Location History:
- Itami, JP (1992)
- Hyogo, JP (2002)
Company Filing History:
Years Active: 1992-2002
Title: Junko Komori: Innovator in Semiconductor Technology
Introduction
Junko Komori is a prominent inventor based in Hyogo, Japan. She has made significant contributions to the field of semiconductor technology, holding 2 patents that showcase her innovative spirit and technical expertise.
Latest Patents
One of her latest patents is a probe card device. This device features an insulator board and multiple bumps, including a probe card wafer made from the same material as the wafer under test. The design incorporates a spacer to create a seal between the wafer under test and the probe card wafer, allowing for vacuum retention. This innovation ensures reliable electrical connections with the pads of various semiconductor devices on the substrate being tested.
Another notable patent is a method for detecting and analyzing impurities. This method involves cleaning a substrate by heating it under vacuum. A liquid sample is then applied to the substrate's surface under a lower vacuum. The sample is dried by reducing the surrounding atmospheric pressure, allowing for precise detection and analysis of impurities. This technique minimizes the risk of foreign matter contaminating the sample, ensuring high precision in impurity analysis.
Career Highlights
Junko Komori is currently employed at Mitsubishi Electric Corporation, where she continues to push the boundaries of semiconductor technology. Her work has been instrumental in advancing the capabilities of probe card devices and impurity detection methods.
Collaborations
One of her notable collaborators is Yoji Mashiko, who has worked alongside her in various projects. Their partnership has contributed to the development of innovative solutions in their field.
Conclusion
Junko Komori's contributions to semiconductor technology through her patents and work at Mitsubishi Electric Corporation highlight her as a key figure in the industry. Her innovative methods and devices continue to influence the field, ensuring advancements in technology and precision.