Verfügbarkeit: Analysis of multiconductor transmission lines

Analysis of multiconductor transmission lines:

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Bibliographische Detailangaben
1. Verfasser:	Paul, Clayton R. 1941- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Hoboken, NJ Wiley [u.a.] 2008
Ausgabe:	2. ed.
Schriftenreihe:	Wiley-Interscience
Schlagworte:	Mehrfachleitung Nebensprechen Leitungstheorie
Online-Zugang:	Inhaltsverzeichnis Beschreibung für Leser Inhaltsverzeichnis
Beschreibung:	XXI, 780 S. graph. Darst.
ISBN:	9780470131541

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Datensatz im Suchindex

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adam_text	ANALYSIS OF MULTICONDUCTOR TRANSMISSION LINES SECOND EDITION CLAYTON R. PAUL PROFESSOR OF ELECTRICAL AND COMPUTER ENGINEERING MERCER UNIVERSITY MACON, GA 31207 AND EMERITUS PROFESSOR OF ELECTRICAL ENGINEERING UNIVERSITY OF KENTUCKY LEXINGTON, KY 40506 IEEE IEEE PRESS BICENTENNIAL J \|I ID ; 1 8 O 7 JJ RWILEYS UE 2 O O 7 ; FFIL I» * * BICENTENNIAL WILEY-INTERSCIENCE A JOHN WILEY & SONS, INC., PUBLICATION CONTENTS PREFACE XVII 1 INTRODUCTION 1 1.1 EXAMPLES OF MULTICONDUCTOR TRANSMISSION-LINE STRUCTURES 5 1.2 PROPERTIES OF THE TEM MODE OF PROPAGATION 8 1.3 THE TRANSMISSION-LINE EQUATIONS: A PREVIEW 18 1.3.1 UNIQUE DEFINITION OF VOLTAGE AND CURRENT FOR THE TEM MODE OF PROPAGATION 19 1.3.2 DEFINING THE PER-UNIT-LENGTH PARAMETERS 22 1.3.3 OBTAINING THE TRANSMISSION-LINE EQUATIONS FROM THE TRANSVERSE ELECTROMAGNETIC FIELD EQUATIONS 28 1.3.4 PROPERTIES OF THE PER-UNIT-LENGTH PARAMETERS 30 1.4 CLASSIFICATION OF TRANSMISSION LINES 32 1.4.1 UNIFORM VERSUS NONUNIFORM LINES 33 1.4.2 HOMOGENEOUS VERSUS INHOMOGENEOUS SURROUNDING MEDIA 35 1.4.3 LOSSLESS VERSUS LOSSY LINES 36 1.5 RESTRICTIONS ON THE APPLICABILITY OF THE TRANSMISSION-LINE EQUATION FORMULATION 37 1.5.1 HIGHER ORDER MODES 38 1.5.1.1 THE INFINITE, PARALLEL-PLATE TRANSMISSION LINE 38 VUEI CONTENTS 1.5.1.2 THE COAXIAL TRANSMISSION LINE 43 1.5.1.3 TWO-WIRE LINES 44 1.5.2 TRANSMISSION-LINE CURRENTS VERSUS ANTENNA CURRENTS 45 1.6 THE TIME DOMAIN VERSUS THE FREQUENCY DOMAIN 47 1.6.1 THE FOURIER SERIES AND TRANSFORM 50 1.6.2 SPECTRA AND BANDWIDTH OF DIGITAL WAVEFORMS 52 1.6.3 COMPUTING THE TIME-DOMAIN RESPONSE OF TRANSMISSION LINES HAVING LINEAR TERMINATIONS USING FOURIER METHODS AND SUPERPOSITION 56 PROBLEMS 61 REFERENCES 69 2 THE TRANSMISSION-LINE EQUATIONS FOR TWO-CONDUCTOR LINES 71 2.1 DERIVATION OF THE TRANSMISSION-LINE EQUATIONS FROM THE INTEGRAL