Company Filing History:
Years Active: 2012
Title: Innovative Contributions of Ho Min Kim in Superconducting Technology
Introduction
Ho Min Kim, based in Changwon-si, South Korea, is an accomplished inventor with a focus on superconducting technology. He has made significant strides in developing innovative solutions that enhance the efficiency and reliability of synchronous machines.
Latest Patents
Ho Min Kim holds a patent for a "Superconducting Synchronous Machine." This invention involves a superconducting field coil of a homopolar type synchronous machine. The design includes a superconducting field coil comprising a single or double pancake coil formed by winding a superconducting wire, along with a core-type rotor made of magnetic material. Additionally, it features an armature winding excited to three phases on the surface of the core of the stator. Notably, the field coil of this homopolar synchronous machine remains stationary during operation, simplifying the structure and enhancing reliability while providing various cooling methods.
Career Highlights
Kim is associated with the Korea Electrotechnology Research Institute, where he contributes to pioneering research in electrotechnology and superconducting applications. His work represents a convergence of theoretical knowledge and practical application, aimed at advancing the field of electric machinery.
Collaborations
Throughout his career, Ho Min Kim has collaborated with esteemed colleagues such as Young Kil Kwon and Seung Kyu Baik. Together, they have worked on various projects, further advancing innovations within the field of superconductivity and enhancing the performance of technological solutions.
Conclusion
Ho Min Kim's contributions to the field of superconducting synchronous machines reflect his dedication to innovation and technology. His patented designs not only exhibit technical prowess but also promise to influence the future of electrotechnology and related industries positively. As research continues to evolve, the impact of his work is poised to resonate within the engineering community and beyond.