling 6.7 Frequency Scaling 6.8 Gain Adjustment 6.9 Sallen and Key Low-Pass Circuit 6.10 High-Pass Filter Using Active RC Element 6.11 Band-Pass Filter Using Active RC Elements 208 7. Effects of Practical Op-Amp on Active Filters 7.1 Introduction 7.2 Feedback Circuit and Stability 7.3 Op-amp Frequency Characteristics and Compensation Techniques 7.4 Effects of Op-Amp Frequency Characteristics on Filter Performance 7.5 Other Op-Amp Characteristics Answers Index
650 _aElectronics
700 _a Shedge, D K
942 _2ddc
_cBK