Initial Design and Quick Analysis of SAW Ultra–Wideband HFM Transducers

Initial Design and Quick Analysis of SAW Ultra–Wideband HFM Transducers

This paper presents techniques for initial design and quick fundamental and harmonic operation analysis of surface acoustic waves ultra–wideband hyperbolically frequency modulated (HFM) interdigital transducer (IDT). The primary analysis is based on the quasi–static method. Quasi–electrostatic charg...

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Main Authors: A. Janeliauskas, V. Markevicius, D. Navikas, D. Andriukaitis, A. Valinevicius, M. Zilys
Format: Article
Language:English
Published: Spolecnost pro radioelektronicke inzenyrstvi 2017-09-01
Series:Radioengineering
Subjects:
Surface acoustic wave
SAW
hyperbolically frequency modulated waveforms
HFM
interdigital transducer
IDT
quasi–static method
Chebyshev polynomial approximation
Green’s function
interdigital chirp filter
harmonics' operation
Online Access:https://www.radioeng.cz/fulltexts/2017/17_03_0682_0690.pdf
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spelling doaj-1c9036a636914f12a9b5fce4b531deff2020-11-25T00:40:25ZengSpolecnost pro radioelektronicke inzenyrstviRadioengineering1210-25122017-09-01263682690Initial Design and Quick Analysis of SAW Ultra–Wideband HFM TransducersA. JaneliauskasV. MarkeviciusD. NavikasD. AndriukaitisA. ValineviciusM. ZilysThis paper presents techniques for initial design and quick fundamental and harmonic operation analysis of surface acoustic waves ultra–wideband hyperbolically frequency modulated (HFM) interdigital transducer (IDT). The primary analysis is based on the quasi–static method. Quasi–electrostatic charge's density distribution was approximated by Chebyshev polynomials and the method of Green’s function. It assesses the non uniform charge distribution of electrodes, electric field interaction and the end effects of a whole transducer. It was found that numerical integration (e.g. Romberg, Gauss–Chebyshev) requires a lot of machine time for calculation of the Chebyshev polynomial and the Green’s function convolution when integration includes coordinates of a large number of neighboring electrodes. In order to accelerate the charge density calculation, the analytic expressions are derived. Evaluation of HFM transducer fundamental and harmonics' operation amplitude response with simulation single–dispersive interdigital chirp filter structure is presented. Elapsed time of HFM IDT with 589 electrodes simulations and 2000 frequency response point is only 54 seconds (0.027 s/point) on PC with CPU Intel Core I7–4770S. Amplitude response is compared with linear frequency modulated (LFM) IDT response. It was determined that the HFM transducer characteristic is less distorted in comparison with LFM transducer.https://www.radioeng.cz/fulltexts/2017/17_03_0682_0690.pdfSurface acoustic waveSAWhyperbolically frequency modulated waveformsHFMinterdigital transducerIDTquasi–static methodChebyshev polynomial approximationGreen’s functioninterdigital chirp filterharmonics' operation
collection DOAJ
language English
format Article
sources DOAJ
author A. Janeliauskas
V. Markevicius
D. Navikas
D. Andriukaitis
A. Valinevicius
M. Zilys
spellingShingle A. Janeliauskas
V. Markevicius
D. Navikas
D. Andriukaitis
A. Valinevicius
M. Zilys
Initial Design and Quick Analysis of SAW Ultra–Wideband HFM Transducers
Radioengineering
Surface acoustic wave
SAW
hyperbolically frequency modulated waveforms
HFM
interdigital transducer
IDT
quasi–static method
Chebyshev polynomial approximation
Green’s function
interdigital chirp filter
harmonics' operation
author_facet A. Janeliauskas
V. Markevicius
D. Navikas
D. Andriukaitis
A. Valinevicius
M. Zilys
author_sort A. Janeliauskas
title Initial Design and Quick Analysis of SAW Ultra–Wideband HFM Transducers
title_short Initial Design and Quick Analysis of SAW Ultra–Wideband HFM Transducers
title_full Initial Design and Quick Analysis of SAW Ultra–Wideband HFM Transducers
title_fullStr Initial Design and Quick Analysis of SAW Ultra–Wideband HFM Transducers
title_full_unstemmed Initial Design and Quick Analysis of SAW Ultra–Wideband HFM Transducers
title_sort initial design and quick analysis of saw ultra–wideband hfm transducers
publisher Spolecnost pro radioelektronicke inzenyrstvi
series Radioengineering
issn 1210-2512
publishDate 2017-09-01
description This paper presents techniques for initial design and quick fundamental and harmonic operation analysis of surface acoustic waves ultra–wideband hyperbolically frequency modulated (HFM) interdigital transducer (IDT). The primary analysis is based on the quasi–static method. Quasi–electrostatic charge's density distribution was approximated by Chebyshev polynomials and the method of Green’s function. It assesses the non uniform charge distribution of electrodes, electric field interaction and the end effects of a whole transducer. It was found that numerical integration (e.g. Romberg, Gauss–Chebyshev) requires a lot of machine time for calculation of the Chebyshev polynomial and the Green’s function convolution when integration includes coordinates of a large number of neighboring electrodes. In order to accelerate the charge density calculation, the analytic expressions are derived. Evaluation of HFM transducer fundamental and harmonics' operation amplitude response with simulation single–dispersive interdigital chirp filter structure is presented. Elapsed time of HFM IDT with 589 electrodes simulations and 2000 frequency response point is only 54 seconds (0.027 s/point) on PC with CPU Intel Core I7–4770S. Amplitude response is compared with linear frequency modulated (LFM) IDT response. It was determined that the HFM transducer characteristic is less distorted in comparison with LFM transducer.
topic Surface acoustic wave
SAW
hyperbolically frequency modulated waveforms
HFM
interdigital transducer
IDT
quasi–static method
Chebyshev polynomial approximation
Green’s function
interdigital chirp filter
harmonics' operation
url https://www.radioeng.cz/fulltexts/2017/17_03_0682_0690.pdf
work_keys_str_mv AT ajaneliauskas initialdesignandquickanalysisofsawultrawidebandhfmtransducers
AT vmarkevicius initialdesignandquickanalysisofsawultrawidebandhfmtransducers
AT dnavikas initialdesignandquickanalysisofsawultrawidebandhfmtransducers
AT dandriukaitis initialdesignandquickanalysisofsawultrawidebandhfmtransducers
AT avalinevicius initialdesignandquickanalysisofsawultrawidebandhfmtransducers
AT mzilys initialdesignandquickanalysisofsawultrawidebandhfmtransducers
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