This paper proposes an ultrasonic system based on an innovative piezoelectric device, the Frequency Steerable Acoustic Transducer (FSAT). The FSAT’s high directivity can be exploited for structural inspection, and through-metal data communication and wireless power transfer. These three func- tions are fundamental in an autonomous sensor system developed for condition monitoring, which is a central requirement in many sectors, such as automotive. A novel pulser, made up of a signal generator and a power amplifier, has been designed and simulated, for effectively driving the FSAT transducer. Experimental results showed that the designed power amplifier is able to reach a gain of 17.80 dB driving the piezoelectric transducer with a maximum peak-to-peak voltage of 24 V and that its bandwidth is [3.1-964] kHz. Experiments have been carried out showing a great improvement in trasmission using the designed amplifier.
Taccetti, S., Peppi, L.M., Zonzini, F., Mohammadgholiha, M., Zauli, M., De Marchi, L. (2023). Design of a Novel Pulser for Frequency Selective-based Power and Data Transmission [10.1109/MetroAutomotive57488.2023.10219099].
Design of a Novel Pulser for Frequency Selective-based Power and Data Transmission
Taccetti, Stefano
;Peppi, Lorenzo Mistral;Zonzini, Federica;Mohammadgholiha, Masoud;Zauli, Matteo;De Marchi, Luca
2023
Abstract
This paper proposes an ultrasonic system based on an innovative piezoelectric device, the Frequency Steerable Acoustic Transducer (FSAT). The FSAT’s high directivity can be exploited for structural inspection, and through-metal data communication and wireless power transfer. These three func- tions are fundamental in an autonomous sensor system developed for condition monitoring, which is a central requirement in many sectors, such as automotive. A novel pulser, made up of a signal generator and a power amplifier, has been designed and simulated, for effectively driving the FSAT transducer. Experimental results showed that the designed power amplifier is able to reach a gain of 17.80 dB driving the piezoelectric transducer with a maximum peak-to-peak voltage of 24 V and that its bandwidth is [3.1-964] kHz. Experiments have been carried out showing a great improvement in trasmission using the designed amplifier.| File | Dimensione | Formato | |
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