Verfügbarkeit: System and circuit design for accurate frequency-modulated continuous-wave local positioning radars

System and circuit design for accurate frequency-modulated continuous-wave local positioning radars:

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Bibliographische Detailangaben
1. Verfasser:	El-Shennawy, Mohammed 1981- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Dresden Vogt 2018
Schriftenreihe:	Beiträge aus der Elektrotechnik
Schlagworte:	Radarortung Messgenauigkeit Chirpradar Radarempfänger Phasenregelkreis Frequenzmodulation Chip Dauerstrichradar Schaltungsentwurf Rauscharmer Verstärker Paperback / softback Datenübertragung FMCW On-Chip 1684: Hardcover, Softcover / Technik/Elektronik, Elektrotechnik, Nachrichtentechnik Hochschulschrift
Online-Zugang:	Ausführliche Beschreibung Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	XV, 174 Seiten Illustrationen 21 cm
ISBN:	9783959470278 3959470274

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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS 1 INTRODUCTION........................................................................................................................... 1 1.1. MOTIVATION....................................................................................................................... 1 1.2. SCOPE, OBJECTIVES AND THESIS OUTLINE.............................................................................4 1.3. PRIMARY FMCW RADAR.................................................................................................... 5 1.4. SECONDARY FMCW RADAR................................................................................................ 7 1.5. TRANSCEIVER ARCHITECTURE SELECTION.................................................................................8 1.5.1. RECEIVER ARCHITECTURE............................................................................................... 8 1.5.2. CHIRP GENERATOR ARCHITECTURE...................................................................................9 1.5.2.1. VOLTAGE-CONTROLLED OSCILLATOR...........................................................................9 1.5.2.2. DIRECT DIGITAL SYNTHESIS....................................................................................9 1.5.2.3. FRACTIONAL-N PHASE-LOCKED LOOP................................................................... 10 1.6. BASEBAND FREQUENCY ESTIMATION................................................................................... 11 1.7. ACCURACY AND PRECISION DEFINITION............................................................................... 13 1.8. SUMMARY........................................................................................................................14 2 FMCW RADAR SYSTEM DESIGN............................................................................................ 15 2.1. RANGE RESOLUTION.......................................................................................................... 15 2.2. CRYSTAL OSCILLATOR TOLERANCE.......................................................................................... 18 2.2.1. OVERVIEW................................................................................................................ 18 2.2.2. IMPACT ON PRIMARY FMCW RADARS......................................................................... 18 2.2.2.1. CHIRP RESHAPING EFFECTS.................................................................................. 18 2 . 2 . 22 . SAMPLING FREQUENCY EFFECTS........................................................................... 19 2.2.3. IMPACT ON SECONDARY FMCW RADARS.....................................................................20 2.2.3.1. CHIRP RESHAPING EFFECTS..................................................................................20 2.2.3.2. SAMPLING FREQUENCY EFFECTS...........................................................................21 2.2.3.3. CHIRP REPETITION PERIOD EFFECTS......................................................................22 2.2.4. MATLAB XO TOLERANCE MODELLING......................................................................22 2.3. SIGNAL-TO-NOISE RATIO....................................................................................................25 2.4. PHASE NOISE................................................................................................................... 