Verfügbarkeit: Practical microstrip design and applications

Practical microstrip design and applications:

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Bibliographische Detailangaben
1. Verfasser:	Kompa, Günter (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boston [u.a.] Artech House 2005
Schriftenreihe:	Artech House microwave library
Schlagworte:	Circuits intégrés pour micro-ondes Lignes à bandes Microwave integrated circuits Strip transmission lines Mikrowellenstreifenleitung Integrierte Mikrowellenschaltung
Online-Zugang:	lizenzfrei Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XVI, 523 S. graph. Darst. 23 cm
ISBN:	1580539807

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adam_text	PRACTICAL MICROSTRIP DESIGN AND APPLICATIONS GUENTER KOMPA ARTECH H O US E BOSTON\|LONDON ARTECHHOUSE.COM CONTENTS PREFACE XIII CHAPTER 1 INTRODUCTION 1 1.1 SYSTEMATICS OF MICROWAVE INTEGRATED CIRCUITS 5 1.2 CIRCUIT DESIGN METHODS 7 1.2.1 EMPIRICAL DESIGN 7 1.2.2 MODERN COMPUTER AIDED DESIGN 9 REFERENCES 13 CHAPTER 2 OVERVIEW OF STRIP TRANSMISSION LINES 15 2.1 MICROSTRIP LINE 19 2.2 SHIELDED MICROSTRIP LINE 25 2.3 TRIPLATE 26 2.4 SUSPENDED STRIPLINE 26 2.5 SANDWICH LINE 27 2.6 SLOT LINE 28 2.7 COPLANAR LINE 30 2.8 COUPLED MICROSTRIP LINE 34 2.9 ANTIPODAL SLOT LINE 36 2.10 FINLINE 38 REFERENCES 40 CHAPTER 3 METHODS OF MICROSTRIP ANALYSIS 43 3.1 CONFORMAL TRANSFORMATION METHOD AFTER WHEELER 47 3.1.1 AIR-FILLED MICROSTRIP LINE 48 3.1.2 MAPPING OF THE MICROSTRIP CONDUCTOR BOUNDARIES INTO A PARALLEL PLATE STRUCTURE 50 3.1.3 DIELECTRIC-FILLED MICROSTRIP LINE 5 7 3.1.4 EFFECT OF STRIP THICKNESS 69 3.1.5 MICROSTRIP INDUCTANCE PER UNIT LENGTH 72 3.2 THEORY AFTER SCHNEIDER 75 3.2.1 SINGLE-DIELECTRIC MICROSTRIP LINE 75 3.2.2 EFFECTIVE DIELECTRIC CONSTANT 85 3.2.3 ANALYSIS AND SYNTHESIS EQUATIONS AFTER WHEELER 86 3.3 IMPEDANCE DESIGN FORMULAS AFTER HAMMERSTAD 87 3.4 FUELL-WAVE ANALYSIS 91 3.4.1 MODES OF INHOMOGENEOUS PARALLEL PLATE STRUCTURE 91 VN VIUE PRACTICAL MICROSTRIP DESIGN AND APPLICATIONS 3.4.2 SURFACE WAVES ON DIELECTRIC PLATE 96 3.4.3 SHIELDED MICROSTRIP TRANSMISSION LINE LATERALLY OPEN 107 3.5 COMPARISON OF DISCUSSED ANALYSIS METHODS 119 REFERENCES 119 CHAPTER 4 DISPERSION ON MICROSTRIP LINE 123 4.1 FREQUENCY-DEPENDENT EFFECTIVE DIELECTRIC CONSTANT 125 4.2 FREQUENCY-DEPENDENT CHARACTERISTIC IMPEDANCE 132 4.3 MEASUREMENT OF DISPERSION 138 4.3.1 SLIDING LOAD METHOD 142 4.3.2 RESONANCE METHOD 147 4.3.3 DISPERSION MEASUREMENTS OF HIGHER-ORDER MODES 160 REFERENCES 167 CHAPTER 5 PLANAR WAVEGUIDE MODEL 169 5.1 DEFINITION OF DYNAMIC WAVEGUIDE MODEL 174 REFERENCES 184 CHAPTER 6 MICROSTRIP