Verfügbarkeit: Digital filter design solutions

Digital filter design solutions:

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Bibliographische Detailangaben
1. Verfasser:	De Freitas, Jolyon M. de (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boston, MA Artech House 2005
Schriftenreihe:	Artech House microwave library
Schlagworte:	Electric filters, Digital > Design and construction Signal processing > Digital techniques Digitalfilter Entwurf
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XIX, 463 S. zahlr. graph. Darst.
ISBN:	1580537596

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adam_text	DIGITAL FILTER DESIGN SOLUTIONS JOLYON M. DE FREITAS ARTECH HOUSE BOSTON\|LONDON ARTECHHOUSE.COM CONTENTS PREFACE XI LIST OF MATLAB FUNCTIONS XIII 1. INTRODUCTION 1 1.1 BACKGROUND 1 1.2 CHOICE OF FILTERS 2 1.3 OVERVIEW 2 1.4 FILTER COEFFICIENTS 3 2. FILTER DESIGN AND IMPLEMENTATION 5 2.1 IMPULSE RESPONSE FUNCTION H K 6 2.2 WINDOW FUNCTION W K 6 2.3 TRUNCATION AND WINDOWING 8 2.4 DESIGN RULES 11 2.5 FILTER IMPLEMENTATION 15 2.5.1 DIRECT METHOD - POSTPROCESSING 16 2.5.2 DIRECT METHOD-CONCURRENT PROCESSING 18 2.5.3 FREQUENCY DOMAIN METHOD 20 2.6 THE LOW-PASS FILTER AS A BUILDING BLOCK 23 2.6.1 THE ALL-PASS FILTER 24 2.6.2 THE HIGH-PASS FILTER 25 2.6.3 THE BAND-PASS FILTER 25 2.6.4 THE BAND-STOP FILTER 26 2.6.5 A LOW-PASS FILTER WITH GAIN NEAR TRANSITION EDGE 28 2.7 CASCADED FILTERS 30 2.7.1 THE CASCADED NOTCH FILTER 32 2.7.2 ALTERNATIVE CASCADE TECHNIQUE 33 2.8 DECIMATION 33 2.8.1 HALF-BAND LOW-PASS FILTER 34 2.8.2 HALF-BAND BAND-PASS FILTER 37 2.8.3 GENERAL DECIMATION BY FACTOR M 40 2.9 INTERPOLATION 41 2.9.1 SAMPLING RATE INCREASE BY INTEGER FACTOR M 41 2.9.2 SAMPLING RATE INCREASE BY FACTOR P M 42 2.10 NOISE CONSIDERATION 43 2.10.1 LOW-PASS AND HIGH-PASS FILTERS 43 2.10.2 BAND-PASS AND BAND-STOP FILTERS 44 2.10.3 CASCADED FILTERS 44 2.11 THE CENTER COEFFICIENT 45 VN VIII DIGITAL FILTER DESIGN SOLUTIONS 2.12 SUMMARY 47 REFERENCES 48 3. LOW-PASS FILTERS 49 3.1 GENERAL CHARACTERISTICS 49 3.1.1 F_ 3 DB FREQUENCY AND FILTER LENGTH 49 3.1.2 TRANSITION WIDTH AND SLOPE 50 3.1.3 RISE TIME T R 52 3.1.4 PASS-BAND RIPPLE R AND ATTENUATION A 53 3.1.5 OVERSHOOTG 53 3.1.6 SETTLING TIME 54 3.2 FILTER COEFFICIENT QUANTIZATION 55 3.2.1 INTEGER REPRESENTATION OF FILTER COEFFICIENTS 55 3.2.2 FILTER GAIN G 55 3.2.3 SCALING 56 3.2.4 AN EXAMPLE IN CONVERTING LPF99F0.3 TO 16-BIT PRECISION 56 3.2.5 STOP-BAND ATTENUATION AFTER FILTER QUANTIZATION 58 3.2.6 PASS-BAND RIPPLE AFTER FILTER QUANTIZATION 59 3.2.7 FILTER LENGTH AFTER QUANTIZATION 60 3.3 ASPECTS OF FILTER FORMAT AND LAYOUT 60 3.3.1 IDENTIFIER 60 3.3.2 IMPULSE RESPONSE 61 3.3.3 STEP RESPONSE 61 3.3.4 PASS-BAND RIPPLE 61 3.3.5 FILTER COEFFICIENTS TABLE 61 3.4 CONVERSION OF LOW-PASS TO HIGH-PASS FILTERS 62 3.5 LISTING OF LOW-PASS FILTERS 62 REFERENCES 124 4. HIGH-PASS FILTERS 125 4. 