The Effect of Electrical Impedance Matching on the Electromechanical Characteristics of Sandwiched Piezoelectric Ultrasonic Transducers

Yang, Yuan; Wei, Xiaoyuan; Zhang, Lei; Yao, Wenqing

doi:10.3390/s17122832

Cited by 29 publications

(15 citation statements)

References 26 publications

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“…These customized ultrasonic longitudinal-wave probes [21,22] with a central frequency of 30 kHz are installed using the dual-probe echo method. The signals are acquired and displayed using an oscilloscope (Tektronix MD04104) and the waves are recorded and the data are captured using a wave recorder (HIOKI MR8875-30), as shown in Figure 4b.…”

Section: Methodsmentioning

confidence: 99%

The Study of Non-Detection Zones in Conventional Long-Distance Ultrasonic Guided Wave Inspection on Square Steel Bars

et al. 2018

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Abstract:In a low-frequency ultrasonic guided wave dual-probe flaw inspection of a square steel bar with a finite length boundary, the flaw reflected pulse wave cannot be identified using conventional time monitoring when the flaw is located near the reflection terminal; therefore, the conventional ultrasonic echo method is not applicable and results in a non-detection zone. Using analysis and simulations of ultrasonic guided waves for the inspection of a square steel bar, the reasons for the appearance of the non-detection zone and its characteristics were analyzed and the range of the non-detection zone was estimated. Subsequently, by extending the range of the conventional detection time domain, the envelope of the specific reflected pulse signal was extracted by a combination of simulations and related envelope calculations to solve the problem of the non-detection zone in conventional inspection methods. A comparison between the simulation and the experimental results demonstrate that the solution is feasible. This study has certain practical significance for ultrasonic guided wave structural monitoring.

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Section: Methodsmentioning

confidence: 99%

The Study of Non-Detection Zones in Conventional Long-Distance Ultrasonic Guided Wave Inspection on Square Steel Bars

et al. 2018

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“…The final publication is available at Taylor & Francis Group via http:dx.doi.org/10.1080/10739149.2018.1518876 coefficient and a high dielectric constant. In addition to its good electromechanical properties, it allows good electrical matching to cables and electronics (which are typically at 50 to 80 Ω [11] ).…”

Section: Active Elementmentioning

confidence: 99%

“…Equation (11) represents the acoustic signal that travels through the propagation medium, and is received by the target transducer. Since the transmitter and receiver transducers are identical, the form of the electric signal induced in the receiver transducer will be the solution of an underdamped oscillator (with the same physical parameters as the transmitter transducer), under an external force driven by the acoustic signal given by Equation (11). That is,…”

Section: Heaviside Step Function a Transient Particular Solution Of mentioning

confidence: 99%

Design and characterization of immersion ultrasonic transducers for pulsed regime applications

Suñol

Ochoa

Suñé

et al. 2018

Instrumentation Science & Technology

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Ultrasonic transducer design is focused to maximize performance in specific applications, usually leading to a complex design and expensive construction and assembly. With the aim to overcome this drawback, a generalpurpose immersion ultrasonic transducer for pulsed regime applications have been developed. The design of each element of the transducer is described in this paper, wherein materials and geometries for each part have been recommended. A simple theoretical model have been proposed in order to predict the form of the received electric signal in the target transducer. The model is based in the assumption that the piezoelectric element acts as an underdamped oscillator, forced by the acoustic field coming from the propagation medium. Excellent agreement between the experimental measurements and the analytical model is achieved. Electrical impedance measurements reveal negligible differences between the resonance frequency of the active element and that of the assembled transducer. The designed devices have been characterized in water, using two identical transducers placed face to face with changeable orientation. Experimental results show a highly linear response and the generation of a collimated acoustic field. The effects of the thickness of the matching layer on the transmission coefficient have been also studied, resulting in a smooth decrease in the received amplitude, which may significantly lower largescale production costs. . contributed in the design, modeling and assembly of the transducer, performed experimental measurements, data analysis, and wrote the paper. Diego A. O. contributed significantly to the design and fabrication of the transducers, and provided helpful scientific support. Laura R. S. assembled the transducers and performed experimental measurements. Jose E. G. have supervised this work, which included participating in discussions, planning and designing the experiments and refining the manuscript.

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“…However, is not equal to due to the presence of the parallel capacitance [17]. Although, can be compensated by matching networks with additional reactive components [7,20,21], the fluctuations of load, inductance and capacitance will cause the matching network invalid resulting in deviation of tracking results. Moreover, the PLL methods can also cause other serious problems, such as anti-resonance frequency tracking and loss of lock [14].…”

Section: Introductionmentioning

confidence: 99%

A Novel Fast Resonance Frequency Tracking Method Based on the Admittance Circle for Ultrasonic Transducers

Wang

Jiajia

Duan

et al. 2020

IEEE Trans. Ind. Electron.

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For ultrasonic systems, the resonance frequency tracking (RFT) is the most critical step. The rapid development in advanced material processing and microelectronics package has increased the demand of high speed RFT. Therefore, this paper proposes a fast RFT (FRFT) method according to the characteristics of piezoelectric transducers' (PT) admittance circle. In the proposed method, the PT is driven at two different frequencies, and the PT's admittance is collected and calibrated. Then, the PT's mechanical resonance frequency is derived using the admittance information after calibration. The proposed method is not affected by the parallel capacitor and the matching circuit. Additionally, the optimal initial values of the involved parameters are determined in order to improve the accuracy of the proposed method. Furthermore, an improved method based on multiple tracking is also provided. Simulations and experiments demonstrate that using the proposed FRFT method, the ultrasonic system can track the resonance frequency in a short time with high accuracy.

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The Effect of Electrical Impedance Matching on the Electromechanical Characteristics of Sandwiched Piezoelectric Ultrasonic Transducers

Cited by 29 publications

References 26 publications

The Study of Non-Detection Zones in Conventional Long-Distance Ultrasonic Guided Wave Inspection on Square Steel Bars

The Study of Non-Detection Zones in Conventional Long-Distance Ultrasonic Guided Wave Inspection on Square Steel Bars

Design and characterization of immersion ultrasonic transducers for pulsed regime applications

A Novel Fast Resonance Frequency Tracking Method Based on the Admittance Circle for Ultrasonic Transducers

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