Dynamic resonant frequency ratio control for high-power piezoelectric devices

• Project/Area Number: 22KJ0822
• Project/Area Number (Other): 22J11769 (2022)
• Research Category: Grant-in-Aid for JSPS Fellows
• Allocation Type: Multi-year Fund (2023); Single-year Grants (2022)
• Section: 国内
• Review Section: Basic Section 20010:Mechanics and mechatronics-related
• Research Institution: The University of Tokyo
• Principal Investigator: 王 方一 東京大学, 工学系研究科, 特別研究員(DC2)
• Project Period (FY): 2023-03-08 – 2024-03-31
• Project Status: Completed (Fiscal Year 2023)
• Budget Amount: ¥1,700,000 (Direct Cost: ¥1,700,000); Fiscal Year 2023: ¥800,000 (Direct Cost: ¥800,000); Fiscal Year 2022: ¥900,000 (Direct Cost: ¥900,000)
• Keywords: Piezoelectric transducer / Resonance / Vibration control / 圧電 / 共振周波数

Outline of Research at the Start

Based on the resonant frequency ratio control method, dual-frequency ultrasound will be excited.
Numerical analysis will be conducted to obtain the acoustic characteristics of dual-frequency ultrasound, including sound pressure and acoustic radiation force distribution.
New applications with dual-frequency ultrasound will be explored in areas such as acoustic levitation and ultrasonic cavitation.

Outline of Annual Research Achievements

This study introduces a dynamic resonance frequency control method based on passive devices to address the issue of resonance frequency drift in high-power piezoelectric transducers, including: 1.Investigation of the dynamic resonance frequency control method for multimodal piezoelectric transducers under high driving voltages. 2.Static frequency matching and dynamic frequency control in multimodal piezoelectric actuators were achieved, significantly improving the actuators' long-term stability. 3.Stable dual-frequency ultrasound output was realized. The enhancement effect of dual-frequency ultrasound on near field acoustic levitation was explored and verified for the first time. Further development is expected to significantly enhance the performance of multimodal ultrasonic transducers.

Research Products

• [Int'l Joint Research] Leibniz University Hannover(ドイツ)
• [Int'l Joint Research] Leibniz University Hannover(ドイツ)
• [Journal Article] Dynamic resonance frequency control for a resonant-type smooth impact drive mechanism actuator (2023)
  • Author(s): Wang Fangyi、Sasamura Tatsuki、Jiang Yukun、Miyake Susumu、Twiefel Jens、Morita Takeshi
  • Journal Title: Sensors and Actuators A: Physical Volume: 359 Pages: 114462-114462
  • DOI: 10.1016/j.sna.2023.114462
  • Peer Reviewed / Int'l Joint Research
• [Presentation] DPLUSに基づく二重周波数超音波の生成 (2024)
  • Author(s): 王方一, 王唯権, 山田恭平, 今城哉裕, 森田剛
  • Organizer: 2024 年度精密工学会春季大会学術講演会
• [Presentation] Dynamic Resonant Frequency Ratio Control for a Resonant-type Smooth Impact Drive Mechanism Actuator (2022)
  • Author(s): Fangyi Wang, Tatsuki Sasamura, Yukun Jiang, Susumu Miyake, Jens Twiefel, Takeshi Morita
  • Organizer: International Workshop on Piezoelectric Materials and Applications (IWPMA2022)
  • Int'l Joint Research
• [Presentation] Dynamic resonant frequency ratio control for multimodal piezoelectric actuators (2022)
  • Author(s): 王方一, 三宅奏, 森田剛
  • Organizer: 2022年度精密工学会秋季大会学術講演会
• [Presentation] 二周波超音波用のマルチモーダル二重放物面反射器トランスデューサ (2022)
  • Author(s): 王方一, 山田恭平, 三宅奏, 森田剛
  • Organizer: 第43回超音波エレクトロニクスの基礎と応用に関するシンポジウム, USE2022
• [Remarks] 東京大学大学院 工学系研究科 精密工学専攻 超音波デバイス研究室
  • URL: https://usdev.t.u-tokyo.ac.jp/index.html
• [Remarks] 東京大学大学院 工学系研究科 精密工学専攻 超音波デバイス分野
  • URL: https://usdev.t.u-tokyo.ac.jp/index.html
• [Funded Workshop] International Workshop on Piezoelectric Materials and Applications in Actuators(IWPMA2023) (2023)
• [Funded Workshop] International Workshop on Piezoelectric Materials and Applications (2022)