FORM OF MAXWELL S EQUATIONS 71 2.2 DERIVATION OF THE TRANSMISSION-LINE EQUATIONS FROM THE PER-UNIT-LENGTH EQUIVALENT CIRCUIT 77 2.3 PROPERTIES OF THE PER-UNIT-LENGTH PARAMETERS 78 2.4 INCORPORATING FREQUENCY-DEPENDENT LOSSES 79 2.4.1 PROPERTIES OF THE FREQUENCY-DOMAIN PER-UNIT-LENGTH IMPEDANCE Z(A ) AND ADMITTANCE Y(A ) 81 PROBLEMS 85 REFERENCES 88 3 THE TRANSMISSION-LINE EQUATIONS FOR MULTICONDUCTOR LINES 89 3.1 DERIVATION OF THE MULTICONDUCTOR TRANSMISSION-LINE EQUATIONS FROM THE INTEGRAL FORM OF MAXWELL S EQUATIONS 89 3.2 DERIVATION OF THE MULTICONDUCTOR TRANSMISSION-LINE EQUATIONS FROM THE PER-UNIT-LENGTH EQUIVALENT CIRCUIT 99 3.3 SUMMARY OF THE MTL EQUATIONS 101 3.4 INCORPORATING FREQUENCY-DEPENDENT LOSSES 102 3.5 PROPERTIES OF THE PER-UNIT-LENGTH PARAMETER MATRICES L, C, G 103 PROBLEMS 108 REFERENCES 109 4 THE PER-UNIT-LENGTH PARAMETERS FOR TWO-CONDUCTOR LINES 110 4.1 DEFINITIONS OF THE PER-UNIT-LENGTH PARAMETERS /, C, AND G 111 CONTENTS IX 4.2 LINES HAVING CONDUCTORS OF CIRCULAR, CYLINDRICAL CROSS SECTION (WIRES) 113 4.2.1 FUNDAMENTAL SUBPROBLEMS FOR WIRES 113 4.2.1.1 THE METHOD OF IMAGES 118 4.2.2 PER-UNIT-LENGTH INDUCTANCE AND CAPACITANCE FOR WIRE-TYPE LINES 119 4.2.3 PER-UNIT-LENGTH CONDUCTANCE AND RESISTANCE FOR WIRE-TYPE LINES 130 4.3 LINES HAVING CONDUCTORS OF RECTANGULAR CROSS SECTION (PCB LANDS) 144 4.3.1 PER-UNIT-LENGTH INDUCTANCE AND CAPACITANCE FOR PCB-TYPE LINES 145 4.3.2 PER-UNIT-LENGTH CONDUCTANCE AND RESISTANCE FOR PCB-TYPE LINES 148 PROBLEMS 156 REFERENCES 158 5 THE PER-UNIT-LENGTH PARAMETERS FOR MULTICONDUCTOR LINES 160 5.1 DEFINITIONS OF THE PER-UNIT-LENGTH PARAMETER MATRICES L, C, ANDG 161 5.1.1 THE GENERALIZED CAPACITANCE MATRIX 4, 167 5.2 MULTICONDUCTOR LINES HAVING CONDUCTORS OF CIRCULAR, CYLINDRICAL CROSS SECTION (WIRES) 171 5.2.1 WIDE-SEPARATION APPROXIMATIONS FOR WIRES IN HOMOGENEOUS MEDIA 171 5.2.1.1 N + 1 WIRES 173 5.2.1.2 N WIRES ABOVE AN INFINITE, PERFECTLY CONDUCTING PLANE 173 5.2.1.3 N WIRES WITHIN A PERFECTLY CONDUCTING CYLINDRICAL SHIELD 174 5.2.2 NUMERICAL METHODS FOR THE GENERAL CASE 176 5.2.2.1 APPLICATIONS TO INHOMOGENEOUS DIELECTRIC MEDIA 181 5.2.3 COMPUTED RESULTS: RIBBON CABLES 187 5.3 MULTICONDUCTOR LINES HAVING CONDUCTORS OF RECTANGULAR CROSS SECTION 189 5.3.1 METHOD OF MOMENTS (MOM) TECHNIQUES 190 5.3.1.1 APPLICATIONS TO PRINTED CIRCUIT BOARDS 199 5.3.1.2 APPLICATIONS TO COUPLED MICROSTRIP LINES 211 5.3.1.3 APPLICATIONS TO COUPLED STRIPLINES 219 X CONTENTS 5.4 FINITE DIFFERENCE TECHNIQUES 223 5.5 FINITE-ELEMENT TECHNIQUES 229 PROBLEMS 