1 FILTER TERMINOLOGY 125 4.1.1 STEP RESPONSE IN HIGH-PASS FILTERS 125 4.1.2 FILTER COEFFICIENT QUANTIZATION 126 4.1.3 FILTER GAIN G 126 4.1.4 CHOICE OF CUT-ON FREQUENCIES F C 126 4.2 LISTING OF HIGH-PASS FILTERS 126 5. BAND-PASS FILTERS 197 5.1 FILTER TERMINOLOGY 197 5.1.1 IDENTIFIERS 197 5.1.2 BAND-PASS FILTER QUANTIZATION 197 5.1.3 BAND-PASS FILTER GAIN G 198 5.1.4 GENERAL CHARACTERISTICS 198 CONTENTS IX 5.1.5 CONVERSION TO BAND-STOP FILTERS 199 5.1.6 OVERVIEW OF BAND-PASS FILTER COEFFICIENTS 199 6. DIFFERENTIATORS 309 6.1 INTRODUCTION 309 6.2 FILTER CLASSIFICATION 311 6.3 FIRST-ORDER DIFFERENTIATING FILTERS 312 6.3.1 LOW-PASS FIRST-ORDER DIFFERENTIATING FILTERS 312 6.3.2 IMPLEMENTATION 313 6.3.3 FREQUENCY RESPONSE OF FIRST-ORDER DIFFERENTIATING FILTERS 314 6.3.4 PASS-BAND RIPPLE AND UNIT SLOPE RESPONSE 315 6.3.5 DC ACCURACY 316 6.3.6 BAND-PASS DIFFERENTIATING FILTER COEFFICIENTS 316 6.3.7 QUANTIZATION OF LOW-PASS FILTER COEFFICIENTS 316 6.3.8 FILTER GAIN G 318 6.4 SECOND-ORDER DIFFERENTIATING FILTERS 318 6.4.1 SECOND-ORDER SLOPE RESPONSE AND STABILITY 320 6.4.2 QUANTIZATION OF FILTER COEFFICIENTS AND IMPLEMENTATION 322 6.4.3 FILTER GAIN G 322 6.5 NOISE CONSIDERATION 322 6.5.1 THE NOISE AMPLIFICATION FACTOR 322 6.5.2 NOISE AMPLIFICATION IN BAND-PASS DIFFERENTIATORS 324 6.5.3 SIGNAL-TO-NOISE RATIO 324 6.5.4 GENERAL PERFORMANCE IN NOISE 325 6.6 CONVERSION OF UNITY GAIN FILTERS INTO DIFFERENTIATORS 326 6.6.1 FIRST-ORDER DIFFERENTIATING FILTERS 326 6.6.2 SECOND-ORDER DIFFERENTIATING FILTERS 327 6.7 CHARTS AND TABLES 328 6.7.1 FILTER IDENTIFIER 330 6.7.2 FILTER COEFFICIENTS TABLE 331 6.8 OVERVIEW AND SUMMARY 331 REFERENCES 387 7. HILBERT TRANSFORMERS 389 7.1 INTRODUCTION 389 7.2 HILBERT TRANSFORM REALIZATION 390 7.3 PHASE-FREQUENCY DEMODULATION SCHEME 1 391 7.3.1 IMPLEMENTATION 392 7.3.2 ERROR PROPAGATION IN HILBERT DEMODULATION 394 7.4 DC PHASE ERRORS 396 7.4.1 EVOLUTION OF CARRIER FREQUENCY 396 7.4.2 PHASE STEP RESPONSE 397 DIGITAL FILTER DESIGN SOLUTIONS 7.4.3 FREQUENCY STEP RESPONSE 397 7.5 INFLUENCE OF CARRIER FREQUENCY MISMATCH AND ITS COMPENSATION 399 7.6 AC PHASE DEMODULATION 400 7.6.1 AC PHASE ERRORS 401 7.6.2 AC PHASE ERROR DEPENDENCE ON MODULATION FREQUENCY 402 7.6.3 AC PHASE ERROR AND DEMODULATION BANDWIDTH 404 7.7. PHASE-FREQUENCY DEMODULATION SCHEME 2 406 7.7.1 IMPLEMENTATION 407 7.7.2 ERROR PROPAGATION 408 7.7.3 DEMODULATION BANDWIDTH OF SCHEME 