Company Filing History:
Years Active: 2021-2024
Title: Innovations of Zhijun Meng in Linear Resonant Devices
Introduction
Zhijun Meng is a notable inventor based in Shanghai, China. He has made significant contributions to the field of linear resonant devices, holding two patents that showcase his innovative approach to technology.
Latest Patents
Zhijun Meng's latest patents include a linear resonant device and a braking method for the same. The linear resonant device comprises a linear resonant motor and a drive chip. The drive chip pre-stores a drive waveform and at least one first braking waveform. The braking method involves determining, in response to a braking instruction, whether the vibration of the linear resonant motor meets a first condition while being driven by the drive waveform. If the condition is met, the drive chip controls the motor using the first braking waveform to conduct a first braking process. This first braking waveform consists of at least two pulse waveforms, with each amplitude value gradually decreasing along the propagation direction. Another patent focuses on a method for calibrating the frequency of the driving voltage waveform for a linear resonance device. This method ensures that the actual sampling frequency is continuously corrected, maintaining a predetermined range between the measured natural frequency and the standard driving voltage waveform.
Career Highlights
Zhijun Meng is currently employed at Shanghai Awinic Technology Co., Ltd. His work at this company emphasizes his commitment to advancing technology in the field of linear resonant devices. His innovative patents reflect his expertise and dedication to improving device performance.
Collaborations
Zhijun Meng collaborates with talented coworkers, including Shaofu Wu and Guanxing Zhao. Their teamwork contributes to the development of cutting-edge technologies in their field.
Conclusion
Zhijun Meng's contributions to linear resonant devices through his patents demonstrate his innovative spirit and technical expertise. His work continues to influence advancements in this area of technology.