Kenneth R. Laker - Staten Island NY Thomas L. Szabo - Boston MA Andrew J. Slobodnik - Malden MA
Assignee:
The United States of America as represented by the Secretary of the Air Force - Washington DC
International Classification:
H01L 4110
US Classification:
310313
Abstract:
Passband distortion due to mass loading in withdrawal weighted surface acoustic wave transducers is substantially reduced by a thinning technique in which interdigital transducer electrodes are selectively withdrawn to synthesize a response function H. sub. o '(N). H. sub. o '(N) is a modified response function that has been scaled from a desired response function H. sub. o (N) by a thinning factor THIN. THIN is a positive, non-zero constant with a maximum value of unity. Thinned withdrawal weighted transducers fabricated in accordance with the technique have electrode weights that are normalized to less than unity and achieve mass loading reduction with a minimum amount of degradation of the desired response function.
Vmware
Senior Solutions Engineer
Vmware
Systems Engineer
Lenovo Oct 2014 - Sep 2015
Enterprise Systems Technical Specialist
Ibm Oct 2012 - Sep 2014
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Exigent Technologies Nov 2009 - Oct 2012
Solutions Architect | Senior Systems Engineer
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Rider University
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