2 409 7.8 INTRODUCING AN ARBITRARY PHASE SHIFT INTO A SIGNAL 411 7.8.1 THE PHASE BETWEEN TWO NARROW BAND SIGNALS 416 7.9 INSTANTANEOUS FREQUENCY 416 7.9.1 DETERMINATION OF INSTANTANEOUS MODULATION FREQUENCY 417 7.10 NOISE CONSIDERATION 418 7.10.1 MIXING PROCESS INVOLVING UNITY GAIN FILTERS 418 7.10.2 MIXING PROCESS INVOLVING PRE- AND POSTMIXING DIFFERENTIATORS 7.10.3 NOISE PERFORMANCE OF PM DEMODULATION SCHEME 2 7.10.4 NOISE PERFORMANCE OF PM DEMODULATION SCHEME 1 7.11 FILTER QUANTIZATION 7.11.1 FILTER GAIN 7.12 CHARTS AND TABLES 7.12.1 FILTER IDENTIFIERS 7.12.2 EXPLANATION OF ADDITIONAL TERMS 7.13 SUMMARY REFERENCES 8. CONCLUSION ABOUT THE AUTHOR INDEX
adam_txt	DIGITAL FILTER DESIGN SOLUTIONS JOLYON M. DE FREITAS ARTECH HOUSE BOSTON\|LONDON ARTECHHOUSE.COM CONTENTS PREFACE XI LIST OF MATLAB FUNCTIONS XIII 1. INTRODUCTION 1 1.1 BACKGROUND 1 1.2 CHOICE OF FILTERS 2 1.3 OVERVIEW 2 1.4 FILTER COEFFICIENTS 3 2. FILTER DESIGN AND IMPLEMENTATION 5 2.1 IMPULSE RESPONSE FUNCTION H K 6 2.2 WINDOW FUNCTION W K 6 2.3 TRUNCATION AND WINDOWING 8 2.4 DESIGN RULES 11 2.5 FILTER IMPLEMENTATION 15 2.5.1 DIRECT METHOD - POSTPROCESSING 16 2.5.2 DIRECT METHOD-CONCURRENT PROCESSING 18 2.5.3 FREQUENCY DOMAIN METHOD 20 2.6 THE LOW-PASS FILTER AS A BUILDING BLOCK 23 2.6.1 THE ALL-PASS FILTER 24 2.6.2 THE HIGH-PASS FILTER 25 2.6.3 THE BAND-PASS FILTER 25 2.6.4 THE BAND-STOP FILTER 26 2.6.5 A LOW-PASS FILTER WITH GAIN NEAR TRANSITION EDGE 28 2.7 CASCADED FILTERS 30 2.7.1 THE CASCADED NOTCH FILTER 32 2.7.2 ALTERNATIVE CASCADE TECHNIQUE 33 2.8 DECIMATION 33 2.8.1 HALF-BAND LOW-PASS FILTER 34 2.8.2 HALF-BAND BAND-PASS FILTER 37 2.8.3 GENERAL DECIMATION BY FACTOR M 40 2.9 INTERPOLATION 41 2.9.1 SAMPLING RATE INCREASE BY INTEGER FACTOR M 41 2.9.2 SAMPLING RATE INCREASE BY FACTOR P M 42 2.10 NOISE CONSIDERATION 43 2.10.1 LOW-PASS AND HIGH-PASS FILTERS 43 2.10.2 BAND-PASS AND BAND-STOP FILTERS 44 2.10.3 CASCADED FILTERS 44 2.11 THE CENTER COEFFICIENT 45 VN VIII DIGITAL FILTER DESIGN SOLUTIONS 2.12 SUMMARY 47 REFERENCES 48 3. LOW-PASS FILTERS 49 3.1 GENERAL CHARACTERISTICS 49 3.1.1 F_ 3 DB FREQUENCY AND FILTER LENGTH 49 3.1.2 TRANSITION WIDTH AND SLOPE 50 3.1.3 RISE TIME T R 52 3.1.4 PASS-BAND RIPPLE R AND ATTENUATION A 53 3.1.5 OVERSHOOTG 53 3.1.6 SETTLING TIME 54 3.2 FILTER COEFFICIENT QUANTIZATION 55 3.2.1 INTEGER REPRESENTATION OF FILTER COEFFICIENTS 55 3.2.2 FILTER GAIN G 55 3.2.3 SCALING 56 3.2.4 AN EXAMPLE IN CONVERTING LPF99F0.3 TO 16-BIT PRECISION 56 3.2.5 STOP-BAND ATTENUATION AFTER FILTER QUANTIZATION 58 3.2.6 PASS-BAND RIPPLE AFTER FILTER QUANTIZATION 59 3.2.7 FILTER LENGTH AFTER QUANTIZATION 60 3.3 ASPECTS OF FILTER FORMAT AND LAYOUT 60 3.3.1 IDENTIFIER 60 3.3.2 IMPULSE RESPONSE 61 3.3.3 STEP RESPONSE 61 3.3.4 PASS-BAND RIPPLE 61 3.3.5 FILTER COEFFICIENTS TABLE 61 3.4 CONVERSION OF LOW-PASS TO HIGH-PASS FILTERS 62 3.5 LISTING OF LOW-PASS FILTERS 62 REFERENCES 124 4. HIGH-PASS FILTERS 125 4. 