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by Clayton R. Paul
Analysis of Multiconductor Transmission Lines, 2nd Edition
Cover Page
Title Page
Copyright
Dedication
Contents
PREFACE
1: INTRODUCTION
1.1 EXAMPLES OF MULTICONDUCTOR TRANSMISSION-LINE STRUCTURES
1.2 PROPERTIES OF THE TEM MODE OF PROPAGATION
1.3 THE TRANSMISSION-LINE EQUATIONS: A PREVIEW
1.4 CLASSIFICATION OF TRANSMISSION LINES
1.5 RESTRICTIONS ON THE APPLICABILITY OF THE TRANSMISSION-LINE EQUATION FORMULATION
1.6 THE TIME DOMAIN VERSUS THE FREQUENCY DOMAIN
PROBLEMS
REFERENCES
2: THE TRANSMISSION-LINE EQUATIONS FOR TWO-CONDUCTOR LINES
2.1 DERIVATION OF THE TRANSMISSION-LINE EQUATIONS FROM THE INTEGRAL FORM OF MAXWELL'S EQUATIONS
2.2 DERIVATION OF THE TRANSMISSION-LINE EQUATIONS FROM THE PER-UNIT-LENGTH EQUIVALENT CIRCUIT
2.3 PROPERTIES OF THE PER-UNIT-LENGTH PARAMETERS
2.4 INCORPORATING FREQUENCY-DEPENDENT LOSSES
PROBLEMS
REFERENCES
3: THE TRANSMISSION-LINE EQUATIONS FOR MULTICONDUCTOR LINES
3.1 DERIVATION OF THE MULTICONDUCTOR TRANSMISSION-LINE EQUATIONS FROM THE INTEGRAL FORM OF MAXWELL'S EQUATIONS
3.2 DERIVATION OF THE MULTICONDUCTOR TRANSMISSION-LINE EQUATIONS FROM THE PER-UNIT-LENGTH EQUIVALENT CIRCUIT
3.3 SUMMARY OF THE MTL EQUATIONS
3.4 INCORPORATING FREQUENCY-DEPENDENT LOSSES
3.5 PROPERTIES OF THE PER-UNIT-LENGTH PARAMETER MATRICES L, C, G
PROBLEMS
REFERENCES
4: THE PER-UNIT-LENGTH PARAMETERS FOR TWO-CONDUCTOR LINES
4.1 DEFINITIONS OF THE PER-UNIT-LENGTH PARAMETERS l, c , AND g
4.2 LINES HAVING CONDUCTORS OF CIRCULAR, CYLINDRICAL CROSS SECTION (WIRES)
4.3 LINES HAVING CONDUCTORS OF RECTANGULAR CROSS SECTION (PCB LANDS)
PROBLEMS
REFERENCES
5: THE PER-UNIT-LENGTH PARAMETERS FOR MULTICONDUCTOR LINES
5.1 DEFINITIONS OF THE PER-UNIT-LENGTH PARAMETER MATRICES L, C, AND G
5.2 MULTICONDUCTOR LINES HAVING CONDUCTORS OF CIRCULAR, CYLINDRICAL CROSS SECTION (WIRES)
5.3 MULTICONDUCTOR LINES HAVING CONDUCTORS OF RECTANGULAR CROSS SECTION
5.4 FINITE DIFFERENCE TECHNIQUES
5.5 FINITE-ELEMENT TECHNIQUES
PROBLEMS
REFERENCES
6: FREQUENCY-DOMAIN ANALYSIS OF TWO-CONDUCTOR LINES
6.1 THE TRANSMISSION-LINE EQUATIONS IN THE FREQUENCY DOMAIN
6.2 THE GENERAL SOLUTION FOR LOSSLESS LINES
6.3 THE GENERAL SOLUTION FOR LOSSY LINES
6.4 LUMPED-CIRCUIT APPROXIMATE MODELS OF THE LINE
6.5 ALTERNATIVE TWO-PORT REPRESENTATIONS OF THE LINE
PROBLEMS
7: FREQUENCY-DOMAIN ANALYSIS OF MULTICONDUCTOR LINES
7.1 THE MTL TRANSMISSION-LINE EQUATIONS IN THE FREQUENCY DOMAIN