26 2.4.1. VERILOG-A PHASE NOISE MODELLING......................................................................... 26 2.4.1.1. OVERVIEW......................................................................................................... 26 2.4.1.2. DERIVING THE FFT FM SENSITIVITY FUNCTION.....................................................27 2.4.1.3. DERIVING THE BASEBAND FM NOISE PROFILE.......................................................29 2.4.1.4. ESTIMATING THE FMCW RADAR PRECISION..........................................................32 2.4.2. MATLAB PHASE NOISE MODELLING........................................................................34 2.4.2.1. OVERVIEW......................................................................................................... 34 2.4.2.2. FM NOISE COLORING PROCESS............................................................................ 34 2.4.2.3. AM NOISE ADDITION......................................................................................... 36 2.4.2A ESTIMATING THE BASEBAND SNR........................................................................36 2.4.2.5. ESTIMATING THE FMCW RADAR PRECISION..........................................................39 2.4.3. COMPARISON WITH PREVIOUS METHODS......................................................................39 2.4.4. COMBINED EFFECTS ON RANGING PRECISION..............................................................41 2.4.5. COMPARISON WITH PRIMARY RADAR............................................................................43 2.5. CHIRP DURATION............................................................................................................... 46 2.6. SUMMARY....................................................................................................................... 47 3 FRAC-N PLL CHIRP GENERATOR DESIGN .......................................................................... 49 3.1. OVERVIEW....................................................................................................................... 49 3.2. CLOCK-DOMAIN CROSSING ISSUE....................................................................................... 51 3.2.1. PROBLEM DEFINITION................................................................................................. 51 3.2.2. CONVENTIONAL SOLUTIONS.......................................................................................... 52 3.2.3. PROPOSED SOLUTION.................................................................................................. 53 3.3. INTEGER DIVISION GLITCH ISSUES....................................................................................... 55 3.3.1. PROBLEM DEFINITION................................................................................................. 55 3.3.2. PROPOSED SOLUTION.................................................................................................. 56 3.4. SIMULATION RESULTS......................................................................................................... 58 3.4.1. ACCURACY SIMULATION.............................................................................................. 61 3.4.2. PRECISION SIMULATION.............................................................................................. 61 3.5. CHIRP GENERATOR MEASUREMENT...................................................................................... 63 3.6. SUMMARY........................................................................................................................66 4 FMCW RADAR RECEIVER DESIGN ..................................................................................... 67 4.1. OVERVIEW....................................................................................................................... 67 4.2. RF FRONT-END DESIGN.................................................................................................... 