DISCONTINUITIES, JUNCTIONS, AND ASSOCIATED CIRCUIT ELEMENTS 187 6.1 OPENEND 189 6.1.1 OPEN END CAPACITANCE AND EXCESS LENGTH 191 6.1.2 RADIATION RESISTANCE 194 6.2 STEP 208 6.2.1 QUASI-STATIC EQUIVALENT CIRCUIT 208 6.2.2 FULL-WAVE ANALYSIS USING THE PLANAR WAVEGUIDE MODEL 215 6.2.3 CASCADED STEP DISCONTINUITIES 228 6.2.4 QUARTER-WAVELENGTH TRANSFORMER 230 6.2.5 STEPPED MICROSTRIP TRANSFORMER 234 6.3 T-JUNCTION 236 6.3.1 QUASI-STATIC EQUIVALENT CIRCUIT 237 6.3.2 DYNAMIC EQUIVALENT CIRCUIT 237 6.3.3 COMPENSATED T-JUNCTION 241 6.3.4 SPECIAL STRUCTURES 242 6.4 STUB 243 6.5 BEND 249 6.5.1 RIGHT-ANGLED BEND 249 6.5.2 COMPENSATED BEND 251 6.5.3 CURVED MICROSTRIP BEND 254 6.6 QUASI-LUMPED ELEMENTS 256 6.6.1 SERIES INDUCTANCE 256 6.6.2 SHUNT CAPACITANCE 261 6.7 CIRCULAR DISK RESONATOR 265 CONTENTS IX 6.7.1 RADIAL TRANSMISSION LINE 265 6.7.2 CIRCULAR DISK CAPACITOR 270 6.7.3 MAGNETIC WALL MODEL AFTER WATKINS 272 6.7.4 MAGNETIC WALL MODEL AFTER WOLFF 275 6.8 RADIAL LINE STUB 280 6.8.1 MODEL AFTER VINDING 282 6.8.2 MODEL AFTER GIANNINI 284 6.8.3 MODEL AFTER ATWATER 286 6.8.4 BIASING NETWORK 288 6.9 SERIES GAP 291 6.10 CROSS JUNCTION 293 REFERENCES 296 CHAPTER 7 MICROSTRIP LOSS 301 7.1 CONDUCTOR LOSS 303 7.1.1 SKIN EFFECT 305 7.1.2 INCREMENTAL INDUCTANCE RULE 315 7.2 DIELECTRIC LOSS 324 7.3 CONDUCTOR ROUGHNESS 327 7.4 TOTAL LOSS 327 REFERENCES 328 CHAPTER 8 APPLICATIONS 331 8.1 MICROSTRIP FILTER DESIGN 331 8.1.1 BASICS IN FILTER DESIGN 333 8.1.2 FILTER RESPONSE TYPES 338 8.1.3 DESIGN EXAMPLES 347 8.1.4 FREQUENCY TRANSFORMATIONS 355 8.2 IMPEDANCE MATCHING NETWORKS 357 8.3 COUPLED-LINE DIRECTIONAL COUPLER 362 8.3.1 IMPEDANCE MATRIX OF COUPLED LINES 363 8.3.2 SCATTERING MATRIX OF COUPLED LINES 367 8.3.3 TEM DIRECTIONAL COUPLER 370 8.3.4 QUASI-TEM DIRECTIONAL COUPLER 372 8.3.5 DESIGN EXAMPLE 372 REFERENCES 374 CHAPTER 9 TECHNOLOGY 377 9.1 SUBSTRATE 377 9.1.1 RIGID SUBSTRATES 378 9.1.2 SOFT SUBSTRATES 380 9.1.3 SUBSTRATE HEIGHT 382 9.2 CHIP DEVICES 383 9.2.1 RESISTOR 384 9.2.2 CAPACITOR 385 X PRACTICAL MICROSTRIP DESIGN AND APPLICATIONS 9.3 CIRCUIT FABRICATION 386 9.3.1 HYBRID MICROWAVE CIRCUITS 386 9.3.2 MONOLITHIC MICROWAVE INTEGRATED CIRCUITS 387 9.3.3 QUASI-MONOLITHIC MICROWAVE INTEGRATED CIRCUITS 388 REFERENCES 392 APPENDIX A METHOD OF CONFORMAL TRANSFORMATION 397 A. 1 THEORY OF FUNCTIONS OF A COMPLEX VARIABLE 397 A.L.L APPLICATION TO ELECTROSTATIC PROBLEMS 404 A.2 THE SCHWARZ-CHRISTOFFEL MAPPING THEOREM 409 A.2.1 SCHWARZ-CHRISTOFFEL THEOREM 410 REFERENCES 416 APPENDIX B SMITH CHART 417 B. 1 CONSTRACTION OF THE SMITH CHART 418 B.L.L ANALYSIS OF IM(Z) = CONST. 418 B.1.2 ANALYSIS OF RE(Z) = CONST. 