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Digital Circuit Boards Mach 1 GHz

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ISBN-10: 1118235320

ISBN-13: 9781118235324

Edition: 2012

Authors: Ralph Morrison

List price: $92.50
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This book provides the digital circuit board designer with the tools he needs to lay out digital circuit boards for fast logic. The book treats design in terms of transmission lines. The storage and movement of electrical energy on these lines is considered in detail.
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Book details

List price: $92.50
Copyright year: 2012
Publisher: John Wiley & Sons, Incorporated
Publication date: 5/29/2012
Binding: Hardcover
Pages: 184
Size: 6.00" wide x 9.25" long x 0.75" tall
Weight: 0.924
Language: English

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