Company Filing History:
Years Active: 2024-2025
Title: Jae Hoon Ko: Innovator in Electronic Circuitry and Storage Devices
Introduction
Jae Hoon Ko is a notable inventor based in Gyeonggi-do, South Korea. He has made significant contributions to the field of electronics, particularly in circuit board design and storage device technology. With a total of two patents to his name, Ko continues to push the boundaries of innovation in his industry.
Latest Patents
One of Jae Hoon Ko's latest patents is related to an electronic circuit board. This circuit board includes a first conductor layer with a pad for transmitting and receiving signals from external devices. It features multiple second conductor layers stacked on the first layer, along with a third conductor layer that also includes a pad for signal transmission. Notably, at least one of the second conductor layers has a mesh structure and is electrically grounded, while the others contain voids and are electrically opened.
Another significant patent by Ko is for a storage device based on daisy chain topology. This device comprises several memory package chips, each containing multiple memory dies capable of storing data. A controller communicates with these memory package chips through one or more daisy chain circuits, enhancing the efficiency of data storage and retrieval.
Career Highlights
Jae Hoon Ko is currently employed at SK Hynix Inc., a leading semiconductor company known for its innovative memory solutions. His work at SK Hynix has allowed him to develop cutting-edge technologies that contribute to the advancement of electronic devices.
Collaborations
Some of Jae Hoon Ko's coworkers include Jeffrey E. Kwak and Jong Joo Lee. Their collaborative efforts in research and development have further propelled advancements in the field of electronics.
Conclusion
Jae Hoon Ko is a prominent inventor whose work in electronic circuitry and storage devices has made a significant impact on the industry. His innovative patents reflect his commitment to advancing technology and improving electronic systems.