Cover -- Contents -- Preface -- Chapter 0 Analog Signals and Systems-The Scope and Study Plan -- Chapter 1 Circuit Fundamentals -- 1.1 Voltage, Current, and Power -- 1.2 Kirchhoff's Voltage and Current Laws: KVL and KCL -- 1.3 Ideal Circuit Elements and Simple Circuit Analysis Examples -- 1.4 Complex Numbers -- Exercises -- Chapter 2 Analysis of Linear Resistive Circuits -- 2.1 Resistor Combinations and Source Transformations -- 2.2 Node-Voltage Method -- 2.3 Loop-Current Method -- 2.4 Linearity, Superposition, and Thevenin and Norton Equivalents -- 2.5 Available Power and Maximum Power Transfer -- Exercises -- Chapter 3 Circuits for Signal Processing -- 3.1 Operational Amplifiers and Signal Arithmetic -- 3.2 Differentiators and Integrators -- 3.3 Linearity, Time Invariance, and LTI Systems -- 3.4 First-Order RC and RL Circuits -- 3.5 nth-Order LTI Systems -- Exercises -- Chapter 4 Phasors and Sinusoidal Steady State -- 4.1 Phasors, Co-Sinusoids, and Impedance -- 4.2 Sinusoidal Steady-State Analysis -- 4.3 Average and Available Power -- 4.4 Resonance -- Exercises -- Chapter 5 Frequency Response H(ƒ(S}(B) of LTI Systems -- 5.1 The Frequency Response H(ƒ(S}(B) of LTI Systems -- 5.2 Properties of Frequency Response H(ƒ(S}(B) of LTI Circuits -- 5.3 LTI System Response to Co-Sinusoidal Inputs -- 5.4 LTI System Response to Multifrequency Inputs -- 5.5 Resonant and Non-Dissipative Systems -- Exercises -- Chapter 6 Fourier Series and LTI System Response to Periodic Signals -- 6.1 Periodic Signals -- 6.2 Fourier Series -- 6.3 System Response to Periodic Inputs -- Exercises -- Chapter 7 Fourier Transform and LTI System Response to Energy Signals -- 7.1 Fourier Transform Pairs f (t) ↔ F((S}(B) and Their Properties -- 7.2 Frequency-Domain Description of Signals -- 7.3 LTI Circuit and System Response to Energy Signals -- Exercises -- Chapter 8 Modulation and AM Radio.

8.1 Fourier Transform Shift and Modulation Properties -- 8.2 Coherent Demodulation of AM Signals -- 8.3 Envelope Detection of AM Signals -- 8.4 Superheterodyne AM Receivers with Envelope Detection -- Exercises -- Chapter 9 Convolution, Impulse, Sampling, and Reconstruction -- 9.1 Convolution -- 9.2 Impulse (Se(B(t) -- 9.3 Fourier Transform of Distributions and Power Signals -- 9.4 Sampling and Analog Signal Reconstruction -- 9.5 Other Uses of the Impulse -- Exercises -- Chapter 10 Impulse Response, Stability, Causality, and LTIC Systems -- 10.1 Impulse Response h(t) and Zero-State Response y(t) = h(t) * f(t) -- 10.2 BIBO Stability -- 10.3 Causality and LTIC Systems -- 10.4 Usefulness of Noncausal System Models -- 10.5 Delay Lines -- Exercises -- Chapter 11 Laplace Transform, Transfer Function, and LTIC System Response -- 11.1 Laplace Transform and its Properties -- 11.2 Inverse Laplace Transform and PFE -- 11.3 s-Domain Circuit Analysis -- 11.4 General Response of LTIC Circuits and Systems -- 11.5 LTIC System Combinations -- Exercises -- Chapter 12 Analog Filters and Low-Pass Filter Design -- 12.1 Ideal Filters: Distortionless and Nondispersive -- 12.2 1st-and 2nd-Order Filters -- 12.3 Low-Pass Butterworth Filter Design -- Exercises -- Appendix A: Complex Numbers and Functions -- A.1 Complex Numbers as Real Number Pairs -- A.2 Rectangular Form -- A.3 Complex Plane, Polar and Exponential Forms -- A.4 More on Complex Conjugate -- A.5 Euler's Identity -- A.6 Complex-Valued Functions -- A.7 Functions of Complex Variables -- Appendix B: Labs -- Lab 1: RC-Circuits -- Lab 2: Op-Amps -- Lab 3: Frequency Response and Fourier Series -- Lab 4: Fourier Transform and AM Radio -- Lab 5: Sampling, Reconstruction, and Software Radio -- Appendix C: Further Reading -- INDEX -- A -- B -- C -- D -- E -- F -- H -- I -- K -- L -- M -- N -- O -- P -- R -- S -- T -- U -- V -- Z.

Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2018. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.