Verfügbarkeit: Illumination engineering

Illumination engineering: design with nonimaging optics

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Bibliographische Detailangaben
1. Verfasser:	Koshel, R. John (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Piscataway, N. J. [u.a.] IEEE Pr. [u.a.] 2013
Schlagworte:	Optical engineering Lighting TECHNOLOGY & ENGINEERING / Optics Solarzelle Lumineszenzdiode Ray tracing Berechnung Fotovoltaik Lichttechnik Beleuchtung Konzentrator > Solartechnik Sonnenenergie Vektorrechnung
Online-Zugang:	Klappentext Inhaltsverzeichnis
Beschreibung:	XXI, 302 S. Ill., graph. Darst.
ISBN:	9780470911402

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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE xiii CONTRIBUTORS xvii GLOSSARY xix CHATOU 1 INTRODUCTION AND TERMINOLOGY 1 1.1 What Is Illumination? і 1.2 A Brief History of Illumination Optics 2 1.3 Units 4 1.3.1 Radiometrie Quantities 4 1.3.2 Photometric Quantities 6 1.4 Intensity 9 1.5 Illuminance and Irradiance 10 1.6 Luminance and Radiance 11 1.6.1 Lambertian із 1.6.2 Isotropie 14 1.7 Important Factors in Illumination Design 15 1.7.1 Transfer Efficiency 15 1.7.2 Uniformity of Illumination Distribution 16 1.8 Standard Optics Used in Illumination Engineering 17 1.8.1 Refractive Optics 18 1.8.2 Reflective Optics 20 1.8.3 TIR Optics 22 1.8.4 Scattering Optics 24 1.8.5 Hybrid Optics 24 1.9 The Process of Illumination System Design 25 1.10 Is Illumination Engineering Hard? 28 1.11 Format for Succeeding Chapters 29 References зо CHAPTER 2 ÉTENDUE ___________________________________________________________31 2.1 Étendue 32 2.2 Conservation of Étendue зз 2.2.1 Proof of Conservation of Radiance and Étendue 34 2.2.2 Proof of Conservation of Generalized Étendue 36 2.2.3 Conservation of Étendue from the Laws of Thermodynamics 40 2.3 Other Expressions for Étendue 41 2.3.1 Radiance, Luminance, and Brightness 41 vii VIH CONTENTS 2.3.2 Throughput 42 2.3.3 Extent 43 2.3.4 Lagrange Invariant 43 2.3.5 Abbe Sine Condition 43 2.3.6 Configuration or Shape Factor 44 2.4 Design Examples Using Étendue 45 2.4.1 Lambertian, Spatially Uniform Disk Emitter 45 2.4.2 Isotropie, Spatially Uniform Disk Emitter 48 2.4.3 Isotropie, Spatially Nonuniform Disk Emitter 50 2.4.4 Tubular Emitter 52 2.5 Concentration Ratio 59 2.6 Rotational Skew Invariant 61 2.6. 1 Proof of Skew Invariance 61 2.6.2 Refined Tubular Emitter Example 63 2.7 Étendue Discussion 67 References 68 CHAPTER 3 SQUEEZING THE ÉTENDUE 71 3. 1 Introduction 71 3.2 Étendue Squeezers versus Étendue Rotators 71 3.2. l Étendue Rotating Mappings 74 3.2.2 Étendue Squeezing Mappings 77 3.3 Introductory Example of Étendue Squeezer 79 3.3.1 Increasing the Number of Lenticular Elements 80 3.4 Canonical Étendue-Squeezing with Afocal Lenslet Arrays 82 3.4.1 Squeezing a Collimated Beam 82 3.4.2 Other Afocal Designs 83 3.4.3 Étendue-Squeezing Lenslet Arrays with Other Squeeze-Factors 85 3.5 Application to a Two Freeform Mirror Condenser 88 3.6 Étendue Squeezing in Optical Manifolds 95 3.7 Conclusions 95 Appendix 3.A Galilean Afocal System 96 Appendix 3.B Keplerian Afocal System 98 References 99 CHAPTER 4 SMS 3D DESIGN METHOD 101 4.1 Introduction 101 4.2 State of the Art of