000 03997nam a2200229Ia 4500
999 _c538
_d538
001 0002018
003 OSt
005 20190316161141.0
008 170602s9999 xx 000 0 und d
020 _a9788126541980
028 _q2016
_bAllied Informatics, Jaipur
040 _bEnglish
_aBSDU
_cBSDU
082 _a621.382
_bBAR
100 _aBarua, Alok
245 0 _aAnalog Signal Processing
260 _bWiley India Pvt. Ltd. India
_a New Delhi
_c2014,c2014
300 _a284
500 _aAnalog Signal Processing is essential even for a digital system that has an analog signal as input. Analog Signal Processing: Analysis and Synthesis is a textbook for advanced undergraduate and graduate level students as well as circuit designers. It is addressed to Electrical, Electronic Engineering students and practicing engineers interested in instrumentation system design and in understanding the analysis and synthesis of signal processing in analog domain. A basic knowledge of analog circuits is desirable but not essential.
504 _aContents Chapter 1 Fundamentals of Analog Signal Processing 1.1 Introduction 1.2 Fundamentals of an Active Filter 1.3 Filter Types 1.4 Operational Amplifiers 1.5 Admittance Matrix Approach in Analysis of Analog Circuits 1.6 Synthesis of Active Filters 1.7 Oscillators 1.8 Switched Capacitor and Switched Current Circuits 1.9 Approximation Functions Chapter 2 Analysis 2.1 Introduction 2.2 The Indefinite Admittance Matrix Method 2.3 AM Analysis of Networks Constrained by Op-Amps 2.4 Algorithm for Finding the Transfer Function of a Network Constrained by a Single Op-Amp 2.5 Analysis of Multi-Op-Amp-Constrained RC Networks 2.6 Algorithms 2.7 Conclusion Chapter 3 Synthesis 3.1 Introduction 3.2 Single Amplifier Filter 3.3 Adjustment of Gain Constant in a Single Amplifier Filter 3.4 Sensitivity 3.5 Sallen and Key Filter 3.6 Friend Biquad 3.7 Two Amplifier Biquad 3.8 Four Amplifier Biquad 3.9 Three Amplifier Feedforward Biquad 3.10 Introduction to the Expert System for Biquad Synthesis 3.11 Conclusion Chapter 4 High Pole Selectivity Filter 4.1 Introduction 4.2 New Enhanced Pole Selectivity Biquad with Reduced Component Spread 4.3 Conclusion Chapter 5 High-Order Filter Design 5.1 Introduction 5.2 Design Rules 5.3 Approximation Function 5.4 A Unifying Approach for High-Order Filter Design 5.5 Synthesis of High-Order Bandpass Filter 5.6 Expert System-Based Synthesis of High-Order Filter 5.7 Conclusion Chapter 6 Oscillators 6.1 Introduction 6.2 Sinusoidal Oscillator Circuits 6.3 Digital Generation of Analog Periodic Signals 6.4 Delta-Sigma Signal Generation 6.5 Stimulus Generation for Testing of Analog Circuit 6.6 Non-Linear Wave-Shaping Circuit 6.7 Circuit Implementation of a Four-Level Comparator 6.8 Conclusion Chapter 7 Switched Capacitor Circuits 7.1 Introduction 7.2 Switched Capacitor Resistor 7.3 Resistor Simulation 7.4 Switched Capacitor Integrator 7.5 Parasitic Capacitance 7.6 Clock Feedthrough 7.7 Effect of On-Resistance of MOS Switches 7.8 Switched Capacitor State Variable Second-Order Filter Circuit 7.9 Sensitivities 7.10 Limitations of Switched Capacitor Filters 7.11 Conclusion Chapter 8 Switched Current Techniques 8.1 Introduction 8.2 Limitations of Switched Capacitor Circuit 8.3 Switched Current Architecture and Algorithms 8.4 Delay Cell and Integrator Module 8.5 Switched Current Filters 8.6 Synthesis 8.7 Conclusion Chapter 9 Approximation Functions 9.1 Introduction 9.2 Lowpass Loss Function 9.3 Butterworth Approximation 9.4 Chevyshev Approximation 9.5 Inverse Chevyshev Approximation 9.6 Elliptic Approximation 9.7 Bessel Approximation 9.8 Frequency Transformation 9.9 Conclusion
650 _aElectronics
942 _2ddc
_cBK