TY - BOOK AU - Ciletti,Michael D. TI - Introduction to circuit analysis and design SN - 0030705630 U1 - 621.381042 19 PY - 1988/// CY - New York PB - Holt, Rinehart and Winston KW - Electric circuit analysis KW - Electronic circuit design N1 - CHAPTER 1 Elementary circuit relationships. Introduction circuit models and assumptions. Voltage and current. Ideal voltage and current sources. Resistors and Ohm's law etc. CHAPTER 2. Current analysis methods. Introduction. Nodal analysis (NA) and KCL Mesh analysis (MA) and KCL CHAPTER 3. useful circuit properties. Introduction. Linearity and superposition Thevenin equivalent circuit theve equivalent circuits/superposition Norton equivalent circuits Norton equivalent circuits/superposition. etc. CHAPTER 4. Operational amplifiers. Introduction. Finite-gain feedback amplifiers Ideal operational amplifiers Voltage follower Buffer circuit etc. CHAPTER 5. Energy storage elements. Introduction Energy storage elements The capacitor the indictor Derivative models Energy storage Parallel circuits and current division etc. CHAPTER 6. signal models Introduction Constant signals Unit step Ramps and polynomials. Pulses and impulses. Exponential signals etc CHAPTER 7. Input /output models for circuit response Introduction Input/output models Solving the circuit 1/0 model Boundary conditions Repeated natural frequencies etc. CHAPTER 8 Rest -order circuit response. Introduction Capacitor response Series-RC-Circuit response Zero-input Response.(ZIR) Zero-state response (ZSR) The initial-state response (ISR) etc. CHAPTER 9 Additional properties of first order circuits. Introduction ZIR linearity ZSR source -signal scaling ( amplification) ZSR Linearity and superposition. ZSR and ISR to ramp input signals etc. CHAPER 10. first -order circuits with sinusoidal input. Introduction. Complex exponential signals The particular solution for a sinusoidal input signal ZSR to Sinusoidal input. Sinusoidal steady-state response Superposition of sinusoidal signals. CHAPTER 11. Second-order circuit response. Introduction. series RLC circuit. 1/0 Model for a second-order OP AMP circuit Second -order natural solutions. Boundary conditions. ZIR, ZSR, and ISR. ETC. CHAPTER 12. Introduction. Generalized impedance and admittance Generalized KVL and KCL. Series and Parallel circuits. Generalized voltage and current division. Circuit modelling and analysis -an easier way. etc. CHAPTER 13. Frequency-domain models and sinusoidal steady-state analysis. Introduction. Impedance, admittance, and phasors Steady-state circuit analysis with phasors. Phasors models of circuits. Source superposition Thevenin and Norton equivalent circuits. etc. CHAPTER 14 the Fourier series Introduction. Periodic signals The phasor signal set. Complex Fourier series. Fourier series properties. Signal spectra etc. CHAPTER 15 the Fourier transform. Introduction. Non-periodic signals: the Fourier transform Amplitude spectrum Existence of the Fourier transform Fourier transform properties. Energy spectrum. etc. CHAPTER 16 Circuit analysis the Laplace transforms. Introduction The Laplace transform. Inverse transform and partial fraction expansions. Laplace transforms and differential equations Impulse response Circuit analysis with Laplace transforms. etc. CHAPTER 17 Frequency response and an introduction to filter design. Introduction. Frequency response: Magnitude and phase characteristic. First-order low pass filter. Second-order Highpass filter. Bandpass filters. etc. CHAPTER 18 Models for two port networks. Introduction. Mpedance model of a circuit Admittance parameters. Hybrid parameters Transmission parameters ER -