237 REFERENCES 239 6 FREQUENCY-DOMAIN ANALYSIS OF TWO-CONDUCTOR LINES 240 6.1 THE TRANSMISSION-LINE EQUATIONS IN THE FREQUENCY DOMAIN 241 6.2 THE GENERAL SOLUTION FOR LOSSLESS LINES 242 6.2.1 THE REFLECTION COEFFICIENT AND INPUT IMPEDANCE 244 6.2.2 SOLUTIONS FOR THE TERMINAL VOLTAGES AND CURRENTS 247 6.2.3 THE SPICE (PSPICE) SOLUTION FOR LOSSLESS LINES 250 6.2.4 VOLTAGE AND CURRENT AS A FUNCTION OF POSITION ON THE LINE 252 6.2.5 MATCHING AND VSWR 255 6.2.6 POWER FLOW ON A LOSSLESS LINE 256 6.3 THE GENERAL SOLUTION FOR LOSSY LINES 258 6.3.1 THE LOW-LOSS APPROXIMATION 260 6.4 LUMPED-CIRCUIT APPROXIMATE MODELS OF THE LINE 265 6.5 ALTERNATIVE TWO-PORT REPRESENTATIONS OF THE LINE 269 6.5.1 THE CHAIN PARAMETERS 270 6.5.2 APPROXIMATING ABRUPTLY NONUNIFORM LINES WITH THE CHAIN-PARAMETER MATRIX 273 6.5.3 THE Z AND Y PARAMETERS 275 PROBLEMS 278 7 FREQUENCY-DOMAIN ANALYSIS OF MULTICONDUCTOR LINES 282 7.1 THE MTL TRANSMISSION-LINE EQUATIONS IN THE FREQUENCY DOMAIN 282 7.2 THE GENERAL SOLUTION FOR AN (N + L)-CONDUCTOR LINE 284 7.2.1 DECOUPLING THE MTL EQUATIONS BY SIMILARITY TRANSFORMATIONS 284 7.2.2 SOLUTION FOR LINE CATEGORIES 291 7.2.2.1 PERFECT CONDUCTORS IN LOSSY, HOMOGENEOUS MEDIA 292 7.2.2.2 LOSSY CONDUCTORS IN LOSSY, HOMOGENEOUS MEDIA 293 7.2.2.3 PERFECT CONDUCTORS IN LOSSLESS, INHOMOGENEOUS MEDIA 296 7.2.2.4 THE GENERAL CASE: LOSSY CONDUCTORS IN LOSSY, INHOMOGENEOUS MEDIA 298 7.2.2.5 CYCLIC-SYMMETRIC STRUCTURES 298 CONTENTS XI 7.3 INCORPORATING THE TERMINAL CONDITIONS 305 7.3.1 THE GENERALIZED THEVENIN EQUIVALENT 305 7.3.2 THE GENERALIZED NORTON EQUIVALENT 308 7.3.3 MIXED REPRESENTATIONS 310 7.4 LUMPED-CIRCUIT APPROXIMATE CHARACTERIZATIONS 312 7.5 ALTERNATIVE 2-PORT CHARACTERIZATIONS 314 7.5.1 ANALOGY OF THE FREQUENCY-DOMAIN MTL EQUATIONS TO STATE-VARIABLE EQUATIONS 314 7.5.2 CHARACTERIZING THE LINE AS A 2N-PORT WITH THE CHAIN-PARAMETER MATRIX 316 7.5.3 PROPERTIES OF THE CHAIN-PARAMETER MATRIX 318 7.5.4 APPROXIMATING NONUNIFORM LINES WITH THE CHAIN-PARAMETER MATRIX 322 7.5.5 THE IMPEDANCE AND ADMITTANCE PARAMETER MATRIX CHARACTERIZATIONS 323 7.6 POWER FLOW AND THE REFLECTION COEFFICIENT MATRIX 327 7.7 COMPUTED AND EXPERIMENTAL RESULTS 332 7.7.1 RIBBONCABLES 332 7.7.2 PRINTED CIRCUIT BOARDS 335 PROBLEMS 338 REFERENCES 342 8 TIME-DOMAIN ANALYSIS OF TWO-CONDUCTOR LINES 343 8.1 THE SOLUTION FOR LOSSLESS LINES 344 8.1.1 WAVE TRACING AND THE REFLECTION COEFFICIENTS 346 8.1.2 SERIES SOLUTIONS AND THE DIFFERENCE OPERATOR 356 8.1.3 THE METHOD OF CHARACTERISTICS AND A TWO-PORT MODEL OF THE LINE 361 8.1.4 THE SPICE (PSPICE) SOLUTION FOR LOSSLESS LINES 365 8.1.5 THE LAPLACE TRANSFORM SOLUTION 368 8.1.5.1 LINES WITH CAPACITIVE AND INDUCTIVE LOADS 370 8.1.6 LUMPED-CIRCUIT APPROXIMATE MODELS OF THE LINE 373 8.1.6.1 WHEN IS THE LINE ELECTRICALLY SHORT IN THE TIME DOMAIN? 