1 FILTER TERMINOLOGY 125 4.1.1 STEP RESPONSE IN HIGH-PASS FILTERS 125 4.1.2 FILTER COEFFICIENT QUANTIZATION 126 4.1.3 FILTER GAIN G 126 4.1.4 CHOICE OF CUT-ON FREQUENCIES F C 126 4.2 LISTING OF HIGH-PASS FILTERS ' 126 5. BAND-PASS FILTERS 197 5.1 FILTER TERMINOLOGY 197 5.1.1 IDENTIFIERS 197 5.1.2 BAND-PASS FILTER QUANTIZATION 197 5.1.3 BAND-PASS FILTER GAIN G 198 5.1.4 GENERAL CHARACTERISTICS 198 CONTENTS IX 5.1.5 CONVERSION TO BAND-STOP FILTERS 199 5.1.6 OVERVIEW OF BAND-PASS FILTER COEFFICIENTS 199 6. DIFFERENTIATORS 309 6.1 INTRODUCTION' 309 6.2 FILTER CLASSIFICATION 311 6.3 FIRST-ORDER DIFFERENTIATING FILTERS 312 6.3.1 LOW-PASS FIRST-ORDER DIFFERENTIATING FILTERS 312 6.3.2 IMPLEMENTATION 313 6.3.3 FREQUENCY RESPONSE OF FIRST-ORDER DIFFERENTIATING FILTERS 314 6.3.4 PASS-BAND RIPPLE AND UNIT SLOPE RESPONSE 315 6.3.5 DC ACCURACY 316 6.3.6 BAND-PASS DIFFERENTIATING FILTER COEFFICIENTS 316 6.3.7 QUANTIZATION OF LOW-PASS FILTER COEFFICIENTS 316 6.3.8 FILTER GAIN G 318 6.4 SECOND-ORDER DIFFERENTIATING FILTERS 318 6.4.1 SECOND-ORDER SLOPE RESPONSE AND STABILITY 320 6.4.2 QUANTIZATION OF FILTER COEFFICIENTS AND IMPLEMENTATION 322 6.4.3 FILTER GAIN G 322 6.5 NOISE CONSIDERATION 322 6.5.1 THE NOISE AMPLIFICATION FACTOR 322 6.5.2 NOISE AMPLIFICATION IN BAND-PASS DIFFERENTIATORS 324 6.5.3 SIGNAL-TO-NOISE RATIO 324 6.5.4 GENERAL PERFORMANCE IN NOISE 325 6.6 CONVERSION OF UNITY GAIN FILTERS INTO DIFFERENTIATORS 326 6.6.1 FIRST-ORDER DIFFERENTIATING FILTERS 326 6.6.2 SECOND-ORDER DIFFERENTIATING FILTERS 327 6.7 CHARTS AND TABLES 328 6.7.1 FILTER IDENTIFIER 330 6.7.2 FILTER COEFFICIENTS TABLE 331 6.8 OVERVIEW AND SUMMARY 331 REFERENCES 387 7. HILBERT TRANSFORMERS 389 7.1 INTRODUCTION ' 389 7.2 HILBERT TRANSFORM REALIZATION 390 7.3 PHASE-FREQUENCY DEMODULATION SCHEME 1 391 7.3.1 IMPLEMENTATION 392 7.3.2 ERROR PROPAGATION IN HILBERT DEMODULATION 394 7.4 DC PHASE ERRORS 396 7.4.1 EVOLUTION OF CARRIER FREQUENCY 396 7.4.2 PHASE STEP RESPONSE 397 DIGITAL FILTER DESIGN SOLUTIONS 7.4.3 FREQUENCY STEP RESPONSE 397 7.5 INFLUENCE OF CARRIER FREQUENCY MISMATCH AND ITS COMPENSATION 399 7.6 AC PHASE DEMODULATION 400 7.6.1 AC PHASE ERRORS 401 7.6.2 AC PHASE ERROR DEPENDENCE ON MODULATION FREQUENCY 402 7.6.3 AC PHASE ERROR AND DEMODULATION BANDWIDTH 404 7.7. PHASE-FREQUENCY DEMODULATION SCHEME 2 406 7.7.1 IMPLEMENTATION 407 7.7.2 ERROR