419 B.1.3 ANALYSIS OF \| Z \| = CONST. 420 B.1.4 ANALYSIS OF CONST. 42 1 B.2 SMITH CHART AS A GRAPHIC AID FOR THE SOLUTION OF TRANSMISSION LINE AND NETWORK PROBLEMS 423 B.3 USING THE SMITH CHART 426 B.3.1 SERIES AND PARALLEL COMBINATION OF RESISTANCES, CAPACITANCES, AND INDUCTANCES 427 B.3.2 POWER MATCHING WITH LUMPED ELEMENTS (RESONANCE TRANSFORMATION) 428 B.3.3 MATCHING NETWORK COMPRISING SECTIONS OF TRANSMISSION LINE 429 B.3.4 READING OF VOLTAGE (AND/OR CURRENT) FROM SMITH CHART 433 REFERENCES 434 APPENDIX C PULSE SHAPING WITH COUPLED MICROSTRIP AND SLOT LINE 435 REFERENCES 438 APPENDIX D MODES IN WAVEGUIDING STRUCTURES 439 D.L MAXWELL EQUATIONS 439 D. 1.1 BOUNDARY CONDITIONS 442 D. 1.2 PARTICULAR BOUNDARY CONDITIONS 445 D.2 MODIFIED MAXWELL EQUATIONS FOR SOLVING WAVEGUIDING BOUNDARY PROBLEMS 446 D.2.1 WAVE EQUATION FOR THE LONGITUDINAL FIELD COMPONENTS 449 CONTENTS XI D.2.2 ELECTRIC AND MAGNETIC VECTOR POTENTIALS 456 D.3 LONGITUDINAL SECTION MODES 461 D.3.1 VECTOR POTENTIAL IN X DIRECTION 462 D.3.2 VECTOR POTENTIAL IN Y DIRECTION 462 D.4 CLASSIFICATION OF FIELD MODES IN WAVEGUIDING STRUCTURES 463 D.4.1 TEMMODE 464 D.4.2 E MODES 465 D.4.3 H MODES 465 REFERENCES 468 APPENDIX E DEFINITION OF INSERTION LOSS 469 REFERENCE 470 APPENDIX F TABLE OF QUASI-STATIC LINE PARAMETERS AFTER HAMMERSTAD 471 APPENDIX G CIRCUIT THERORY 477 G. 1 CIRCUIT PARAMETERS INTERRELATING VOLTAGE AND CURRENT 477 G.2 S MATRIX CONCEPT 480 REFERENCES 484 APPENDIX H ORTHOGONAL SERIES EXPANSION METHOD 485 REFERENCE 490 APPENDIX I IMPEDANCE MATRIX OF STEP DISCONTINUITY 491 REFERENCES 495 APPENDIX J COUPLED MICROSTRIP LINES 497 J. 1 QUASI-STATIC COUPLED LINE PARAMETERS 497 J.2 DISPERSIVE COUPLED LINE PARAMETERS 505 REFERENCES 511 ABOUT THE AUTHOR 513 INDEX 515
adam_txt	PRACTICAL MICROSTRIP DESIGN AND APPLICATIONS GUENTER KOMPA ARTECH H O US E BOSTON\|LONDON ARTECHHOUSE.COM CONTENTS PREFACE XIII CHAPTER 1 INTRODUCTION 1 1.1 SYSTEMATICS OF MICROWAVE INTEGRATED CIRCUITS 5 1.2 CIRCUIT DESIGN METHODS 7 1.2.1 EMPIRICAL DESIGN 7 1.2.2 MODERN COMPUTER AIDED DESIGN 9 REFERENCES 13 CHAPTER 2 OVERVIEW OF STRIP TRANSMISSION LINES 15 2.1 MICROSTRIP LINE 19 2.2 SHIELDED MICROSTRIP LINE 25 2.3 TRIPLATE 26 2.4 SUSPENDED STRIPLINE 26 2.5 SANDWICH LINE 27 2.6 SLOT LINE 28 2.7 COPLANAR LINE 30 2.8 COUPLED MICROSTRIP LINE 34 2.9 ANTIPODAL SLOT LINE 36 2.10 FINLINE 38 REFERENCES 40 CHAPTER 3 METHODS OF MICROSTRIP ANALYSIS 43 3.1 CONFORMAL TRANSFORMATION METHOD AFTER WHEELER 47 3.1.1 AIR-FILLED MICROSTRIP LINE 48 3.1.2 MAPPING OF THE MICROSTRIP CONDUCTOR BOUNDARIES INTO A PARALLEL PLATE STRUCTURE 50 3.1.3 DIELECTRIC-FILLED MICROSTRIP LINE 5 7 3.1.4 EFFECT OF STRIP