Freeform Optical Design Methods 101 4.3. SMS 3D Statement of the Optical Problem 103 4.4 SMS Chains 104 4.4.1 SMS Chain Generation 105 4.4.2 Conditions 106 4.5 SMS Surfaces 106 4.5.1 SMS Ribs 107 4.5.2 SMS Skinning ios 4.5.3 Choosing the Seed Rib 109 4.6 Design Examples 109 4.6.1 SMS Design with a Prescribed Seed Rib 110 4.6.2 SMS Design with an SMS Spine as Seed Rib ill CONTENTS IX 4.6.3 Design of a Lens (RR) with Thin Edge 115 4.6.4 Design of an XX Condenser for a Cylindrical Source 117 4.6.5 Freeform XR for Photovoltaics Applications 129 4.6.5.1 The XR Design Procedure 131 4.6.5.2 Results of Ray Tracing Analysis 135 4.7 Conclusions 140 References 144 CHAPTER 5 SOLAR CONCENTRATORS 147 5.1 Concentrated Solar Radiation 147 5.2 Acceptance Angle 148 5.3 Imaging and Nonimaging Concentrators 156 5.4 Limit Case of Infinitesimal Étendue: Aplanatic Optics 164 5.5 3D Miñano-Benitez Design Method Applied to High Solar Concentration 171 5.6 Köhler Integration in One Direction 180 5.7 Köhler Integration in Two Directions 195 5.8 Appendix 5. A Acceptance Angle of Square Concentrators 201 5.9 Appendix 5. В Polychromatic Efficiency 204 Acknowledgments 207 References 207 chapter 6 UGHTPIPE DESIGN 209 6.1 Background and Terminology 209 6.1.1 What is a Lightpipe 209 6.1.2 Lightpipe History 210 6.2 Lightpipe System Elements 211 6.2.1 Source/Coupling 211 6.2.2 Distribution/Transport 211 6.2.3 Delivery/Output 212 6.3 Lightpipe Ray Tracing 212 6.3.1 TIR 212 6.3.2 Ray Propagation 212 6.4 Charting 213 6.5 Bends 214 6.5.1 Bent Lightpipe: Circular Bend 214 6.5.1.1 Setup and Background 214 6.5.2 Bend Index for No Leakage 215 6.5.3 Reflection at the Output Face 216 6.5.4 Reflected Flux for a Specific Bend 217 6.5.5 Loss Because of an Increase in NA 218 6.5.6 Other Bends 219 6.6 Mixing Rods 220 6.6. 1 Overview 220 6.6.2 Why Some Shapes Provide Uniformity 221 6.6.3 Design Factors Influencing Uniformity 223 6.6.3.1 Length 223 6.6.3.2 Solid versus Hollow 223 6.6.3.3 Periodic Distributions 224 6.6.3.4 Coherence 224 X CONTENTS 6.6.3.5 Angular Uniformity 224 6.6.3.6 Circular Mixer with Ripples 225 6.6.4 RGB LEDs 226 6.6.4.1 RGB LEDs with Square Mixers 226 6.6.4.2 RGB LEDs with Circular Mixers 227 6.6.5 Tapered Mixers 228 6.6.5.1 Length 229 6.6.5.2 Straight Taper Plus Lens 229 6.6.5.3 Angular Uniformity 231 6.6.5.4 Straight + Diffuser + Taper 232 6.7 Backlights 233 6.7.1 Introduction 233 6.7.2 Backlight Overview 234 6.7.3 Optimization 235 6.7.4 Parameterization 235 6.7.4.1 Vary Number 236 6.7.4.2 Vary Size 236 6.7.5 Peak Density 237 6.7.6 Merit Function 237 6.7.7 Algorithm 238 6.7.8 Examples 239 6.7.8.1 Peaked Target Distribution 239 6.7.8.2 Border Extractors 240 6.7.8.3 Input Surface Texturing 241 6.7.8.4 Variable Depth Extractors 242 6.7.8.5 Inverted 3D Texture Structure 242 6.7.8.6 Key Pads 244 6.8 Nonuniform Lightpipe Shapes 245 6.9 Rod Luminaire 246 Acknowledgments 247 References 247 CHAPTER 7 SAMPLING, OPTIMIZATION, AND TOLERANCING 251 7.1 Introduction 251 7.2 Design Tricks 253 7.2. 