Surface Acoustic Wave Filters
With Applications to Electronic Communications and Signal Processing
2nd Edition
Published on 21. June 2007
Book
Hardback
448 pages
978-0-12-372537-0 (ISBN)
Description
Surface Acoustic Wave Filters gives the fundamental principles and device design techniques for surface acoustic wave filters. It covers the devices in widespread use today: bandpass and pulse compression filters, correlators and non-linear convolvers and resonators. The newest technologies for low bandpass filters are fully covered such as unidirectional transducers, resonators in impedance element filters, resonators in double-mode surface acoustic wave filters and transverse-coupled resonators using waveguides.
The book covers the theory of acoustic wave physics, the piezoelectric effect, electrostatics at a surface, effective permittivity, piezoelectric SAW excitation and reception, and the SAW element factor. These are the main requirements for developing quasi-static theory, which gives a basis for the non-reflective transducers in transversal bandpass filters and interdigital pulse compression filters. It is also needed for the reflective transducers used in the newer devices.
The book covers the theory of acoustic wave physics, the piezoelectric effect, electrostatics at a surface, effective permittivity, piezoelectric SAW excitation and reception, and the SAW element factor. These are the main requirements for developing quasi-static theory, which gives a basis for the non-reflective transducers in transversal bandpass filters and interdigital pulse compression filters. It is also needed for the reflective transducers used in the newer devices.
More details
Series
Edition
2nd edition
Language
English
Place of publication
San Diego
United States
Publishing group
Elsevier Science Publishing Co Inc
Target group
Professional and scholarly
R&D electrical and electronic engineers developing electronic systems (with applications mainly in mobile communications, radar and broadcasting) using surface acoustic wave devices; academic researchers; graduate level electrical and electronic engineering students.
Edition type
New edition
Illustrations
Approx. 100 illustrations; Illustrations
Dimensions
Height: 234 mm
Width: 156 mm
Weight
850 gr
ISBN-13
978-0-12-372537-0 (9780123725370)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
David Morgan
Surface Acoustic Wave Filters
With Applications to Electronic Communications and Signal Processing
E-Book
07/2010
2nd Edition
Academic Press
€93.95
Available for download
Person
David P. Morgan received a Ph.D. degree in Electrical Engineering from London University, for work on radar pulse compression using Surface Acoustic Waves. Since then he has been involved in research and development in a wide variety of topics, mostly in SAW, working at Nippon Electric Company (Kawasaki) 1970-71, University of Edinburgh 1971-77 and Plessey Research Caswell (Northampton, UK) 1977-86, where he was Group Leader for Surface Acoustic Waves. He is now a Consultant in this area. Dr. Morgan is author of the well-known text 'Surface Wave Devices for Signal Processing', and has also published over 100 technical papers. His knowledge of the SAW area has led to his being invited to lecture on the subject in the U.S., Russia, Finland, Japan, China and Korea. He is a Life Senior Member of the IEEE.
Content
1. Basic Survey
2. Acoustic waves in elastic solids
3. Electrical excitation at a plane surface
4. Propagation effects and materials
5. Non-reflective transducers
6. Bandpass filtering using non-reflective transducers
7. Correlators for pulse compression radar and communications
8. Reflective gratings and transducers
9. Unidirectional transducers and their application to bandpass filtering
10. Waveguides and transversely-coupled resonator (TCR) filters
11. Resonators and resonator filters
Appendix
A. Fourier transforms and linear filters
B. Reciprocity
C. Elemental charge density for regular electrodes
D. P-matrix relations
E. Electrical loading in an array of regular electrodes
2. Acoustic waves in elastic solids
3. Electrical excitation at a plane surface
4. Propagation effects and materials
5. Non-reflective transducers
6. Bandpass filtering using non-reflective transducers
7. Correlators for pulse compression radar and communications
8. Reflective gratings and transducers
9. Unidirectional transducers and their application to bandpass filtering
10. Waveguides and transversely-coupled resonator (TCR) filters
11. Resonators and resonator filters
Appendix
A. Fourier transforms and linear filters
B. Reciprocity
C. Elemental charge density for regular electrodes
D. P-matrix relations
E. Electrical loading in an array of regular electrodes