374 8.1.7 THE TIME-DOMAIN TO FREQUENCY-DOMAIN (TDFD) TRANSFORMATION METHOD 375 8.1.8 THE FINITE-DIFFERENCE, TIME-DOMAIN (FDTD) METHOD 379 8.1.8.1 THE MAGIC TIME STEP 385 XII CONTENTS 8.1.9 MATCHING FOR SIGNAL INTEGRITY 392 8.1.9.1 WHEN IS MATCHING REQUIRED? 398 8.1.9.2 EFFECTS OF LINE DISCONTINUITIES 399 8.2 INCORPORATION OF LOSSES 406 8.2.1 REPRESENTING FREQUENCY-DEPENDENT LOSSES 408 8.2.1.1 REPRESENTING LOSSES IN THE MEDIUM 408 8.2.1.2 REPRESENTING LOSSES IN THE CONDUCTORS AND SKIN EFFECT 410 8.2.1.3 CONVOLUTION WITH FREQUENCY-DEPENDENT LOSSES 415 8.2.2 THE TIME-DOMAIN TO FREQUENCY-DOMAIN (TDFD) TRANSFORMATION METHOD 421 8.2.3 THE FINITE-DIFFERENCE, TIME-DOMAIN (FDTD) METHOD 423 8.2.3.1 INCLUDING FREQUENCY-INDEPENDENT LOSSES 423 8.2.3.2 INCLUDING FREQUENCY-DEPENDENT LOSSES 427 8.2.3.3 PRONY S METHOD FOR REPRESENTING A FUNCTION 431 8.2.3.4 RECURSIVE CONVOLUTION 434 8.2.3.5 AN EXAMPLE: A HIGH-LOSS LINE 439 8.2.3.6 A CORRECTION FOR THE FDTD ERRORS 443 8.2.4 LUMPED-CIRCUIT APPROXIMATE CHARACTERIZATIONS 447 8.2.5 THE USE OF MACROMODELS IN MODELING THE LINE 450 8.2.6 REPRESENTING FREQUENCY-DEPENDENT FUNCTIONS IN THE TIME DOMAIN USING PADE METHODS 453 PROBLEMS 461 REFERENCES 467 9 TIME-DOMAIN ANALYSIS OF MULTICONDUCTOR LINES 470 9.1 THE SOLUTION FOR LOSSLESS LINES 470 9.1.1 THE RECURSIVE SOLUTION FOR MTLS 471 9.1.2 DECOUPLING THE MTL EQUATIONS 476 9.1.2.1 LOSSLESS LINES IN HOMOGENEOUS MEDIA 478 9.1.2.2 LOSSLESS LINES IN INHOMOGENEOUS MEDIA 479 9.1.2.3 INCORPORATING THE TERMINAL CONDITIONS VIA THE SPICE PROGRAM 482 9.1.3 LUMPED-CIRCUIT APPROXIMATE CHARACTERIZATIONS 487 9.1.4 THE TIME-DOMAIN TO FREQUENCY-DOMAIN (TDFD) TRANSFORMATION METHOD 488 9.1.5 THE FINITE-DIFFERENCE, TIME-DOMAIN (FDTD) METHOD 488 9.1.5.1 INCLUDING DYNAMIC AND/OR NONLINEAR TERMINATIONS IN THE FDTD ANALYSIS 490 9.2 INCORPORATION OF LOSSES 496 9.2.1 THE TIME-DOMAIN TO FREQUENCY-DOMAIN (TDFD) METHOD 498 CONTENTS XLII 9.2.2 LUMPED-CIRCUIT APPROXIMATE CHARACTERIZATIONS 498 9.2.3 THE FINITE-DIFFERENCE, TIME-DOMAIN (FDTD) METHOD 499 9.2.4 REPRESENTATION OF THE LOSSY MTL WITH THE GENERALIZED METHOD OF CHARACTERISTICS 501 9.2.5 MODEL ORDER REDUCTION (MOR) METHODS 512 9.2.5.1 PADE APPROXIMATION OF THE MATRIX EXPONENTIAL 512 9.2.5.2 ASYMPTOTIC WAVEFORM