Company Filing History:
Years Active: 2022-2025
Title: **Innovative Contributions of Inventor Sanglok Kim**
Introduction
Sanglok Kim is a prominent inventor based in Seoul, South Korea, recognized for his significant contributions to the field of semiconductor technology. With a total of two patents to his name, Kim has made remarkable strides in enhancing data transfer and memory device efficiency.
Latest Patents
Kim’s latest innovations include two impactful patents:
1. **Data Transfer Circuits in Nonvolatile Memory Devices**
This patent describes a data transfer circuit designed for nonvolatile memory devices. The circuit consists of first and second repeaters and signal lines that facilitate effective data transmission. The architecture alternates between different groups of signal lines and repeaters, optimizing performance across various operational modes.
2. **Semiconductor Memory Device, Method of Testing the Same, and Test System**
This invention pertains to a semiconductor memory device composed of a memory core and a built-in self-test (BIST) circuit. This BIST circuit enables precise testing during the wafer level test process by generating test pattern data and evaluating the memory core's functionality.
Career Highlights
Sanglok Kim works at Samsung Electronics Co., Ltd., where he has been instrumental in driving innovations in semiconductor memory technology. His work is pivotal in enhancing the reliability and efficiency of memory devices on an industrial scale.
Collaborations
Throughout his career, Kim has collaborated with esteemed colleagues such as Eunjin Song and Kyoungtae Kang. These collaborations have contributed to the successful development and implementation of various semiconductor technologies, further establishing Kim's reputation as a leading innovator in his field.
Conclusion
Sanglok Kim's contributions to semiconductor technology through his innovative patents display a commitment to advancing memory device capabilities. As a part of Samsung Electronics Co., Ltd., his work continues to influence the future of electronic memory solutions.