Company Filing History:
Years Active: 2011-2017
Title: Byeng Jin Kim: Innovator in Microtechnology
Introduction
Byeng Jin Kim is a prominent inventor based in Incheon, South Korea. He has made significant contributions to the field of microtechnology, particularly in the development of advanced micro stages and electron beam control methods. With a total of four patents to his name, Kim's work is at the forefront of innovation in precision engineering.
Latest Patents
One of Kim's latest patents is a "Micro stage for particle beam column using piezo elements as actuator." This invention discloses a micro stage that utilizes a piezoelectric element, allowing for reliable operation even in vacuum environments. It is particularly useful in high-precision applications, such as microelectronic columns, where it can serve as a stage for micro or nano-degree precision alignment of parts or for moving samples.
Another notable patent is the "Method for controlling electron beam in multi-microcolumn and multi-microcolumn using the same." This method provides a way to control electron beams in a multi-microcolumn setup, where unit microcolumns are arranged in an n×m matrix. By applying uniform or differential voltages to each electron emitter, the method allows for efficient deflection and control of electron beams, enhancing the functionality of the microcolumns.
Career Highlights
Byeng Jin Kim has established himself as a key figure in his field through his innovative work at Cebt Co., Ltd. His expertise in microtechnology has led to advancements that are critical for various applications in electronics and materials science.
Collaborations
Kim has collaborated with notable colleagues, including Ho Seob Kim and Do Jin Seong, who contribute to the innovative environment at Cebt Co., Ltd. Their combined efforts foster a culture of creativity and technical excellence.
Conclusion
Byeng Jin Kim's contributions to microtechnology through his patents and collaborative efforts highlight his role as a leading inventor in the field. His work continues to influence advancements in precision engineering and electron beam control.