69 4.2.1. LOW-NOISE AMPLIFIER DESIGN.................................................................................69 4.2.2. MIXER DESIGN.......................................................................................................... 71 4.2.3. LOW-PASS FILTER DESIGN..........................................................................................73 4.2.4. RF FRONT-END SIMULATION AND MEASUREMENT.........................................................74 4.2.4.1. GAIN AND RETURN LOSS MEASUREMENT...............................................................74 4.2.4.2. LARGE-SIGNAL MEASUREMENT.............................................................................75 4.3. BASEBAND AGC LOOP DESIGN........................................................................................76 4.4. VGA DESIGN.................................................................................................................. 78 4.4.1. OVERVIEW................................................................................................................ 78 4.4.2. VGA BUILDING BLOCKS............................................................................................ 79 4.4.2.1. ATTENUATOR LADDER...........................................................................................79 4.4.2.2. TRANSCONDUCTANCE STAGES................................................................................80 4.4.2.3. GAUSSIAN INTERPOLATOR...................................................................................... 81 4.4.2A MAIN AMPLIFIER................................................................................................ 84 4.4.2.S. OFFSET CANCELLATION.......................................................................................86 4.4.3. VGA INPUT SIGNAL HANDLING ENHANCEMENT............................................................90 4.4.4. VGA LINEARITY ENHANCEMENT.................................................................................92 4.4.5. VGA LOG CONFORMANCE ERROR................................................................................94 4.4.6. VGA MEASUREMENT................................................................................................95 4.4.6.1. VGA BANDWIDTH..............................................................................................95 4.4.6.2. VGA OFFSET CANCELLATION................................................................................96 4.4.6.3. VGA NOISE......................................................................................................97 4.4.6A VGA INPUT SIGNAL HANDLING ENHANCEMENT.....................................................97 4.4.7. COMPARISON WITH THE STATE-OF-THE-ART....................................................................99 4.5. DETECTOR DESIGN........................................................................................................... 100 4.5.1. CONVENTIONAL DETECTOR DESIGN............................................................................. 100 4.5.2. PROPOSED DETECTOR DESIGN.................................................................................... 101 4.5.3. DETECTOR MEASUREMENT......................................................................................... 109 4.5.3.1. DETECTOR SENSITIVITY....................................................................................... 110 4.5.3.2. DETECTOR BANDWIDTH....................................................................................... 110 4.6. AGC LOOP DESIGN AND MODELLING.............................................................................111 4.6.1. OVERVIEW...............................................................................................................I L L 4.6.2. AGC BUILDING BLOCKS MODELLING ......................................................................... I L L 4.6.2.1. VGA MODEL....................................................................................................I L L 4.6.2.2. DETECTOR MODEL...............................................................................................113 4.6.2.3. LOOP INTEGRATOR MODEL.................................................................................114 4.6.3. MODEL VALIDATION...................................................................................................116 4.6.4. AGC LOOP MEASUREMENT......................................................................................121 4.6.4.1. DYNAMIC RANGE MEASUREMENT ...................................................................... 