1 Monte Carlo Processes 254 7.2.1.1 Monte Carlo Sources 254 7.2.1.2 Monte Carlo Ray Tracing 255 7.2.2 Reverse Ray Tracing 257 7.2.3 Importance Sampling 260 7.2.4 Far-Field Irradiance 263 7.3 Ray Sampling Theory 266 7.3.1 Transfer Efficiency Determination 266 7.3.2 Distribution Determination: Rose Model 268 7.4 Optimization 272 7.4.1 Geometrical Complexity 273 7.4.1.1 CAD Geometry 274 7.4.1.2 Variables and Parameterization 275 7.4.1.3 Object Overlap, Interference, Linking, and Mapping 277 CONTENTS XI 7.4.2 Merit Function Designation and Calculation 280 7.4.3 Optimization Methods 281 7.4.4 Fractional Optimization with Example: LED Collimator 282 7.5 Tolerancing 289 7.5.1 Types of Errors 290 7.5.2 System Error Sensitivity Analysis: LED Die Position Offset 290 7.5.3 Process Error Case Study: Injection Molding 291 References 297 ÍNDEX 299 A rare and valuable compendium of nonimaging/ illumination optics written by industry experts Within the past decade, the field of optical design has included the subf ield of illumination design. Visual illumination systems include displays, lighting, and the illuminator for photocopiers. Non-visual illumination systems include solar concentrators, optical laser pump cavities, and a number of optical sensor applications. With a main focus on the use of nonimaging optics in illumination systems, this informative book introduces a number of topics that have received little coverage in previously existing literature while expanding on the fundamental limits. Illumination Engineering: Design with Nonimaging Optics offers up an overview of the field of nonimaging and illumination optics and includes terminology, units, definitions, and descriptions of the optical components used in illumination systems. Editor R. John Koshel — a prominent figure in this field — provides material within the theoretical domain, including étendue, étendue squeezing, and the skew invariant while focusing on a growing number of applications. Presenting a wealth of material in an increasingly important area, this book provides: • Cutting-edge material in the field of nonimaging and illumination optics from experts within the field • A wide number of topics for practicing engineers and scientists to expand their knowledge into subfields within nonimaging and illumination optics • Extensive references that readers can employ to expand upon the presentations herein Illumination Engineering: Design with Nonimaging Optics is an ideal source for practicing illumination engineers and scientists, and graduate-level electrical engineering/optical engineering students. R. JOHN KOSHEL, PhD, is an adjunct professor at The University of Arizona Optical Sciences Center, where he teaches a course on illumination engineering, and a Vice President of the optical engineering consulting firm Photon Engineering, LLC. He frequently chairs at SPIE and OSA conferences and provides tutorials on nonimaging optics. He is a well-respected figure in the International optical engineering community and has published numerous papers. Cover Design: John Wiley & Sons, Inc. Cover Illustrations: Applications in displays, solid-state lighting, and solar energy courtesy of Ft. John Koshel IEEE PRESS Subscribe to our free Electrical Engineering «Newsletter at wi ley.com/enewslrtters ISBN 47fl-D-470-41140-S 90000 \| WILEY wiley.com Also available as ал e-book 9 11402
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publisher	IEEE Pr. [u.a.]
