Fast Circuit Boards : Energy Management.

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An essential guide to modern circuit board design based on simple physics and practical applications The fundamentals taught in circuit theory were never intended to work above a few megahertz, let alone at a gigahertz. While electronics is grounded in physics, most engineers' education in this...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Morrison, Ralph
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Newark : John Wiley & Sons, Incorporated, 2017.
Temas:
Very high speed integrated circuits > Design and construction.
Logic design.
Structure logique.
TECHNOLOGY & ENGINEERING > Electronics > Circuits > General.
Logic design
Very high speed integrated circuits > Design and construction
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Title Page; Copyright Page; Contents; Preface; 1 Electric and Magnetic Fields; 1.1 Introduction; 1.2 Electrons and the Force Field; 1.3 The Electric Field and Voltage; 1.4 Electric Field Patterns and Charge Distributions; 1.5 Field Energy; 1.6 Dielectrics; 1.7 Capacitance; 1.8 Capacitors; 1.9 The D or Displacement Field; 1.10 Mutual and Self Capacitance; 1.11 Current Flow in a Capacitance; 1.12 The Magnetic Field; 1.13 The B Field of Induction; 1.14 Inductance; 1.15 Inductors; 1.16 The Inductance of a Solenoid in Air; 1.17 Magnetic Field Energy Stored in Space.
  • 1.18 Mutual Inductance1.19 Transformer Action; 1.20 Poyntingâ#x80;#x99;s Vector; 1.21 Resistors and Resistance; Problem Set; Glossary; Answers to Problems; 2 Transmission Linesâ#x80;#x94;Part 1; 2.1 Introduction; 2.2 The Ideal World; 2.3 Transmission Line Representations; 2.4 Characteristic Impedance; 2.5 Waves and Wave Velocity; 2.6 The Balance of Field Energies; 2.7 A Few Comments on Transmission Lines; 2.8 The Propagation of a Wave on a Transmission Line; 2.9 Initial Wave Action; 2.10 Reflections and Transmissions at Impedance Transitions; 2.11 The Unterminated (Open) Transmission Line.
  • 2.12 The Short-Circuited Transmission Line2.13 Voltage Doubling and Rise Time; 2.14 Matched Shunt Terminated Transmission Lines; 2.15 Matched Series Terminated Transmission Lines; 2.16 Extending a Transmission Line; 2.17 Skin Effect; Problem Set; Glossary; Answers to Problems; 3 Transmission Linesâ#x80;#x94;Part 2; 3.1 Introduction; 3.2 Energy Sources; 3.3 The Ground Plane/Power Plane as an Energy Source; 3.4 What Is a Capacitor?; 3.5 Turning Corners; 3.6 Practical Transmissions; 3.7 Radiation and Transmission Lines; 3.8 Multilayer Circuit Boards; 3.9 Vias; 3.10 Layer Crossings.
  • 3.11 Vias and Stripline3.12 Stripline and the Power Plane; 3.13 Stubs; 3.14 Traces and Ground (Power) Plane Breaks; 3.15 Characteristic Impedance of Traces; 3.16 Microstrip; 3.17 Centered Stripline; 3.18 Asymmetric Stripline; 3.19 Two-Layer Boards; 3.20 Sine Waves on Transmission Lines; 3.21 Shielded Cables; 3.22 Coax; 3.23 Transfer Impedance; 3.24 Waveguides; 3.25 Balanced Lines; 3.26 Circuit Board Materials; Problem Set; Glossary; Answers to Problems; 4 Interference; 4.1 Introduction; 4.2 Radiationâ#x80;#x94;General Comments; 4.3 The Impedance of Space.
  • 4.4 Field Coupling to Open Parallel Conductors (Sine Waves)4.5 Cross-Coupling; 4.6 Shieldingâ#x80;#x94;General Comments; 4.7 Even-Mode Rejection; 4.8 Groundâ#x80;#x94;A General Discussion; 4.9 Grounds on Circuit Boards; 4.10 Equipment Ground; 4.11 Guard Shields; 4.12 Forward Referencing Amplifiers; 4.13 A/D Converters; 4.14 Utility Transformers and Interference; 4.15 Shielding of Distribution Power Transformers; 4.16 Electrostatic Discharge; 4.17 Aliasing Errors; Glossary; 5 Radiation; 5.1 Introduction; 5.2 Standing Wave Ratio; 5.3 The Transmission Coefficient Ï#x84;; 5.4 The Smith Chart.

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