121 4.6.4.2. RSSI MEASUREMENT.........................................................................................121 4.6.5. COMPARISON WITH THE STATE-OF-THE-ART .................................................................. 123 4.7. INTEGRATED RECEIVER MEASUREMENT ............................................................................... 125 4.7.1. GAIN AND DYNAMIC RANGE MEASUREMENT .............................................................. 125 4.7.2. NOISE FIGURE MEASUREMENT .................................................................................. 127 4.8. COMPARISON WITH THE STATE-OF-THE-ART ......................................................................... 131 4.9. SUMMARY......................................................................................................................132 5 RANGING AND POSITIONING MEASUREMENTS......................................................................133 5.1. OVERVIEW......................................................................................................................133 5.2. PRIMARY RADAR MEASUREMENT ....................................................................................... 134 5.3. SECONDARY RADAR MEASUREMENT ................................................................................... 136 5.3.1. CRYSTAL OSCILLATOR CALIBRATION ............................................................................... 136 5.3.2. RF CABLE RANGING MEASUREMENT ......................................................................... 137 5.3.3. PRACTICAL INDOOR RANGING MEASUREMENT ............................................................... 138 5.4. INDOOR POSITIONING MEASUREMENT ................................................................................ 142 5.5. SUMMARY......................................................................................................................146 CONCLUSION AND FUTURE WORK...............................................................................................147 REFERENCES..............................................................................................................................149 OWN PUBLICATIONS...................................................................................................................157 LIST OF ABBREVIATIONS.............................................................................................................159 LIST OF SYMBOLS......................................................................................................................163 LIST OF FIGURES........................................................................................................................169 LIST OF TABLES..........................................................................................................................175
adam_txt	TABLE OF CONTENTS 1 INTRODUCTION. 1 1.1. MOTIVATION. 1 1.2. SCOPE, OBJECTIVES AND THESIS OUTLINE.4 1.3. PRIMARY FMCW RADAR. 5 1.4. SECONDARY FMCW RADAR. 7 1.5. TRANSCEIVER ARCHITECTURE SELECTION.8 1.5.1. RECEIVER ARCHITECTURE. 8 1.5.2. CHIRP GENERATOR ARCHITECTURE.9 1.5.2.1. VOLTAGE-CONTROLLED OSCILLATOR.9 1.5.2.2. DIRECT DIGITAL SYNTHESIS.9 1.5.2.3. FRACTIONAL-N PHASE-LOCKED LOOP. 10 1.6. BASEBAND FREQUENCY ESTIMATION. 11 1.7. ACCURACY AND PRECISION DEFINITION. 13 1.8. SUMMARY.14 2 FMCW RADAR SYSTEM DESIGN. 15 2.1. RANGE RESOLUTION. 15 2.2. CRYSTAL OSCILLATOR TOLERANCE. 18 2.2.1. OVERVIEW. 18 2.2.2. IMPACT ON PRIMARY FMCW RADARS. 18 2.2.2.1. CHIRP RESHAPING EFFECTS. 18 2 . 2 . 22 . SAMPLING FREQUENCY EFFECTS. 19 2.2.3. IMPACT ON SECONDARY FMCW RADARS.20 2.2.3.1. CHIRP RESHAPING EFFECTS.20 2.2.3.2. SAMPLING FREQUENCY EFFECTS.21 2.2.3.3. CHIRP REPETITION PERIOD EFFECTS.22 2.2.4. MATLAB XO TOLERANCE MODELLING.22 2.3. SIGNAL-TO-NOISE RATIO.25 2.4. PHASE NOISE. 