Company Filing History:
Years Active: 2020-2025
Title: **Benjamin Thomas Gaide: Innovator in Charging Technologies**
Introduction
Benjamin Thomas Gaide is a notable inventor based in San Jose, California. With a total of eight patents to his name, Gaide has made significant contributions to the field of electronic device charging systems.
Latest Patents
Two of his latest patents exemplify his commitment to innovation in technology. The first patent focuses on a **charging system for electronic devices**, which includes a first receptacle for receiving one electronic device and a second receptacle for another. This system features a first and a second switching charger for fast charging both devices simultaneously. The unique aspect of this invention is its capability to detect when devices are connected and the ability to manage charging requests from each device independently.
The second patent revolves around **dynamic adjustments to battery parameters using battery metrics**. This system innovatively measures battery voltage output, temperature, and acceleration factors over time, allowing for adjustments in charge cycles based on environmental conditions and usage. By analyzing these metrics, the device ensures optimal battery performance and longevity.
Career Highlights
Currently, Benjamin Gaide is employed by Amazon Technologies, Inc. In this role, he continues to explore advancements in technology that enhance user experience and device efficiency. His inventive spirit has been a key component in driving forward new ideas within the organization.
Collaborations
Throughout his career, Gaide has collaborated with talented coworkers, including Ming Feng and Bryan Holmdahl. Together, they share insights and expertise, fostering an environment of creativity and innovation at Amazon Technologies.
Conclusion
Benjamin Thomas Gaide stands out as a remarkable inventor whose work on charging systems and battery management technologies paves the way for future advancements. His contributions not only enhance the functionality of electronic devices but also demonstrate the potential for improving battery performance in an increasingly technology-driven world.