Company Filing History:
Years Active: 2015-2020
Title: Innovations of Jae-Yun Lee
Introduction
Jae-Yun Lee is a prominent inventor based in Anyang-si, South Korea. He has made significant contributions to the field of memory devices, holding a total of seven patents. His work focuses on enhancing the functionality and reliability of memory technology.
Latest Patents
One of Jae-Yun Lee's latest patents is titled "Memory device including a circuit for detecting word line defect and operating method thereof." This invention involves a memory device that features a memory cell array with a first memory cell on a substrate and a second memory cell positioned above it. The device includes a word line defect detection circuit that monitors the number of pulses of a pumping clock signal to identify defects in the first word line. Additionally, it utilizes a voltage generator to apply different voltages to the word lines for programming purposes.
Another notable patent is the "Nonvolatile memory device and operating method thereof." This patent outlines an operating method for programming a first memory block among multiple memory blocks. The method includes applying a dummy verifying voltage after programming and generating a detection count to determine if the memory block should be set as a bad block based on a comparison with a reference count.
Career Highlights
Jae-Yun Lee is currently employed at Samsung Electronics Co., Ltd., a leading company in the technology sector. His work at Samsung has allowed him to be at the forefront of memory device innovation, contributing to advancements that enhance data storage and retrieval processes.
Collaborations
Throughout his career, Jae-Yun Lee has collaborated with notable colleagues, including Beak-Hyung Cho and Kwang-Jin Lee. These collaborations have fostered a creative environment that promotes the development of cutting-edge technologies in the field of memory devices.
Conclusion
Jae-Yun Lee's contributions to memory technology through his innovative patents and collaborations highlight his significant role in advancing the field. His work continues to influence the development of reliable and efficient memory devices.