Company Filing History:
Years Active: 2014
Title: In-Yup Kang: A Pioneer in Communication Device Calibration
Introduction
In-Yup Kang, an innovative inventor based in Nonsan-si, South Korea, has made significant contributions to the field of communication technology. With a focused expertise in calibration methods and apparatuses for communication devices, Kang’s work reflects an advanced understanding of radio frequency systems.
Latest Patents
Kang holds a patent for an “Apparatus and Method for Calibration of Transmitter in Communication Device.” This invention specifically addresses the calibration of transmitters lacking Surface Acoustic Wave (SAW) filters. The technology involves a calibration unit that outputs a detuning signal to alter the resonance frequency of a Radio Frequency (RF) circuit pertaining to the transmit operating frequency. The result is the ability to generate out-of-band noise and a transmit signal at a lower power level compared to traditional methods where the resonance frequency is synchronized with the transmit frequency.
Career Highlights
Currently, In-Yup Kang is employed at Samsung Electronics Co., Ltd., where he leverages his expertise to develop cutting-edge solutions in communication technology. His notable achievement, securing a patent, underscores his capability and commitment to innovation within the tech landscape.
Collaborations
Kang has collaborated with skilled colleagues, including Si-Bum Jun and Min-goo Kim, contributing to various projects that enhance the functionality and efficiency of communication devices. This teamwork not only promotes innovation but also fosters a robust environment for inventive research and development.
Conclusion
In-Yup Kang stands as a notable figure in the field of patentable inventions within communication technology. His creativity and technical knowledge culminate in advancements that benefit the industry and pave the way for future innovations. As technology continues to evolve, the contributions of inventors like Kang will undoubtedly shape the future of communication devices.