Company Filing History:
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Years Active: 2002-2016
Title: The Innovative Journey of Andrey Kozyrev in Acoustics and Capacitor Technologies
Introduction
Andrey Kozyrev, a prolific inventor based in St. Petersburg, Russia, has significantly contributed to the field of capacitor technology with an impressive portfolio of 19 patents. His work primarily focuses on capacitors designed to mitigate acoustic resonance cancellation, marking a substantial advancement in the area of electro-mechanical systems.
Latest Patents
One of Kozyrev's latest innovations involves a method that enhances multilayered capacitors by reducing losses attributed to electro-mechanical coupling. This novel technique showcases a design where a first capacitor layer is placed adjacent to at least one additional capacitor layer, sharing a common electrode. The result is a coupling of acoustic vibrations in anti-phase, minimizing disturbance and improving the overall quality factor (Q) of the capacitor. This inventive approach not only elevates the efficiency of capacitors but also opens up new possibilities for their application in various electronic devices.
Career Highlights
Throughout his career, Andrey Kozyrev has been associated with notable companies like Paratek Microwave Incorporated and Blackberry Corporation. His tenure at these organizations allowed him to refine his expertise and push the boundaries of existing technologies, all while developing his unique approach to capacitor design.
Collaborations
Kozyrev's innovative journey has also been marked by fruitful collaborations with esteemed colleagues such as Louise C Sengupta and Yongfei Zhu. Working alongside these skilled professionals, he has been able to share insights and refine his inventions, which has greatly enhanced the scope and applicability of his innovations in the field.
Conclusion
Andrey Kozyrev's significant contributions to capacitor technology through his extensive patent portfolio highlight his status as an influential figure in the innovation landscape. His creative solutions to acoustic resonance cancellation demonstrate not only technical ingenuity but also the potential for practical applications across diverse industries. As he continues to develop new ideas, his work promises to inspire further advancements in the field.