Company Filing History:
Years Active: 2022-2024
Title: Innovative Contributions of Nam Ryeol Kim in Image Sensing Technology
Introduction
Nam Ryeol Kim, an accomplished inventor based in Gyeonggi-do, South Korea, holds a total of five patents. His work primarily focuses on advancements in image sensing devices, which are crucial for various technological applications today.
Latest Patents
Among his latest innovations is an image sensing device utilizing adaptively adjusted pre-charge current. This device features a control circuit that connects the output terminal of a pixel signal to a high voltage terminal. The circuit is designed to produce a control voltage that corresponds to the pixel signal's voltage level. Additionally, the device includes a current supplying circuit that adjusts the pre-charge current based on the control voltage.
Another significant patent by Nam Ryeol Kim is an image sensing device that consists of a first pixel group. This group includes at least one first half-shading pixel and at least one first normal pixel. An image processor is integrated into this device, using the first pixel signal from the half-shading pixel for phase and dynamic range information during distinct periods.
Career Highlights
Nam Ryeol Kim is currently employed at SK Hynix Inc., a prominent player in the semiconductor industry. His ongoing research and development work in image sensing technology underscores his commitment to innovation and excellence in the field.
Collaborations
Throughout his career, Nam Ryeol Kim has collaborated with notable colleagues in the industry, including Yu Jin Park and Kang Bong Seo. These partnerships have contributed to the successful development and implementation of advanced technologies in image sensing.
Conclusion
Nam Ryeol Kim's contributions to the field of image sensing technology demonstrate his remarkable ingenuity and dedication as an inventor. With five patents under his name and ongoing collaborations at SK Hynix Inc., he continues to push the boundaries of innovation, shaping the future of imaging technologies.