Design of high power piezoelectric ceramic digital drive power based on FPGA

Design of high power piezoelectric ceramic digital drive power based on FPGA

At present, the stacked piezoelectric ceramics can generate a thrust of up to 70 kN, and have nanometer-level precision positioning. In order to improve the output performance and accuracy of piezoelectric ceramic drive power, a design of high-power and high-precision piezoelectric ceramic digital d...

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Bibliographic Details
Main Authors: Kang Yukuang, Zheng Hanlin, Huang Qiao, Shen Wei
Format: Article
Language:Chinese
Published: National Computer System Engineering Research Institute of China 2022-04-01
Series:Dianzi Jishu Yingyong
Subjects:
piezoelectric ceramics
driving power supply
fpga
high power
high precision
Online Access:http://www.chinaaet.com/article/3000148315
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Summary:At present, the stacked piezoelectric ceramics can generate a thrust of up to 70 kN, and have nanometer-level precision positioning. In order to improve the output performance and accuracy of piezoelectric ceramic drive power, a design of high-power and high-precision piezoelectric ceramic digital drive power based on FPGA is proposed, which has a fixed output gain of 100 times. The driving power supply uses FPGA as the control core, adopts a half-bridge inverter circuit topology, and introduces closed-loop control to adjust the output voltage. Under a piezoelectric ceramic load with an equivalent capacitance of 5 μF, the input bandwidth of the drive power supply is 10 Hz~800 Hz, the output power can reach 1 kW, the voltage ripple is less than 30 mV, and the output accuracy is as high as 99.3%. The experimental results show that the driving power supply can be used in the application fields of stacked piezoelectric ceramics such as vibrating table and hexapod control platform, and has good driving performance.
ISSN:0258-7998

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