EVALUATION (AWE) 515 9.2.5.3 COMPLEX FREQUENCY FFOPPING (CFH) 518 9.2.5.4 VECTOR FITTING 518 9.3 COMPUTED AND EXPERIMENTAL RESULTS 524 9.3.1 RIBBONCABLES 526 9.3.2 PRINTED CIRCUIT BOARDS 530 PROBLEMS 537 REFERENCES 541 10 LITERAL (SYMBOLIC) SOLUTIONS FOR THREE-CONDUCTOR LINES 544 10.1 THE LITERAL FREQUENCY-DOMAIN SOLUTION FOR A HOMOGENEOUS MEDIUM 548 10.1.1 INDUCTIVE AND CAPACITIVE COUPLING 554 10.1.2 COMMON-IMPEDANCE COUPLING 556 10.2 THE LITERAL TIME-DOMAIN SOLUTION FOR A HOMOGENEOUS MEDIUM 558 10.2.1 EXPLICIT SOLUTION 560 10.2.2 WEAKLY COUPLED LINES 562 10.2.3 INDUCTIVE AND CAPACITIVE COUPLING 564 10.2.4 COMMON-IMPEDANCE COUPLING 567 10.3 COMPUTED AND EXPERIMENTAL RESULTS 567 10.3.1 A THREE-WIRE RIBBON CABLE 568 10.3.2 A THREE-CONDUCTOR PRINTED CIRCUIT BOARD 569 PROBLEMS 575 REFERENCES 576 11 INCIDENT FIELD EXCITATION OF TWO-CONDUCTOR LINES 578 11.1 DERIVATION OF THE TRANSMISSION-LINE EQUATIONS FOR INCIDENT FIELD EXCITATION 578 11.1.1 EQUIVALENCE OF SOURCE REPRESENTATIONS 585 11.2 THE FREQUENCY-DOMAIN SOLUTION 586 11.2.1 SOLUTION OF THE TRANSMISSION-LINE EQUATIONS 586 XIV CONTENTS 11.2.2 SIMPLIFIED FORMS OF THE EXCITATIONS 592 11.2.3 INCORPORATING THE LINE TERMINATIONS 594 11.2.4 UNIFORM PLANE-WAVE EXCITATION OF THE LINE 598 11.2.4.1 SPECIAL CASES 602 11.2.4.2 ONE CONDUCTOR ABOVE A GROUND PLANE 606 11.2.5 COMPARISON WITH PREDICTIONS OF METHOD OF MOMENTS CODES 610 11.3 THE TIME-DOMAIN SOLUTION 611 11.3.1 THE LAPLACE TRANSFORM SOLUTION 611 11.3.2 UNIFORM PLANE-WAVE EXCITATION OF THE LINE 620 11.3.3 A SPICE EQUIVALENT CIRCUIT 625 11.3.4 THE TIME-DOMAIN TO FREQUENCY-DOMAIN (TDFD) TRANSFORMATION 628 11.3.5 THE FINITE-DIFFERENCE, TIME-DOMAIN (FDTD) SOLUTION METHOD 628 11.3.6 COMPUTED RESULTS 635 PROBLEMS 638 REFERENCES 639 12 INCIDENT FIELD EXCITATION OF MULTICONDUCTOR LINES 641 12.1 DERIVATION OF THE MTL EQUATIONS FOR INCIDENT FIELD EXCITATION 642 12.1.1 EQUIVALENCE OF SOURCE REPRESENTATIONS 648 12.2 FREQUENCY-DOMAIN SOLUTIONS 650 12.2.1 SOLUTION OF THE MTL EQUATIONS 651 12.2.2 SIMPLIFIED FORMS OF THE EXCITATIONS 653 12.2.3 INCORPORATING THE LINE TERMINATIONS 655 12.2.3.1 LOSSLESS LINES IN HOMOGENEOUS MEDIA 658 12.2.4 LUMPED-CIRCUIT APPROXIMATE CHARACTERIZATIONS 660 12.2.5 UNIFORM PLANE-WAVE EXCITATION OF THE LINE 660 12.3 THE TIME-DOMAIN SOLUTION 667 12.3.1 DECOUPLING THE MTL EQUATIONS 668 12.3.2 A SPICE EQUIVALENT CIRCUIT 674 12.3.3 LUMPED-CIRCUIT APPROXIMATE CHARACTERIZATIONS 681 12.3.4 THE TIME-DOMAIN TO FREQUENCY-DOMAIN (TDFD) TRANSFORMATION 681 12.3.5 THE FINITE-DIFFERENCE, TIME-DOMAIN (FDTD) SOLUTION METHOD 682 CONTENTS XV 12.4 COMPUTED RESULTS 686 PROBLEMS 691 REFERENCES 692 13 TRANSMISSION-LINE NETWORKS 693 13.1 REPRESENTATION OF LOSSLESS LINES WITH THE SPICE MODEL 696 13.2 REPRESENTATION WITH LUMPED-CIRCUIT APPROXIMATE MODELS 699 13.3 REPRESENTATION VIA THE ADMITTANCE OR IMPEDANCE 2-PORT PARAMETERS 699 13.4 REPRESENTATION WITH THE BLT EQUATIONS 712 13.5 DIRECT TIME-DOMAIN SOLUTIONS IN TERMS OF TRAVELING WAVES 721 13.6 A SUMMARY OF METHODS FOR ANALYZING MULTICONDUCTOR TRANSMISSION LINES 726 PROBLEMS 727 REFERENCES 728 PUBLICATIONS BY THE AUTHOR CONCERNING TRANSMISSION LINES 729 APPENDIX A. DESCRIPTION OF COMPUTER SOFTWARE 736 A.L PROGRAMS FOR THE CALCULATION OF THE PER-UNIT-LENGTH PARAMETERS 738 A. 1.1 WIDE-SEPARATION APPROXIMATIONS FOR WIRES: WIDESEP . FOR 738 A.L.2 RIBBON CABLES: RIBBON.FOR 740 A. 1.3 PRINTED CIRCUIT BOARDS: PCB . FOR 743 A. 1.4 COUPLED MICROSTRIP STRUCTURES: MSTRP . FOR 745 A. 1.5 COUPLED STRIPLINE STRUCTURES: STRPLINE . FOR 746 A.2 FREQUENCY-DOMAIN ANALYSIS 747 A.2.1 GENERAL: MTL.FOR 747 A.3 TIME-DOMAIN ANALYSIS 748 A.3.1 TIME-DOMAIN TO FREQUENCY-DOMAIN TRANSFORMATION: TIMEFREQ . FOR 748 A.3.2 BRANIN S METHOD EXTENDED TO MULTICONDUCTOR LINES: BRANIN.FOR 748 A.3.3 FINITE DIFFERENCE-TIME DOMAIN METHOD: FINDIF . FOR 749 A.3.4 FINITE-DIFFERENCE-TIME-DOMAIN METHOD: FDTDLOSS.FO R 749 XVI CONTENTS A.4 SPICE/PSPICE SUBCIRCUIT GENERATION PROGRAMS 749 A.4.1 GENERAL SOLUTION, LOSSLESS LINES: SPICEMTL.FOR 750 A.4.2 LUMPED-PI CIRCUIT, LOSSLESS LINES: SPICELPI . FOR 750 A.4.3 INDUCTIVE-CAPACITIVE COUPLING MODEL: SPICELC . FOR 751 A.5 INCIDENT FIELD EXCITATION 752 A.5.1 FREQUENCY-DOMAIN PROGRAM: INCIDENT.FOR 752 A.5.2 SPICE/PSPICE SUBCIRCUIT MODEL: SPICEINC . FOR 753 A.5.3 FINITE-DIFFERENCE, TIME-DOMAIN (FDTD) MODEL: FDTDINC . FOR 754 REFERENCES 755 APPENDIX B. A SPICE (PSPICE) TUTORIAL 756 B. 1 CREATING THE SPICE OR PSPICE PROGRAM 757 B.2 CIRCUIT DESCRIPTION 758 B.3 EXECUTION STATEMENTS 763 B.4 OUTPUT STATEMENTS 765 B.5 EXAMPLES 767 B.6 THE SUBCIRCUIT MODEL 769 REFERENCES 771 INDEX 773
any_adam_object	1
author	Paul, Clayton R. 1941-
author_GND	(DE-588)139330674
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dewey-search	621.319/2
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dewey-tens	620 - Engineering and allied operations
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
edition	2. ed.
format	Book
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id	DE-604.BV023803086
illustrated	Illustrated
indexdate	2024-07-09T21:37:09Z
