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In this paper the design of broad-band Polyvinylidene Fluoride (PVDF) based piezoelectric ultrasound transducer is presented. A Finite Element Model (FEM) is used to simulate here PVDF ultrasonic transducers. Based on this FEM, the relationship between the Physical structure and properties of PVDF transducer are studied both in simulation and experiment. It shows that the center frequency and many other property parameters of PVDF ultrasonic transducers are strongly related to its physical structures of it. Finally, the simulation result shows the resonant frequency of (54MHz) and sensitivity of (3.6uV/Pa). A prototype multi-channel arrays 0.3mm x 10 mm active area has been fabricated and experimentally validated its preliminary results in terms of electrical and acoustic properties.

Baig, M., Vallicelli, E., Chirico, G., Tambaro, M., Stevenazzi, L., De Matteis, M. (2023). 56-MHz-Bandwidth 2.4-3.5 μv/Pascal-Sensitivity-Range Polyvinylidene Fluoride Ultrasound Sensor Array for Biomedical Thermoacoustic Imaging. In 2023 18th Conference on Ph.D Research in Microelectronics and Electronics (PRIME) (pp.113-116). IEEE [10.1109/PRIME58259.2023.10161987].

56-MHz-Bandwidth 2.4-3.5 μv/Pascal-Sensitivity-Range Polyvinylidene Fluoride Ultrasound Sensor Array for Biomedical Thermoacoustic Imaging

Baig, MH;Vallicelli, EA;Chirico, G;Tambaro, M;Stevenazzi, L;De Matteis, M

2023

Abstract

In this paper the design of broad-band Polyvinylidene Fluoride (PVDF) based piezoelectric ultrasound transducer is presented. A Finite Element Model (FEM) is used to simulate here PVDF ultrasonic transducers. Based on this FEM, the relationship between the Physical structure and properties of PVDF transducer are studied both in simulation and experiment. It shows that the center frequency and many other property parameters of PVDF ultrasonic transducers are strongly related to its physical structures of it. Finally, the simulation result shows the resonant frequency of (54MHz) and sensitivity of (3.6uV/Pa). A prototype multi-channel arrays 0.3mm x 10 mm active area has been fabricated and experimentally validated its preliminary results in terms of electrical and acoustic properties.

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	Tipo di intervento
	
			paper
		
	Parole chiave
	
			Circuits and Systems for Biomedical Applications; Radiation Therapy; Ultrasound Sensors;
		
	Lingua del contenuto
	
			English
		
	Nome del convegno
	
			IEEE 28th conference on Ph.D. Research in Microelectronics and Electronics (PRIME) - 18 June 2023 through 21 June 2023
		
	Anno del convegno
	
			2023
		
	Titolo degli atti
	
			2023 18th Conference on Ph.D Research in Microelectronics and Electronics (PRIME)
		
	ISBN del volume degli atti
	
			9798350303209
		
	Data di pubblicazione
	
			2023
		
	Pagina iniziale
	
			113
		
	Pagina finale
	
			116
		
	DOI dell'intervento
	
			https://dx.doi.org/10.1109/PRIME58259.2023.10161987
		
	Fulltext
	
			none
		
	Citazione
	
			Baig, M., Vallicelli, E., Chirico, G., Tambaro, M., Stevenazzi, L., De Matteis, M. (2023). 56-MHz-Bandwidth 2.4-3.5 μv/Pascal-Sensitivity-Range Polyvinylidene Fluoride Ultrasound Sensor Array for Biomedical Thermoacoustic Imaging. In 2023 18th Conference on Ph.D Research in Microelectronics and Electronics (PRIME) (pp.113-116). IEEE [10.1109/PRIME58259.2023.10161987].
		
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			02 - Intervento a convegno

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/466042

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