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 | | Filters, Band Pass, SAW |
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A surface acoustic wave (SAW) is an acoustic wave traveling along the surface of a material having some elasticity, with an amplitude that typically decays exponentially with the depth of the substrate. This kind of wave is commonly used in piezoelectric devices called SAW devices in electronics circuits. SAW devices are employed as filters, oscillators and transformers based on the transduction of acoustic waves.
Discovered in 1887 by Lord Rayleigh who reported the surface acoustic wave mode of propagation and in his classic paper predicted the properties of these waves. Named for their discoverer, Rayleigh waves have a longitudinal and a vertical shear component that can couple with a medium in contact with the deviceÕs surface. This coupling strongly affects the amplitude and velocity of the wave allowing SAW sensors to directly sense mass and mechanical properties.
Electronic devices employing the SAW normally utilize one or more interdigital transducers (IDTs) to convert acoustic wave to electrical signal and vice versa utilizing the piezoelectric effect of certain materials (quartz, lithium niobate, lithium tantalate, LGS etc). These devices are fabricated utilizing common processes used in the manufacture of silicon integrated circuits.
SAW filters have enjoyed successful application in the booming cellular telephones market and provide significant advantages in performance, cost, and size over other filter technologies (digital signal processors, quartz crystals (bulk wave) , LC filters, and waveguide filters).
Significant research has been done in the last 20 years in the area of surface acoustic wave sensors. Sensor applications include all areas of sensing (such as chemical, optical, thermal, pressure, acceleration, torque and biological). SAW sensors have seen limited commercial success to date but are commonly commercially available for some applications such as touchscreen displays.
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| Bronze Partners |
| Agere Systems |
| Anatech Electronics, Inc. |
| Blonder Tongue Labs Inc |
| C-MAC Industries Inc |
| EK Magnetics |
| Electrocube, Inc. |
| Goguen Industries Inc. |
| HEC, Inc. |
| Hitachi America, Limited |
| Inductive Technologies |
| Integration Assocs. Inc. |
| LCR Electronics, Inc. |
| Linear Technology Corp. |
| Microphase Corporation |
| Motorola Ceramic Products |
| Murata Electronics North America, Inc. |
| NDK America, Inc |
| NDK America, Inc. |
| Oscilent Corporation |
| Phonon Corporation |
| Pulse, A Technitrol Company |
| R F MONOLITHICS INC |
| Raltron Electronics |
| Rsm Sensitron Semiconductor |
| SaRonix Inc., A Pericom Company |
| Sawtek Inc. |
| Worldbond Piezo-Electric Corp. |
| Books |
RF System Design of Transceivers for Wireless Communications
Qizheng Gu
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| Excerpt - page 98: "... station receiver is usually filtered by means of an IF SAW band pass filter and/or an analog base-band low-pass filter in the frequency conversion ..." | | See more references to Filters, Band Pass, SAW in this book. |
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Audio and Hi-Fi Handbook
Ian Sinclair
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| Excerpt - page 199: "... of the element. In the transversal or bandpass type of filter, the practicable range of operating ... kHz. The resonant type of SAW device can operate from a ... An important quality of wide pass-band SAW filters is that the phase and attenuation characteristics can ..." | | See more references to Filters, Band Pass, SAW in this book. |
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Audio Electronics, Second Edition
John Linsley Hood
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| Excerpt - page 84: "... overtones. The type of performance characteristic offered by a bandpass SAW device, operating at a centre frequency of 10.7 MHz, is shown in Fig. 2.20. An important quality of wide pass-band SAW filters is that the phase and attenuation characteristics can be separately ..." | | See more references to Filters, Band Pass, SAW in this book. |
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Architectures for RF Frequency Synthesizers (The International Series in Engineering and Computer Science)
Cicero S. Vaucher
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| Excerpt - page 100: "... Figure 4-1(a). The channel selectivity is accomplished in the IF filter, normally an external band-pass SAW filter. In order to attenuate the RF image frequency, a ..." | | See more references to Filters, Band Pass, SAW in this book. |
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TCP/IP Embedded Internet Applications
Edward Insam
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| Excerpt - page 139: "... of about 280 MHz. This is fed to an IF SAW band pass filters with a bandwidth of about 17 MHz, which is just ..." | | See more references to Filters, Band Pass, SAW in this book. |
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Structure and Imperfections in Amorphous and Crystalline Silicon Dioxide
R. A. B. Devine, J.-P. Duraud, and E. Dooryhée
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| Excerpt - page 441: "... their energy is dissipated. It is possible to manufacture AT-cut filter crystals with greater than 40 dB attenuation of the unwanted modes relative to the main response. SAW band-pass filters are used in applications such as television receiver intermediate ..." | | See more references to Filters, Band Pass, SAW in this book. |
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Aviation Maintenance Technician Series: Powerplant (Aviation Maintenance Technician S.)
Dale Crane
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| Excerpt - Index: "... ball peen hammer ......... ................ 766 ballast ............................ ................ 438 band saw ....................... ................ 746 band-pass filter ............. ................ 238 band-reject filter ........... ........ 238,239 barometer ...................... ..." | | See more references to Filters, Band Pass, SAW in this book. |
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Advances in Surface Acoustic Wave Technology, Systems and Applications Volume 2
Clemens C. W. Ruppel and Tor A. Fjeldly
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| Excerpt - page 80: "... T. Matsuda, T. Nishihara, and Y. Satoh, "Development of low-loss band-pass filters using SAW resonators for portable telephones", in Proc. 1992 IEEE Ultrason. Symp., ..." | | See more references to Filters, Band Pass, SAW in this book. |
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Frequency Selective Surfaces: Theory and Design
Ben A. Munk
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| Excerpt - page 279: "... 8.1 INTRODUCTION In the previous chapter we investigated designs of band-pass filters. We saw how they in general were made from slotted surfaces sandwiched ..." | | See more references to Filters, Band Pass, SAW in this book. |
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Random Vibration (Mechanical Vibration and Shock)
C. Lalanne and Christian Lalanne
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| Excerpt - page 110: "... 2 '- Jo p2(T) dT T Particular cases 1. Rectangular band-pass filter We saw [2.70] that in this case [MOR 58]: p(2) - cos ..." | | See more references to Filters, Band Pass, SAW in this book. |
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Piezoelectricity (Key Papers in Physics)
Carol Zwick Rosen, Basavaraj V. Hiremath, and Robert E. Newnham
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| Excerpt - page 305: "... generally very high. It is easy to make a wide band filter by using a material whose ... Ceramic resonators for LF range. SAW filters show the characteristic that group delay time is flat within their pass band. Although SAW filters have a great disadvantage in princi- ..." | | See more references to Filters, Band Pass, SAW in this book. |
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Smart Sensors and MEMS
Sergey Y. Yurish, Maria T. S. R. Gomes, and Maria Teresa S.R. Gomes
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| Excerpt - page 163: "... Elke Mackensen and Leonhard Reindl 163 1.4 Classical SAW Based Band Pass Filter Figure 6 depicts a typical classical SAW filter. It consists ..." | | See more references to Filters, Band Pass, SAW in this book. |
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The Transforms and Applications Handbook, Second Edition
Alexander D. Poularikas
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| Excerpt - page 680: "... ---------------- OUT FIGURE 7.21.20 A SAW filter implementing the band-pass Hilbert transformer of Figure 7.21.19. where Fo is the carrier ..." | | See more references to Filters, Band Pass, SAW in this book. |
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