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spelling	Koshel, R. John Verfasser (DE-588)140944869 aut Illumination engineering design with nonimaging optics R. John Koshel Piscataway, N. J. [u.a.] IEEE Pr. [u.a.] 2013 XXI, 302 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Optical engineering Lighting TECHNOLOGY & ENGINEERING / Optics bisacsh Solarzelle (DE-588)4181740-0 gnd rswk-swf Lumineszenzdiode (DE-588)4125154-4 gnd rswk-swf Ray tracing (DE-588)4292517-4 gnd rswk-swf Berechnung (DE-588)4120997-7 gnd rswk-swf Fotovoltaik (DE-588)4121476-6 gnd rswk-swf Lichttechnik (DE-588)4035633-4 gnd rswk-swf Beleuchtung (DE-588)4112704-3 gnd rswk-swf Konzentrator Solartechnik (DE-588)4267934-5 gnd rswk-swf Sonnenenergie (DE-588)4055572-0 gnd rswk-swf Vektorrechnung (DE-588)4062471-7 gnd rswk-swf Lichttechnik (DE-588)4035633-4 s Ray tracing (DE-588)4292517-4 s DE-604 Berechnung (DE-588)4120997-7 s Vektorrechnung (DE-588)4062471-7 s Lumineszenzdiode (DE-588)4125154-4 s Beleuchtung (DE-588)4112704-3 s Fotovoltaik (DE-588)4121476-6 s Sonnenenergie (DE-588)4055572-0 s Solarzelle (DE-588)4181740-0 s Konzentrator Solartechnik (DE-588)4267934-5 s Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025775316&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Klappentext Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025775316&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Koshel, R. John Illumination engineering design with nonimaging optics Optical engineering Lighting TECHNOLOGY & ENGINEERING / Optics bisacsh Solarzelle (DE-588)4181740-0 gnd Lumineszenzdiode (DE-588)4125154-4 gnd Ray tracing (DE-588)4292517-4 gnd Berechnung (DE-588)4120997-7 gnd Fotovoltaik (DE-588)4121476-6 gnd Lichttechnik (DE-588)4035633-4 gnd Beleuchtung (DE-588)4112704-3 gnd Konzentrator Solartechnik (DE-588)4267934-5 gnd Sonnenenergie (DE-588)4055572-0 gnd Vektorrechnung (DE-588)4062471-7 gnd
subject_GND	(DE-588)4181740-0 (DE-588)4125154-4 (DE-588)4292517-4 (DE-588)4120997-7 (DE-588)4121476-6 (DE-588)4035633-4 (DE-588)4112704-3 (DE-588)4267934-5 (DE-588)4055572-0 (DE-588)4062471-7
title	Illumination engineering design with nonimaging optics
title_auth	Illumination engineering design with nonimaging optics
title_exact_search	Illumination engineering design with nonimaging optics
title_full	Illumination engineering design with nonimaging optics R. John Koshel
title_fullStr	Illumination engineering design with nonimaging optics R. John Koshel
title_full_unstemmed	Illumination engineering design with nonimaging optics R. John Koshel
title_short	Illumination engineering
title_sort	illumination engineering design with nonimaging optics
title_sub	design with nonimaging optics
topic	Optical engineering Lighting TECHNOLOGY & ENGINEERING / Optics bisacsh Solarzelle (DE-588)4181740-0 gnd Lumineszenzdiode (DE-588)4125154-4 gnd Ray tracing (DE-588)4292517-4 gnd Berechnung (DE-588)4120997-7 gnd Fotovoltaik (DE-588)4121476-6 gnd Lichttechnik (DE-588)4035633-4 gnd Beleuchtung (DE-588)4112704-3 gnd Konzentrator Solartechnik (DE-588)4267934-5 gnd Sonnenenergie (DE-588)4055572-0 gnd Vektorrechnung (DE-588)4062471-7 gnd
topic_facet	Optical engineering Lighting TECHNOLOGY & ENGINEERING / Optics Solarzelle Lumineszenzdiode Ray tracing Berechnung Fotovoltaik Lichttechnik Beleuchtung Konzentrator Solartechnik Sonnenenergie Vektorrechnung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025775316&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025775316&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT koshelrjohn illuminationengineeringdesignwithnonimagingoptics

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