Transmission Lines in Digital and Analog Electronic Systems (ePub)
Signal Integrity and Crosstalk
(Sprache: Englisch)
In the last 30 years there have been dramatic changes in electrical
technology--yet the length of the undergraduate curriculum has
remained four years. Until some ten years ago, the analysis
of transmission lines was a standard topic in the EE and...
technology--yet the length of the undergraduate curriculum has
remained four years. Until some ten years ago, the analysis
of transmission lines was a standard topic in the EE and...
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In the last 30 years there have been dramatic changes in electrical
technology--yet the length of the undergraduate curriculum has
remained four years. Until some ten years ago, the analysis
of transmission lines was a standard topic in the EE and CpE
undergraduate curricula. Today most of the undergraduate
curricula contain a rather brief study of the analysis of
transmission lines in a one-semester junior-level course on
electromagnetics. In some schools, this study of transmission lines
is relegated to a senior technical elective or has disappeared from
the curriculum altogether. This raises a serious problem in
the preparation of EE and CpE undergraduates to be competent in the
modern industrial world. For the reasons mentioned above,
today's undergraduates lack the basic skills to design high-speed
digital and high-frequency analog systems. It does little
good to write sophisticated software if the hardware is unable to
process the instructions. This problem will increase as the
speeds and frequencies of these systems continue to increase
seemingly without bound. This book is meant to repair that
basic deficiency.
technology--yet the length of the undergraduate curriculum has
remained four years. Until some ten years ago, the analysis
of transmission lines was a standard topic in the EE and CpE
undergraduate curricula. Today most of the undergraduate
curricula contain a rather brief study of the analysis of
transmission lines in a one-semester junior-level course on
electromagnetics. In some schools, this study of transmission lines
is relegated to a senior technical elective or has disappeared from
the curriculum altogether. This raises a serious problem in
the preparation of EE and CpE undergraduates to be competent in the
modern industrial world. For the reasons mentioned above,
today's undergraduates lack the basic skills to design high-speed
digital and high-frequency analog systems. It does little
good to write sophisticated software if the hardware is unable to
process the instructions. This problem will increase as the
speeds and frequencies of these systems continue to increase
seemingly without bound. This book is meant to repair that
basic deficiency.
Inhaltsverzeichnis zu „Transmission Lines in Digital and Analog Electronic Systems (ePub)“
Preface. 1 Basic Skills and Concepts Having Application to Transmission Lines. 1.1 Units and Unit Conversion. 1.2 Waves, Time Delay, Phase Shift, Wavelength, and Electrical Dimensions. 1.3 The Time Domain vs. the Frequency Domain. 1.3.1 Spectra of Digital Signals. 1.3.2 Bandwidth of Digital Signals. 1.3.3 Computing the Time-Domain Response of Transmission Lines Having Linear Terminations Using Fourier Methods and Superposition. 1.4 The Basic Transmission Line Problem. 1.4.1 Two-Conductor Transmission Lines and Signal Integrity. 1.4.2 Multiconductor Transmission Lines and Crosstalk. Problems. PART I TWO-CONDUCTOR LINES AND SIGNAL INTEGRITY. 2 Time-Domain Analysis of Two-Conductor Lines. 2.1 The Transverse ElectroMagnetic (TEM) Mode of Propagation and the Transmission-Line Equations. 2.2 The Per-Unit-Length Parameters. 2.2.1 Wire-Type Lines. 2.2.2 Lines of Rectangular Cross Section. 2.3 The General Solutions for the Line Voltage and Current. 2.4 Wave Tracing and Reflection Coefficients. 2.5 The SPICE (PSPICE) Exact Transmission-Line Model. 2.6 Lumped-Circuit Approximate Models of the Line. 2.7 Effects of Reactive Terminations on Terminal Waveforms. 2.7.1 Effect of Capacitive Terminations. 2.7.2 Effect of Inductive Terminations. 2.8 Matching Schemes for Signal Integrity. 2.9 Bandwidth and Signal Integrity: When Does the Line Not Matter? 2.10 Effect of Line Discontinuities. 2.11 Driving Multiple Lines. Problems. 3 Frequency-Domain Analysis of Two-Conductor Lines. 3.1 The Transmission-Line Equations for Sinusoidal, Steady-State Excitation of the Line. 3.2. The General Solution for the Terminal Voltages and Currents. 3.3 The Voltage Reflection Coefficient and Input Impedance to the Line. 3.4 The Solution for the Terminal Voltages nad Currents. 3.5 The SPICE Solution. 3.6 Voltage and Current as a Function of Position on the Line. 3.7 Matching and VSWR. 3.8 Power Flow on the Line. 3.9 Alternative Forms of the Results. 3.10 The Smith Chart. 3.11 Effects of Line Losses. 3.12
... mehr
Lumped-Circuit Approximations for Electrically Short Lines. 3.13 Construction of Microwave Circuit Components Using Transmission Lines. Problems. PART II THREE-CONDUCTOR LINES AND CROSSTALK. 4 The Transmission-Line Equations for Three-Conductor Lines. 4.1 The Transmission-Line Equations for Three-Conductor Lines. 4.2 The Per-Unit-Length Parameters. 4.2.1 Wide-Separation Approximations for Wires. 4.2.2 Numerical Methods. Problems. 5 Solution of the Transmission-Line Equations for Three-Conductor Lossless Lines. 5.1 Decoupling the Transmission-Line Equations with Mode Transformations. 5.2 The SPICE Subcircuit Model. 5.3 Lumped-Circuit Approximate Models of the Line. 5.4 The Inductive-Capacitive Coupling Approximate Model. Problems. 6 Solution of the Transmission-Line Equations for Three-Conductor Lossy Lines. 6.1 The Transmission-Line Equations for Three-Conductor Lossy Lines. 6.2 Characterization of Conductor and Dielectric Losses. 6.2.1 Conductor Losses and Skin Effect. 6.2.2 Dielectric Losses. 6.3 Solution of the Phasor (Frequency-Domain) Transmission-Line Equations for a Three-Conductor Lossy Line. 6.4 Common-Impedance Coupling. 6.5 The Time-Domain to Frequency-Domain (TDFD) Method. Problems. Appendix. A Brief Tutorial on Using PSPICE. Index.
... weniger
Autoren-Porträt von Clayton R. Paul
CLAYTON R. PAUL has been the Sam Nunn Eminent Chair in Aerospace Engineering and a professor in the Department of Electrical & Computer Engineering at Mercer University since 1997. He is an emeritus professor in the Department of Electrical Engineering at the University of Kentucky, where he taught for twenty-seven years.
Bibliographische Angaben
- Autor: Clayton R. Paul
- 2011, 1. Auflage, 312 Seiten, Englisch
- Verlag: John Wiley & Sons
- ISBN-10: 1118058240
- ISBN-13: 9781118058244
- Erscheinungsdatum: 14.01.2011
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- Dateiformat: ePub
- Grösse: 5.20 MB
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Sprache:
Englisch
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