Advances in surface acoustic wave technology, systems and applications. Voume 2 /

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Surface acoustic wave (SAW) devices are recognized for their versatility and efficiency in controlling and processing electrical signals. This has resulted in a multitude of device concepts for a wide range of signal processing functions, such as delay lines, filters, resonators, pulse compressors,...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Ruppel, Clemens C. W., 1952-, Fjeldly, Tor A.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Singapore ; Hong Kong : World Scientific, 2001.
Colección:Selected topics in electronics and systems ; vol. 20.
Temas:
Acoustic surface wave devices.
Nuclear engineering.
Dispositifs à ondes acoustiques de surface.
Génie nucléaire.
TECHNOLOGY & ENGINEERING > Telecommunications.
Acoustic surface wave devices
Nuclear engineering
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Preface; Special Issue EDITORS; CONTENTS; Coupling-of-modes Analysis of SAW Devices; 1. Introduction; 2. COM Model for Surface-Acoustic Waves; 3. Improvements and Modifications of the COM Model; 4. Extraction of COM Parameters; 5. Device Modeling and Design; 6. Conclusions and Future Challenges; Theory and Applications of Green's Functions; 1. Introduction; 2. On the Diagonalization of Piezoelectric Equations in Transversally Inhomogeneous Media; 3. A Discussion on Green's Functions; 4. Summary; New Piezoelectric Substrates for SAW Devices; 1. Introduction.
  • 2. Quartz Homeotypes
  • Gallium Orthophosphate3. Calcium Gallo-Germanates
  • Langasite Langanite and Langatate; 4. Lithium Compounds
  • Diomignite; Pseudo and High Velocity Pseudo SAWs; 1. Introduction; 2. Fundamentals of Pseudo SAWS; 3. Characteristics of PSAW and HVPSAW Solutions; 4. Layered Solutions; 5. Conclusions; SAW Devices Beyond 5 GHz; 1. Introduction; 2. Propagation Loss in the GHz-Range for SAW Devices; 3. Influence of Electrode Resistance in SAW Devices; 4. Fabrication Process; 5. SAW Filter Using Unidirectional Transducer Beyond 5 GHz; 6. Ladder Type Filter; 7. Prospective.
  • 8. ConclusionsWireless SAW Identification and Sensor Systems; 1. Introduction; 2. Passive Wireless SAW ID Tags and Sensors; 3. SAW Identification and Sensor Systems; 4. Event-Driven SAW Sensors; 5. Measurement Accuracy; Interaction of Surface Acoustic Waves Electrons and Light; 1. Introduction; 2. Electrical boundary conditions for SAW in two dimensions; 3. SAW probing the dynamic conductivity of low-dimensional electron systems; 4. Hybrid systems; 5. Interaction between SAW and light; 6. Summary and future prospects; 7. Acknowledgments.

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