PROPAGATION 408 7.7.3 DEMODULATION BANDWIDTH OF SCHEME 2 409 7.8 INTRODUCING AN ARBITRARY PHASE SHIFT INTO A SIGNAL 411 7.8.1 THE PHASE BETWEEN TWO NARROW BAND SIGNALS 416 7.9 INSTANTANEOUS FREQUENCY 416 7.9.1 DETERMINATION OF INSTANTANEOUS MODULATION FREQUENCY 417 7.10 NOISE CONSIDERATION 418 7.10.1 MIXING PROCESS INVOLVING UNITY GAIN FILTERS 418 7.10.2 MIXING PROCESS INVOLVING PRE- AND POSTMIXING DIFFERENTIATORS 7.10.3 NOISE PERFORMANCE OF PM DEMODULATION SCHEME 2 7.10.4 NOISE PERFORMANCE OF PM DEMODULATION SCHEME 1 7.11 FILTER QUANTIZATION 7.11.1 FILTER GAIN 7.12 CHARTS AND TABLES 7.12.1 FILTER IDENTIFIERS 7.12.2 EXPLANATION OF ADDITIONAL TERMS 7.13 SUMMARY REFERENCES 8. CONCLUSION ABOUT THE AUTHOR INDEX
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spelling	De Freitas, Jolyon M. de Verfasser aut Digital filter design solutions Jolyon M. De Freitas Boston, MA Artech House 2005 XIX, 463 S. zahlr. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Artech House microwave library Includes bibliographical references and index Electric filters, Digital Design and construction Signal processing Digital techniques Digitalfilter (DE-588)4070477-4 gnd rswk-swf Entwurf (DE-588)4121208-3 gnd rswk-swf Digitalfilter (DE-588)4070477-4 s Entwurf (DE-588)4121208-3 s DE-604 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014709733&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	De Freitas, Jolyon M. de Digital filter design solutions Electric filters, Digital Design and construction Signal processing Digital techniques Digitalfilter (DE-588)4070477-4 gnd Entwurf (DE-588)4121208-3 gnd
subject_GND	(DE-588)4070477-4 (DE-588)4121208-3
title	Digital filter design solutions
title_auth	Digital filter design solutions
title_exact_search	Digital filter design solutions
title_exact_search_txtP	Digital filter design solutions
title_full	Digital filter design solutions Jolyon M. De Freitas
title_fullStr	Digital filter design solutions Jolyon M. De Freitas
title_full_unstemmed	Digital filter design solutions Jolyon M. De Freitas
title_short	Digital filter design solutions
title_sort	digital filter design solutions
topic	Electric filters, Digital Design and construction Signal processing Digital techniques Digitalfilter (DE-588)4070477-4 gnd Entwurf (DE-588)4121208-3 gnd
topic_facet	Electric filters, Digital Design and construction Signal processing Digital techniques Digitalfilter Entwurf
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014709733&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT defreitasjolyonmde digitalfilterdesignsolutions

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