THICKNESS 69 3.1.5 MICROSTRIP INDUCTANCE PER UNIT LENGTH 72 3.2 THEORY AFTER SCHNEIDER 75 3.2.1 SINGLE-DIELECTRIC MICROSTRIP LINE 75 3.2.2 EFFECTIVE DIELECTRIC CONSTANT 85 3.2.3 ANALYSIS AND SYNTHESIS EQUATIONS AFTER WHEELER 86 3.3 IMPEDANCE DESIGN FORMULAS AFTER HAMMERSTAD 87 3.4 FUELL-WAVE ANALYSIS 91 3.4.1 MODES OF INHOMOGENEOUS PARALLEL PLATE STRUCTURE 91 VN VIUE PRACTICAL MICROSTRIP DESIGN AND APPLICATIONS 3.4.2 SURFACE WAVES ON DIELECTRIC PLATE 96 3.4.3 SHIELDED MICROSTRIP TRANSMISSION LINE LATERALLY OPEN 107 3.5 COMPARISON OF DISCUSSED ANALYSIS METHODS 119 REFERENCES 119 CHAPTER 4 DISPERSION ON MICROSTRIP LINE 123 4.1 FREQUENCY-DEPENDENT EFFECTIVE DIELECTRIC CONSTANT 125 4.2 FREQUENCY-DEPENDENT CHARACTERISTIC IMPEDANCE 132 4.3 MEASUREMENT OF DISPERSION 138 4.3.1 SLIDING LOAD METHOD 142 4.3.2 RESONANCE METHOD 147 4.3.3 DISPERSION MEASUREMENTS OF HIGHER-ORDER MODES 160 REFERENCES 167 CHAPTER 5 PLANAR WAVEGUIDE MODEL 169 5.1 DEFINITION OF DYNAMIC WAVEGUIDE MODEL 174 REFERENCES 184 CHAPTER 6 MICROSTRIP DISCONTINUITIES, JUNCTIONS, AND ASSOCIATED CIRCUIT ELEMENTS 187 6.1 OPENEND 189 6.1.1 OPEN END CAPACITANCE AND EXCESS LENGTH 191 6.1.2 RADIATION RESISTANCE 194 6.2 STEP 208 6.2.1 QUASI-STATIC EQUIVALENT CIRCUIT 208 6.2.2 FULL-WAVE ANALYSIS USING THE PLANAR WAVEGUIDE MODEL 215 6.2.3 CASCADED STEP DISCONTINUITIES 228 6.2.4 QUARTER-WAVELENGTH TRANSFORMER 230 6.2.5 STEPPED MICROSTRIP TRANSFORMER 234 6.3 T-JUNCTION 236 6.3.1 QUASI-STATIC EQUIVALENT CIRCUIT 237 6.3.2 DYNAMIC EQUIVALENT CIRCUIT 237 6.3.3 COMPENSATED T-JUNCTION 241 6.3.4 SPECIAL STRUCTURES 242 6.4 STUB 243 6.5 BEND 249 6.5.1 RIGHT-ANGLED BEND 249 6.5.2 COMPENSATED BEND 251 6.5.3 CURVED MICROSTRIP BEND 254 6.6 QUASI-LUMPED ELEMENTS 256 6.6.1 SERIES INDUCTANCE 256 6.6.2 SHUNT CAPACITANCE 261 6.7 CIRCULAR DISK RESONATOR 265 CONTENTS IX 6.7.1 RADIAL TRANSMISSION LINE 265 6.7.2 CIRCULAR DISK CAPACITOR 270 6.7.3 MAGNETIC WALL MODEL AFTER WATKINS 272 6.7.4 MAGNETIC WALL MODEL AFTER WOLFF 275 6.8 RADIAL LINE STUB 280 6.8.1 MODEL AFTER VINDING 282 6.8.2 MODEL AFTER GIANNINI 284 6.8.3 MODEL AFTER ATWATER 286 6.8.4 BIASING NETWORK 288 6.9 SERIES GAP 291 6.10 CROSS JUNCTION 293 REFERENCES 296 CHAPTER 7 MICROSTRIP LOSS 301 7.1 CONDUCTOR LOSS 303 7.1.1 SKIN EFFECT 305 7.1.2 INCREMENTAL INDUCTANCE RULE 315 7.2 DIELECTRIC LOSS 324 7.3 CONDUCTOR ROUGHNESS 327 7.4 TOTAL LOSS 327 REFERENCES 328 CHAPTER 8 APPLICATIONS 331 8.1 MICROSTRIP FILTER DESIGN 331 8.1.1 BASICS IN FILTER DESIGN 333 8.1.2 FILTER RESPONSE TYPES 338 8.1.3 DESIGN EXAMPLES 347 8.1.4 FREQUENCY TRANSFORMATIONS 355 8.2 IMPEDANCE MATCHING NETWORKS 357 8.3 COUPLED-LINE DIRECTIONAL COUPLER 362 