About this product

Product Identifiers

PublisherDelamr Cengage Learning

ISBN-10076682330X

ISBN-139780766823303

eBay Product ID (ePID)3038741121

Product Key Features

Number of Pages480 Pages

Publication NameAdvanced AC Electronics : Principles and Applications

LanguageEnglish

Publication Year2003

SubjectGeneral, Electrical, Electronics / General, Computer Engineering

TypeTextbook

Subject AreaComputers, Technology & Engineering

AuthorJ. Michael Jacob

FormatHardcover

Dimensions

Item Height1 in

Item Weight35.3 Oz

Item Length9.3 in

Item Width8.1 in

Additional Product Features

Intended AudienceCollege Audience

LCCN2003-007979

Dewey Edition21

IllustratedYes

Dewey Decimal621.319/13

Table Of ContentSinusoidal Fundamentals 1. Sinusoidal Waveform 1-1. Why Sinusoidal Waves are Unique 1-2. General Form 1.3. Amplitude (VP, VPP, VDC, VRMS) 1-4. Frequency (f, ï�·) 1-5. Phase (lead, lag) 2. Phasors 2-1. Polar Notation 2-2. Rectangular Notation 2-3. Conversion 2-4. Math Operations 2-5. Impedance R,L,C Loud speaker impedance plots Motor 3. Series Circuits 3-1. RC and RL Circuits Passive Thyristor snubbing network Amplifier RC input and output couplers Motor response 3-2. RCL Circuit Passive (a teaser for resonance) Thyristor snubbing network Amplifier power supply decoupling RF amplifier connection 4. Parallel Circuits 4-1. RC and RL Circuits Passive Op amp bandwidth limiting RF amplifier inductive load 4-2. RCL Circuit Passive (a teaser for resonance) Filter Applications 5. Filter Terminology 5-1. Frequency Response Plot 5-2. dB dBsound pressure level, dBm, dBV Loud speaker loudness rating 5-3. f-3dB and fo Loud speaker response and phasing Cross-over networks Amplifier stability 6. Low Pass Filter 6-1. RC Quick-Look Analysis Response Derivation f-3dB and fo ADC and amplifier noise rejection Phase locked loop filter 6-2. RL Quick-Look Analysis Response Derivation f-3dB and fo Woofer speaker crossover network 7. High Pass Filter 7-1. RC Quick-Look Analysis Response Derivation f-3dB and fo Amplifier coupler Tweeter crossover network 7-2. RL Quick-Look Analysis Response Derivation f-3dB and fo 8. Amplifier Frequency Response 8-1. Reactive Networks Around an Op Amp Amplifier series RC in the feedback loop parallel RC in the feedback loop series RC in the input loop parallel RC in the input loop 8-2. Gain Bandwidth Product 8-3. Slew Rate 9. Resonance 9-1. The Resonance Phenomina Elements Response Parameters (fo, fl, fh, ï�„f, Q) 9-2. Series Resonance passive Midrange speaker crossover network Power supply decoupling ? revisited Series tuned rf amplifier RF amplifier connections ? revisited 9-3. Parallel Resonance passive ? high Q passive ? low Q Parallel tuned rf amplifer Colpitts oscillator Power factor corrected motor (a teaser) Fourier Analysis 10. Nonsinusoidal Waveforms 10-1. Fourier Series 10-2. Rectangular Waves 10-3. Triangle Waves 10-4. Exponential Waves 10-5. Rectified Sine Waves 10-6. White and Pink Noise 10-7. Effects of Shifting DC Level 10-8. Effects of Shifting Phase 11. Harmonic and Reconstruction and Extraction by Superposition 11-1. Reconstruction Power line third harmonic distortion Graphical calculator ExcelTM MatLabTM Simulation 11-2. Extraction Fast Fourier Transform ExcelTM MatLabTM Simulation Digital Oscilloscopes and Spectrum Analyzers 12. Superposition Analysis of Circuit Response to Nonsinusoidal Waveforms Passive low pass filter removes digital noise from a signal Phase locked loop filter Sine wave from digital wave generator Op amp integrator ? triangle wave generator revisited Pulse width modulated rectangular wave driving a motor (effects of inductive load on a switching waveform) Passive coupler effect on square waves Op amp differentiator Audio system impulse test Advanced Analysis Techniques 13. Series-Parallel Analysis by Impedance Combination Loaded first order filter, low pass and high pass Higher order low pass and high passiveT and ï�° filters Power factor correction (second pass) Electrical power distribution 14. Thevenin's and Norton's Theorems Loaded first order filter, low pass and high pass Higher order low pass and high passive filters Frequency compensated op amp model The Miller effect in an rf amplifier 15. Mesh and Nodal Analysis 15-1. Mesh Analysis Kirchhoff's Voltage Law Format Higher order passive filters Impedance bridges for proximity detection Dependent voltage Sources Frequency compensated op amp model Sallen-Key active filter 15-2. Nodal Analysis Kirchhoff's Current Law Format Dependent Current Sources Transistor double tuned amplifier Power Systems 16. Single Phase AC Power 16-1. Definitio

SynopsisFrom the moment they open Advanced AC Electronics: Principles and Applications, readers will become actively involved in learning how to apply AC circuit techniques to electronics circuits that are interesting and actually do something useful Rather than presenting AC electronics as a series of seemingly magical rules and incantations, this book integrates AC circuit theory tools with electronics, interweaves topics as needed, and introduces the use of circuit analysis tools on a just-in-time basis to support development of electronics circuits. It engages readers in applying circuit theory to a wide variety of passive and active electronics that respond to a sinusoidal signal with both a change in magnitude and a shift in the sine wave's phase. Immediately upon introduction, each technique is applied to a host of examples, including: commercial electrical power production and distribution, industrial motor performance and control, audio systems, instrumentation, radio frequency, and communications circuits. Motors, rf and audio cables, loudspeakers, thyristors, transition and op amp amplifiers are also introduced early on, capturing attention while guiding readers in their examination of real-world responses to sinusoids. Level and rigor make Advanced AC Electronics an ideal choice for programs accredited by the Accreditation Board for Engineering and Technology (ABET)., From the moment they open Advanced AC Electronics: Principles and Applications, readers will become actively involved in learning how to apply AC circuit techniques to electronics circuits that are interesting and actually do something useful! Rather than presenting AC electronics as a series of seemingly magical rules and incantations, this book integrates AC circuit theory tools with electronics, interweaves topics as needed, and introduces the use of circuit analysis tools on a just-in-time basis to support development of electronics circuits. It engages readers in applying circuit theory to a wide variety of passive and active electronics that respond to a sinusoidal signal with both a change in magnitude and a shift in the sine wave's phase. Immediately upon introduction, each technique is applied to a host of examples, including: commercial electrical power production and distribution, industrial motor performance and control, audio systems, instrumentation, radio frequency, and communications circuits. Motors, rf and audio cables, loudspeakers, thyristors, transition and op amp amplifiers are also introduced early on, capturing attention while guiding readers in their examination of real-world responses to sinusoids. Level and rigor make Advanced AC Electronics an ideal choice for programs accredited by the Accreditation Board for Engineering and Technology (ABET).

LC Classification NumberTK454.15.A48J33 2003