26 2.4.1. VERILOG-A PHASE NOISE MODELLING. 26 2.4.1.1. OVERVIEW. 26 2.4.1.2. DERIVING THE FFT FM SENSITIVITY FUNCTION.27 2.4.1.3. DERIVING THE BASEBAND FM NOISE PROFILE.29 2.4.1.4. ESTIMATING THE FMCW RADAR PRECISION.32 2.4.2. MATLAB PHASE NOISE MODELLING.34 2.4.2.1. OVERVIEW. 34 2.4.2.2. FM NOISE COLORING PROCESS. 34 2.4.2.3. AM NOISE ADDITION. 36 2.4.2A ESTIMATING THE BASEBAND SNR.36 2.4.2.5. ESTIMATING THE FMCW RADAR PRECISION.39 2.4.3. COMPARISON WITH PREVIOUS METHODS.39 2.4.4. COMBINED EFFECTS ON RANGING PRECISION.41 2.4.5. COMPARISON WITH PRIMARY RADAR.43 2.5. CHIRP DURATION. 46 2.6. SUMMARY. 47 3 FRAC-N PLL CHIRP GENERATOR DESIGN . 49 3.1. OVERVIEW. 49 3.2. CLOCK-DOMAIN CROSSING ISSUE. 51 3.2.1. PROBLEM DEFINITION. 51 3.2.2. CONVENTIONAL SOLUTIONS. 52 3.2.3. PROPOSED SOLUTION. 53 3.3. INTEGER DIVISION GLITCH ISSUES. 55 3.3.1. PROBLEM DEFINITION. 55 3.3.2. PROPOSED SOLUTION. 56 3.4. SIMULATION RESULTS. 58 3.4.1. ACCURACY SIMULATION. 61 3.4.2. PRECISION SIMULATION. 61 3.5. CHIRP GENERATOR MEASUREMENT. 63 3.6. SUMMARY.66 4 FMCW RADAR RECEIVER DESIGN . 67 4.1. OVERVIEW. 67 4.2. RF FRONT-END DESIGN. 69 4.2.1. LOW-NOISE AMPLIFIER DESIGN.69 4.2.2. MIXER DESIGN. 71 4.2.3. LOW-PASS FILTER DESIGN.73 4.2.4. RF FRONT-END SIMULATION AND MEASUREMENT.74 4.2.4.1. GAIN AND RETURN LOSS MEASUREMENT.74 4.2.4.2. LARGE-SIGNAL MEASUREMENT.75 4.3. BASEBAND AGC LOOP DESIGN.76 4.4. VGA DESIGN. 78 4.4.1. OVERVIEW. 78 4.4.2. VGA BUILDING BLOCKS. 79 4.4.2.1. ATTENUATOR LADDER.79 4.4.2.2. TRANSCONDUCTANCE STAGES.80 4.4.2.3. GAUSSIAN INTERPOLATOR. 81 4.4.2A MAIN AMPLIFIER. 84 4.4.2.S. OFFSET CANCELLATION.86 4.4.3. VGA INPUT SIGNAL HANDLING ENHANCEMENT.90 4.4.4. VGA LINEARITY ENHANCEMENT.92 4.4.5. VGA LOG CONFORMANCE ERROR.94 4.4.6. VGA MEASUREMENT.95 4.4.6.1. VGA BANDWIDTH.95 4.4.6.2. VGA OFFSET CANCELLATION.96 4.4.6.3. VGA NOISE.97 4.4.6A VGA INPUT SIGNAL HANDLING ENHANCEMENT.97 4.4.7. COMPARISON WITH THE STATE-OF-THE-ART.99 4.5. DETECTOR DESIGN. 100 4.5.1. CONVENTIONAL DETECTOR DESIGN. 100 4.5.2. PROPOSED DETECTOR DESIGN. 101 4.5.3. DETECTOR MEASUREMENT. 109 4.5.3.1. DETECTOR SENSITIVITY. 110 4.5.3.2. DETECTOR BANDWIDTH. 110 4.6. AGC LOOP DESIGN AND MODELLING.111 4.6.1. OVERVIEW.I L L 4.6.2. AGC BUILDING BLOCKS MODELLING . I L L 4.6.2.1. VGA MODEL.I L L 4.6.2.2. DETECTOR MODEL.113 4.6.2.3. LOOP INTEGRATOR MODEL.114 4.6.3. MODEL VALIDATION.116 4.6.4. AGC LOOP MEASUREMENT.121 4.6.4.1. DYNAMIC RANGE MEASUREMENT . 121 4.6.4.2. RSSI MEASUREMENT.121 4.6.5. COMPARISON WITH THE STATE-OF-THE-ART . 123 4.7. INTEGRATED RECEIVER MEASUREMENT . 125 4.7.1. GAIN AND DYNAMIC RANGE MEASUREMENT . 125 4.7.2. NOISE FIGURE MEASUREMENT . 127 4.8. COMPARISON WITH THE STATE-OF-THE-ART . 131 4.9. SUMMARY.132 5 RANGING AND POSITIONING MEASUREMENTS.133 5.1. OVERVIEW.133 5.2. PRIMARY RADAR MEASUREMENT . 134 5.3. SECONDARY RADAR MEASUREMENT . 136 5.3.1. CRYSTAL OSCILLATOR CALIBRATION . 136 5.3.2. RF CABLE RANGING MEASUREMENT . 137 5.3.3. PRACTICAL INDOOR RANGING MEASUREMENT . 138 5.4. INDOOR POSITIONING MEASUREMENT . 142 5.5. SUMMARY.146 CONCLUSION AND FUTURE WORK.147 REFERENCES.149 OWN PUBLICATIONS.157 LIST OF ABBREVIATIONS.159 LIST OF SYMBOLS.163 LIST OF FIGURES.169 LIST OF TABLES.175
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author	El-Shennawy, Mohammed 1981-
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discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
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genre	(DE-588)4113937-9 Hochschulschrift gnd-content
genre_facet	Hochschulschrift
id	DE-604.BV047207594
illustrated	Illustrated
index_date	2024-07-03T16:53:06Z
indexdate	2024-07-10T09:05:39Z
institution	BVB
institution_GND	(DE-588)106420967X
isbn	9783959470278 3959470274
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032612462
open_access_boolean
owner	DE-83
owner_facet	DE-83
physical	XV, 174 Seiten Illustrationen 21 cm
publishDate	2018
publishDateSearch	2018
publishDateSort	2018
publisher	Vogt
record_format	marc
series2	Beiträge aus der Elektrotechnik
