Location History:
- Gunma-ken, JP (1996)
- Tatebayashi, JP (2004 - 2005)
Company Filing History:
Years Active: 1996-2005
Title: Tsutomu Aono: Innovator in Semiconductor Technology
Introduction
Tsutomu Aono is a prominent inventor based in Tatebayashi, Japan. He has made significant contributions to the field of semiconductor technology, holding a total of 5 patents. His work focuses on improving the manufacturing processes and efficiency of semiconductor devices.
Latest Patents
One of Aono's latest patents is a semiconductor device and method for manufacturing the same. This invention includes a power supply semiconductor chip that features multiple current passing electrodes and control electrodes. Conductive plates are strategically placed on these electrodes, extending to regions for external connections. These plates also include connecting regions that are suspended to minimize vibration impact on the chip. Aono's design allows for separate soldering of conductive plate units, which enhances the manufacturing process by eliminating wire-bonding steps that could damage the semiconductor chip. Another notable patent addresses the challenges of securing a fixing region for bonding wires in semiconductor chips. Aono's innovative approach involves arranging the chip in a way that allows for stable manufacturing while reducing the overall package size.
Career Highlights
Tsutomu Aono has built a successful career at Sanyo Electric Co., Ltd., where he has been instrumental in advancing semiconductor technologies. His expertise and innovative mindset have led to the development of several key patents that address common challenges in the industry.
Collaborations
Aono has collaborated with notable colleagues such as Kikuo Okada and Takayoshi Nishi. Their combined efforts have contributed to the advancement of semiconductor technology and the successful implementation of innovative solutions.
Conclusion
Tsutomu Aono's contributions to semiconductor technology exemplify the impact of innovation in the field. His patents not only enhance manufacturing processes but also pave the way for more efficient and reliable semiconductor devices.