1.

Record Nr.

UNINA9911004809803321

Autore

Schaub Michael P

Titolo

The design of plastic optical systems / / Michael P. Schaub

Pubbl/distr/stampa

Bellingham, Wash., : SPIE Press, c2009

ISBN

1-61583-711-6

0-8194-7890-3

Descrizione fisica

1 online resource (226 p.)

Collana

Tutorial texts series ; ; v. TT80

Disciplina

681/.4

Soggetti

Plastic lenses

Optical instruments - Design and construction

Plastics - Optical properties

Optical materials

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

Description based upon print version of record.

Nota di bibliografia

Includes bibliographical references and index.

Nota di contenuto

Preface -- Acknowledgments -- Chapter 1. Introduction -- 1.1. Background -- 1.2. When are plastic optics appropriate? -- Chapter 2. Optical plastics -- 2.1. Plastic versus glass maps -- 2.2. Material properties -- 2.3. Material selection -- 2.4. Material specification -- Chapter 3. Manufacturing methods -- 3.1. Casting -- 3.2. Embossing and compression molding -- 3.3. Machining -- 3.4. Injection molding -- Chapter 4. Design guidelines -- 4.1. Design basics -- 4.2. Tolerances -- 4.3. Plastic versus glass -- 4.4. Shape and thickness -- 4.5. Aspheric surfaces -- 4.6. Diffractive surfaces -- 4.7. Athermalization -- 4.8. Coatings -- 4.9. Optomechanical design -- 4.10. Stray light -- 4.11. Special considerations for small and large parts -- 4.12. Drawings -- 4.13. Vendors and vendor interaction

Chapter 5. Design examples -- 5.1. Singlet lens -- 5.2. Webcams -- 5.3. Cell phone camera -- 5.4. Infrared multiorder or harmonic diffractive lens -- Chapter 6. Testing -- 6.1. Parameters, equipment, and techniques -- 6.2. Making testing easier -- Chapter 7. Prototyping -- 7.1. Optics -- 7.2. Mechanical parts -- 7.3. Assembly and test -- Chapter 8. Production -- 8.1. Transition to production -- 8.2. Steady-state production -- References -- Index.

Sommario/riassunto

Many items we use in our daily lives-the traffic signals, motion sensors,



fingerprint readers, cell phone cameras, bar code scanners, and DVD players-rely upon plastic optical systems to perform. Consequently, there is a growing need for individuals who are knowledgeable in the design, development, and production of such systems. This book provides an overview of the design of plastic optical systems and is structured along the lines of a typical development project. Following a brief background discussion, the advantages and disadvantages of plastic optics are considered. Next, the available materials and their properties are described, as well as the issues of material selection and specification. Various manufacturing methods are reviewed, followed by a chapter on design guidelines, leading into several design examples. Following the examples, the prototyping and testing of a design is covered. Finally, bringing the design to production is discussed. Several groups will benefit from the material presented, including optical engineers, technical managers, and engineers of other disciplines who need to design and develop plastic optical systems but lack the knowledge or training to do so. With the help of this book, readers should understand the benefits and limitations of plastic optical systems and be able to determine if this technology is appropriate for their applications. They will have the basic knowledge to undertake the design of these systems, should they choose to do so themselves, or they will be able to have the appropriate conversations with the individuals or companies they ask to perform the work.