8.3.1 IMPEDANCE MATRIX OF COUPLED LINES 363 8.3.2 SCATTERING MATRIX OF COUPLED LINES 367 8.3.3 TEM DIRECTIONAL COUPLER 370 8.3.4 QUASI-TEM DIRECTIONAL COUPLER 372 8.3.5 DESIGN EXAMPLE 372 REFERENCES 374 CHAPTER 9 TECHNOLOGY 377 9.1 SUBSTRATE 377 9.1.1 RIGID SUBSTRATES 378 9.1.2 SOFT SUBSTRATES 380 9.1.3 SUBSTRATE HEIGHT 382 9.2 CHIP DEVICES 383 9.2.1 RESISTOR 384 9.2.2 CAPACITOR 385 X PRACTICAL MICROSTRIP DESIGN AND APPLICATIONS 9.3 CIRCUIT FABRICATION 386 9.3.1 HYBRID MICROWAVE CIRCUITS 386 9.3.2 MONOLITHIC MICROWAVE INTEGRATED CIRCUITS 387 9.3.3 QUASI-MONOLITHIC MICROWAVE INTEGRATED CIRCUITS 388 REFERENCES 392 APPENDIX A METHOD OF CONFORMAL TRANSFORMATION 397 A. 1 THEORY OF FUNCTIONS OF A COMPLEX VARIABLE 397 A.L.L APPLICATION TO ELECTROSTATIC PROBLEMS 404 A.2 THE SCHWARZ-CHRISTOFFEL MAPPING THEOREM 409 A.2.1 SCHWARZ-CHRISTOFFEL THEOREM 410 REFERENCES 416 APPENDIX B SMITH CHART 417 B. 1 CONSTRACTION OF THE SMITH CHART 418 B.L.L ANALYSIS OF IM(Z) = CONST. 418 B.1.2 ANALYSIS OF RE(Z) = CONST. 419 B.1.3 ANALYSIS OF \| Z \| = CONST. 420 B.1.4 ANALYSIS OF CONST. 42 1 B.2 SMITH CHART AS A GRAPHIC AID FOR THE SOLUTION OF TRANSMISSION LINE AND NETWORK PROBLEMS 423 B.3 USING THE SMITH CHART 426 B.3.1 SERIES AND PARALLEL COMBINATION OF RESISTANCES, CAPACITANCES, AND INDUCTANCES 427 B.3.2 POWER MATCHING WITH LUMPED ELEMENTS (RESONANCE TRANSFORMATION) 428 B.3.3 MATCHING NETWORK COMPRISING SECTIONS OF TRANSMISSION LINE 429 B.3.4 READING OF VOLTAGE (AND/OR CURRENT) FROM SMITH CHART 433 REFERENCES 434 APPENDIX C PULSE SHAPING WITH COUPLED MICROSTRIP AND SLOT LINE 435 REFERENCES 438 APPENDIX D MODES IN WAVEGUIDING STRUCTURES 439 D.L MAXWELL EQUATIONS 439 D. 1.1 BOUNDARY CONDITIONS 442 D. 1.2 PARTICULAR BOUNDARY CONDITIONS 445 D.2 MODIFIED MAXWELL EQUATIONS FOR SOLVING WAVEGUIDING BOUNDARY PROBLEMS 446 D.2.1 WAVE EQUATION FOR THE LONGITUDINAL FIELD COMPONENTS 449 CONTENTS XI D.2.2 ELECTRIC AND MAGNETIC VECTOR POTENTIALS 456 D.3 LONGITUDINAL SECTION MODES 461 D.3.1 VECTOR POTENTIAL IN X DIRECTION 462 D.3.2 VECTOR POTENTIAL IN Y DIRECTION 462 D.4 CLASSIFICATION OF FIELD MODES IN WAVEGUIDING STRUCTURES 463 D.4.1 TEMMODE 464 D.4.2 E MODES 465 D.4.3 H MODES 465 REFERENCES 468 APPENDIX E DEFINITION OF INSERTION LOSS 469 REFERENCE 470 APPENDIX F TABLE OF QUASI-STATIC LINE PARAMETERS AFTER HAMMERSTAD 471 APPENDIX G CIRCUIT THERORY 477 G. 1 CIRCUIT PARAMETERS INTERRELATING VOLTAGE AND CURRENT 477 G.2 S MATRIX CONCEPT 480 REFERENCES 484 APPENDIX H ORTHOGONAL SERIES EXPANSION METHOD 485 REFERENCE 490 APPENDIX I IMPEDANCE MATRIX OF STEP DISCONTINUITY 491 REFERENCES 495 APPENDIX J COUPLED MICROSTRIP LINES 497 J. 1 QUASI-STATIC COUPLED LINE PARAMETERS 497 J.2 DISPERSIVE COUPLED LINE PARAMETERS 505 REFERENCES 511 ABOUT THE AUTHOR 513 INDEX 515