institution	BVB
isbn	9780470131541
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-017445284
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open_access_boolean
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owner_facet	DE-634 DE-83 DE-Aug4 DE-29T
physical	XXI, 780 S. graph. Darst.
publishDate	2008
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publisher	Wiley [u.a.]
record_format	marc
series2	Wiley-Interscience
spelling	Paul, Clayton R. 1941- Verfasser (DE-588)139330674 aut Analysis of multiconductor transmission lines Clayton R. Paul 2. ed. Hoboken, NJ Wiley [u.a.] 2008 XXI, 780 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wiley-Interscience Mehrfachleitung (DE-588)4271846-6 gnd rswk-swf Nebensprechen (DE-588)4280299-4 gnd rswk-swf Leitungstheorie (DE-588)4132672-6 gnd rswk-swf Mehrfachleitung (DE-588)4271846-6 s Nebensprechen (DE-588)4280299-4 s DE-604 Leitungstheorie (DE-588)4132672-6 s 1\p DE-604 http://catdir.loc.gov/catdir/toc/ecip0714/2007013722.html Inhaltsverzeichnis http://catdir.loc.gov/catdir/enhancements/fy0741/2007013722-d.html Beschreibung für Leser GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017445284&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Paul, Clayton R. 1941- Analysis of multiconductor transmission lines Mehrfachleitung (DE-588)4271846-6 gnd Nebensprechen (DE-588)4280299-4 gnd Leitungstheorie (DE-588)4132672-6 gnd
subject_GND	(DE-588)4271846-6 (DE-588)4280299-4 (DE-588)4132672-6
title	Analysis of multiconductor transmission lines
title_auth	Analysis of multiconductor transmission lines
title_exact_search	Analysis of multiconductor transmission lines
title_full	Analysis of multiconductor transmission lines Clayton R. Paul
title_fullStr	Analysis of multiconductor transmission lines Clayton R. Paul
title_full_unstemmed	Analysis of multiconductor transmission lines Clayton R. Paul
title_short	Analysis of multiconductor transmission lines
title_sort	analysis of multiconductor transmission lines
topic	Mehrfachleitung (DE-588)4271846-6 gnd Nebensprechen (DE-588)4280299-4 gnd Leitungstheorie (DE-588)4132672-6 gnd
topic_facet	Mehrfachleitung Nebensprechen Leitungstheorie
url	http://catdir.loc.gov/catdir/toc/ecip0714/2007013722.html http://catdir.loc.gov/catdir/enhancements/fy0741/2007013722-d.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017445284&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT paulclaytonr analysisofmulticonductortransmissionlines

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