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| Preface | |
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| Basics | |
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| Introduction | |
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| Why the Field Approach is Important | |
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| The Role of Circuit Analysis | |
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| Getting Started | |
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| Voltage and the Electric Field | |
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| Current | |
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| Capacitance | |
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| Mutual and Self-Capacitance | |
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| E Fields Inside Conductors | |
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| The D Field | |
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| Energy Storage in a Capacitor | |
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| The Energy Stored in an Electric Field | |
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| The Magnetic Field | |
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| Rise Time/Fall Time | |
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| Moving Energy into Components | |
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| Faraday's Law | |
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| Self- and Mutual Inductance | |
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| Poynting's Vector | |
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| Fields at DC | |
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| Glossary | |
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| Transmission Lines | |
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| Introduction | |
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| Some Common Assumptions | |
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| Transmission Line Types | |
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| Characteristic Impedance | |
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| Wave Velocity | |
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| Step Waves on a Properly Terminated Line | |
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| The Open Circuited Transmission Line | |
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| The Short Circuited Transmission Line | |
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| Waves that Transition between Lines with Different Characteristic Impedances | |
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| Nonlinear Terminations | |
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| Discharging a Charged Open Transmission Line | |
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| Ground/Power Planes | |
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| The Ground and Power Planes as a Tapered Transmission Line | |
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| Pulling Energy from a Tapered Transmission Line (TTL) | |
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| The Energy Flow Through Cascaded (Series) Transmission Lines | |
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| An Analysis of Cascaded Transmission Lines | |
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| Series (Source) Terminating a Transmission Line | |
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| Parallel (Shunt) Terminations | |
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| Stubs | |
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| Decoupling Capacitor as a Stub | |
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| Transmission Line Networks | |
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| The Network Program | |
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| Measuring Characteristic Impedance | |
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| Glossary | |
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| Radiation and Interference Coupling | |
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| Introduction | |
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| The Nature of Fields in Logic Structures | |
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| Classical Radiation | |
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| Radiation from Step Function Waves | |
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| Common Mode and Normal Mode | |
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| The Radiation Pattern along a Transmission Line | |
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| Notes on Radiation | |
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| The Cross Coupling Process (Cross Talk) | |
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| Magnetic Component of Cross Coupling | |
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| Capacitive Component of Cross Coupling | |
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| Cross Coupling Continued | |
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| Cross Coupling between Parallel Transmission Lines of Equal Length | |
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| Radiation from Board Edges | |
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| Ground Bounce | |
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| Susceptibility | |
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| Glossary | |
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| Energy Management | |
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| Introduction | |
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| The Power Time Constant | |
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| Capacitors | |
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| The Four-Terminal Capacitor or DTL | |
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| Types of DTLs | |
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| Circuit Board Resonances | |
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| Decoupling Capacitors | |
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| The Board Decoupling Problem | |
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| The IC Decoupling Problem | |
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| Comments on Energy Management | |
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| Skin Effect | |
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| Dielectric Losses | |
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| Split Ground/Power Planes | |
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| The Analog/digital Interface Problem | |
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| Power Dissipation | |
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| Traces through Conducting Planes | |
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| Trace Geometries that Reduce Termination Resistor Counts | |
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| The Control of Connecting Spaces | |
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| Another way to look at Energy Flow in Transmission Lines | |
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| Glossary | |
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| Signal Integrity Engineering | |
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| Introduction | |
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| The Envelope of Permitted Logic Levels | |
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| Net Lists | |
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| Noise Budgets | |
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| Logic Level Variation | |
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| Logic and Voltage Drops | |
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| Measuring the Performance of a Net | |
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| The Decoupling Capacitor | |
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| Cross Coupling Problems | |
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| Characteristic Impedance and the Error Budget | |
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| Resistor Networks | |
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| Ferrite Beads | |
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| Grounding in Facilities: A Brief Review | |
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| Grounding as Applied to Electronic Hardware | |
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| Internal Grounding of a Digital Circuit Board | |
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| Power Line Interference | |
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| Electrostatic Discharge | |
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| Glossary | |
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| Circuit Boards | |
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| Introduction | |
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| More about Characteristic Impedance | |
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| Microstrip | |
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| Centered Stripline | |
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| Embedded Microstrip | |
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| Asymmetric Stripline | |
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| Two-Layer Boards | |
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| Four-Layer Circuit Board | |
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| Six-Layer Boards | |
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| Glossary | |
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| Abbreviations and Acronyms | |
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| Bibliography | |
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| Index | |