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publishDateSearch	2005
publishDateSort	2005
publisher	Artech House
record_format	marc
series2	Artech House microwave library
spelling	Kompa, Günter Verfasser aut Practical microstrip design and applications Günter Kompa Boston [u.a.] Artech House 2005 XVI, 523 S. graph. Darst. 23 cm txt rdacontent n rdamedia nc rdacarrier Artech House microwave library Literaturangaben Circuits intégrés pour micro-ondes Lignes à bandes Microwave integrated circuits Strip transmission lines Mikrowellenstreifenleitung (DE-588)4169897-6 gnd rswk-swf Integrierte Mikrowellenschaltung (DE-588)4161931-6 gnd rswk-swf Mikrowellenstreifenleitung (DE-588)4169897-6 s Integrierte Mikrowellenschaltung (DE-588)4161931-6 s DE-604 http://www.gbv.de/dms/ilmenau/toc/490850871.PDF lizenzfrei Inhaltsverzeichnis GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015619041&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Kompa, Günter Practical microstrip design and applications Circuits intégrés pour micro-ondes Lignes à bandes Microwave integrated circuits Strip transmission lines Mikrowellenstreifenleitung (DE-588)4169897-6 gnd Integrierte Mikrowellenschaltung (DE-588)4161931-6 gnd
subject_GND	(DE-588)4169897-6 (DE-588)4161931-6
title	Practical microstrip design and applications
title_auth	Practical microstrip design and applications
title_exact_search	Practical microstrip design and applications
title_exact_search_txtP	Practical microstrip design and applications
title_full	Practical microstrip design and applications Günter Kompa
title_fullStr	Practical microstrip design and applications Günter Kompa
title_full_unstemmed	Practical microstrip design and applications Günter Kompa
title_short	Practical microstrip design and applications
title_sort	practical microstrip design and applications
topic	Circuits intégrés pour micro-ondes Lignes à bandes Microwave integrated circuits Strip transmission lines Mikrowellenstreifenleitung (DE-588)4169897-6 gnd Integrierte Mikrowellenschaltung (DE-588)4161931-6 gnd
topic_facet	Circuits intégrés pour micro-ondes Lignes à bandes Microwave integrated circuits Strip transmission lines Mikrowellenstreifenleitung Integrierte Mikrowellenschaltung
url	http://www.gbv.de/dms/ilmenau/toc/490850871.PDF http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015619041&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT kompagunter practicalmicrostripdesignandapplications

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