Improving APT Systems’ Performance in Air via Impedance Matching and 3D-Printed Clamp

Abstract: This paper presents a study on improving the performance of the acoustic piezoelectric transducer system in air, as the low acoustic impedance of air leads to suboptimal system performance. Impedance matching techniques can enhance the acoustic power transfer (APT) system’s performance in air. This study integrates an impedance matching circuit into the Mason circuit and investigates the impact of fixed constraints on the piezoelectric transducer’s sound pressure and output voltage. Additionally, this paper pr… Show more

“…Liu and Abdulla [ 8 ] introduced an improved acoustic power transfer (APT) system by proposing a 3D-printable and cost-efficient piezoelectric transducer equilateral triangular peripheral clamp. This study integrates an impedance matching circuit into the Mason circuit and investigates the impact of fixed constraints on the piezoelectric transducer’s sound pressure and output voltage.…”

Special Issue on Acoustic Sensors and Their Applications (Vol. 1)

“…Liu and Abdulla [ 8 ] introduced an improved acoustic power transfer (APT) system by proposing a 3D-printable and cost-efficient piezoelectric transducer equilateral triangular peripheral clamp. This study integrates an impedance matching circuit into the Mason circuit and investigates the impact of fixed constraints on the piezoelectric transducer’s sound pressure and output voltage.…”

Special Issue on Acoustic Sensors and Their Applications (Vol. 1)