Company Filing History:
Years Active: 2021-2022
Title: Innovations of Kris Kong in Wireless Communication
Introduction
Kris Kong is an accomplished inventor based in San Francisco, CA. She has made significant contributions to the field of wireless communication, holding a total of 2 patents. Her work focuses on enhancing the performance and efficiency of communication systems.
Latest Patents
Kris Kong's latest patents include a "Wireless communication system with improved thermal performance." This invention describes aspects of wireless communication, including a radiofrequency (RF) amplifier chip designed for transmitting or receiving data. The chip comprises a first substrate made of a specific material and a second substrate made of a different material. These substrates are lattice-matched, allowing for optimal performance. The chip can transmit or receive data at a transfer rate of at least 500 megabits per second and a frequency of at least 8 GHz. Additionally, the RF amplifier chip is designed to be part of a satellite transmitter.
Another notable patent is the "Apparatus for efficient high-frequency communications." Similar to her previous invention, this patent also involves an RF amplifier chip with the same substrate characteristics and performance capabilities. This innovation further emphasizes her commitment to advancing wireless communication technologies.
Career Highlights
Kris Kong is currently employed at Akash Systems, Inc., where she continues to develop cutting-edge technologies in wireless communication. Her expertise and innovative mindset have positioned her as a key player in her field.
Collaborations
Kris has collaborated with talented individuals such as Tyrone D Mitchell, Jr. and Felix Ejeckam, contributing to a dynamic work environment that fosters innovation.
Conclusion
Kris Kong's contributions to wireless communication through her patents and work at Akash Systems, Inc. highlight her role as a leading inventor in the industry. Her innovations are paving the way for more efficient communication systems.