spelling	El-Shennawy, Mohammed 1981- Verfasser (DE-588)1156041031 aut System and circuit design for accurate frequency-modulated continuous-wave local positioning radars Mohammed El-Shennawy Dresden Vogt 2018 XV, 174 Seiten Illustrationen 21 cm txt rdacontent n rdamedia nc rdacarrier Beiträge aus der Elektrotechnik Dissertation TU Dresden 2018 Radarortung (DE-588)4176775-5 gnd rswk-swf Messgenauigkeit (DE-588)4138706-5 gnd rswk-swf Chirpradar (DE-588)4268577-1 gnd rswk-swf Radarempfänger (DE-588)4176768-8 gnd rswk-swf Phasenregelkreis (DE-588)4174166-3 gnd rswk-swf Frequenzmodulation (DE-588)4155410-3 gnd rswk-swf Chip (DE-588)4197163-2 gnd rswk-swf Dauerstrichradar (DE-588)4148921-4 gnd rswk-swf Schaltungsentwurf (DE-588)4179389-4 gnd rswk-swf Rauscharmer Verstärker (DE-588)107235148X gnd rswk-swf Paperback / softback Datenübertragung FMCW On-Chip 1684: Hardcover, Softcover / Technik/Elektronik, Elektrotechnik, Nachrichtentechnik (DE-588)4113937-9 Hochschulschrift gnd-content Radarortung (DE-588)4176775-5 s Frequenzmodulation (DE-588)4155410-3 s Dauerstrichradar (DE-588)4148921-4 s Radarempfänger (DE-588)4176768-8 s Phasenregelkreis (DE-588)4174166-3 s Chirpradar (DE-588)4268577-1 s Rauscharmer Verstärker (DE-588)107235148X s Schaltungsentwurf (DE-588)4179389-4 s Chip (DE-588)4197163-2 s Messgenauigkeit (DE-588)4138706-5 s DE-604 Vogt Verlag (DE-588)106420967X pbl X:MVB text/html http://www.vogtverlag.de/wissenschaft.html Ausführliche Beschreibung B:DE-101 application/pdf http://d-nb.info/1153621371/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032612462&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	El-Shennawy, Mohammed 1981- System and circuit design for accurate frequency-modulated continuous-wave local positioning radars Radarortung (DE-588)4176775-5 gnd Messgenauigkeit (DE-588)4138706-5 gnd Chirpradar (DE-588)4268577-1 gnd Radarempfänger (DE-588)4176768-8 gnd Phasenregelkreis (DE-588)4174166-3 gnd Frequenzmodulation (DE-588)4155410-3 gnd Chip (DE-588)4197163-2 gnd Dauerstrichradar (DE-588)4148921-4 gnd Schaltungsentwurf (DE-588)4179389-4 gnd Rauscharmer Verstärker (DE-588)107235148X gnd
subject_GND	(DE-588)4176775-5 (DE-588)4138706-5 (DE-588)4268577-1 (DE-588)4176768-8 (DE-588)4174166-3 (DE-588)4155410-3 (DE-588)4197163-2 (DE-588)4148921-4 (DE-588)4179389-4 (DE-588)107235148X (DE-588)4113937-9
title	System and circuit design for accurate frequency-modulated continuous-wave local positioning radars
title_auth	System and circuit design for accurate frequency-modulated continuous-wave local positioning radars
title_exact_search	System and circuit design for accurate frequency-modulated continuous-wave local positioning radars
title_exact_search_txtP	System and circuit design for accurate frequency-modulated continuous-wave local positioning radars
title_full	System and circuit design for accurate frequency-modulated continuous-wave local positioning radars Mohammed El-Shennawy
title_fullStr	System and circuit design for accurate frequency-modulated continuous-wave local positioning radars Mohammed El-Shennawy
title_full_unstemmed	System and circuit design for accurate frequency-modulated continuous-wave local positioning radars Mohammed El-Shennawy
title_short	System and circuit design for accurate frequency-modulated continuous-wave local positioning radars
title_sort	system and circuit design for accurate frequency modulated continuous wave local positioning radars
topic	Radarortung (DE-588)4176775-5 gnd Messgenauigkeit (DE-588)4138706-5 gnd Chirpradar (DE-588)4268577-1 gnd Radarempfänger (DE-588)4176768-8 gnd Phasenregelkreis (DE-588)4174166-3 gnd Frequenzmodulation (DE-588)4155410-3 gnd Chip (DE-588)4197163-2 gnd Dauerstrichradar (DE-588)4148921-4 gnd Schaltungsentwurf (DE-588)4179389-4 gnd Rauscharmer Verstärker (DE-588)107235148X gnd
topic_facet	Radarortung Messgenauigkeit Chirpradar Radarempfänger Phasenregelkreis Frequenzmodulation Chip Dauerstrichradar Schaltungsentwurf Rauscharmer Verstärker Hochschulschrift
url	http://www.vogtverlag.de/wissenschaft.html http://d-nb.info/1153621371/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032612462&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT elshennawymohammed systemandcircuitdesignforaccuratefrequencymodulatedcontinuouswavelocalpositioningradars AT vogtverlag systemandcircuitdesignforaccuratefrequencymodulatedcontinuouswavelocalpositioningradars

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