7.2 THE GENERAL SOLUTION FOR AN ( n + 1)-CONDUCTOR LINE
7.3 INCORPORATING THE TERMINAL CONDITIONS
7.4 LUMPED-CIRCUIT APPROXIMATE CHARACTERIZATIONS
7.5 ALTERNATIVE 2n-PORT CHARACTERIZATIONS
7.6 POWER FLOW AND THE REFLECTION COEFFICIENT MATRIX
7.7 COMPUTED AND EXPERIMENTAL RESULTS
PROBLEMS
REFERENCES
8: TIME-DOMAIN ANALYSIS OF TWO-CONDUCTOR LINES
8.1 THE SOLUTION FOR LOSSLESS LINES
8.2 INCORPORATION OF LOSSES
PROBLEMS
REFERENCES
9: TIME-DOMAIN ANALYSIS OF MULTICONDUCTOR LINES
9.1 THE SOLUTION FOR LOSSLESS LINES
9.2 INCORPORATION OF LOSSES
9.3 COMPUTED AND EXPERIMENTAL RESULTS
PROBLEMS
REFERENCES
10: LITERAL (SYMBOLIC) SOLUTIONS FOR THREE-CONDUCTOR LINES
10.1 THE LITERAL FREQUENCY-DOMAIN SOLUTION FOR A HOMOGENEOUS MEDIUM
10.2 THE LITERAL TIME-DOMAIN SOLUTION FOR A HOMOGENEOUS MEDIUM
10.3 COMPUTED AND EXPERIMENTAL RESULTS
PROBLEMS
REFERENCES
11: INCIDENT FIELD EXCITATION OF TWO-CONDUCTOR LINES
11.1 DERIVATION OF THE TRANSMISSION-LINE EQUATIONS FOR INCIDENT FIELD EXCITATION
11.2 THE FREQUENCY-DOMAIN SOLUTION
11.3 THE TIME-DOMAIN SOLUTION
PROBLEMS
REFERENCES
12: INCIDENT FIELD EXCITATION OF MULTICONDUCTOR LINES
12.1 DERIVATION OF THE MTL EQUATIONS FOR INCIDENT FIELD EXCITATION
12.2 FREQUENCY-DOMAIN SOLUTIONS
12.3 THE TIME-DOMAIN SOLUTION
12.4 COMPUTED RESULTS
PROBLEMS
REFERENCES
13: TRANSMISSION-LINE NETWORKS
13.1 REPRESENTATION OF LOSSLESS LINES WITH THE SPICE MODEL
13.2 REPRESENTATION WITH LUMPED-CIRCUIT APPROXIMATE MODELS
13.3 REPRESENTATION VIA THE ADMITTANCE OR IMPEDANCE 2n-PORT PARAMETERS
13.4 REPRESENTATION WITH THE BLT EQUATIONS
13.5 DIRECT TIME-DOMAIN SOLUTIONS IN TERMS OF TRAVELING WAVES
13.6 A SUMMARY OF METHODS FOR ANALYZING MULTICONDUCTOR TRANSMISSION LINES
PROBLEMS
REFERENCES
PUBLICATIONS BY THE AUTHOR CONCERNING TRANSMISSION LINES
A. BOOKS
B. GENERAL
C. PER-UNIT-LENGTH PARAMETERS
D. CABLE HARNESSES
E. RIBBON CABLES
F. SHIELDED WIRES
G. TWISTED PAIRS OF WIRES
H. EFFECTS OF INCIDENT FIELDS
I. PRINTED CIRCUIT BOARDS
J. POWER TRANSMISSION LINES
APPENDIX A: DESCRIPTION OF COMPUTER SOFTWARE
A.1 PROGRAMS FOR THE CALCULATION OF THE PER-UNIT-LENGTH PARAMETERS
A.2 FREQUENCY-DOMAIN ANALYSIS
A.3 TIME-DOMAIN ANALYSIS
A.4 SPICE/PSPICE SUBCIRCUIT GENERATION PROGRAMS
A.5 INCIDENT FIELD EXCITATION
REFERENCES
APPENDIX B: A SPICE (PSPICE) TUTORIAL
B.1 CREATING THE SPICE OR PSPICE PROGRAM
B.2 CIRCUIT DESCRIPTION
B.3 EXECUTION STATEMENTS
B.4 OUTPUT STATEMENTS
B.5 EXAMPLES
B.6 THE SUBCIRCUIT MODEL
REFERENCES
INDEX
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