Ben M Armstrong

Title: **Ben M Armstrong: Innovator in High-Current PCB Technology**

Introduction

Ben M Armstrong is a distinguished inventor based in Pullman, WA. With a remarkable portfolio of three patents, he has made significant contributions to the field of electrical engineering, particularly focusing on printed circuit board (PCB) technology. His innovative solutions are designed to improve the efficiency and reliability of electronic devices.

Latest Patents

Among his notable inventions is the patent related to "High-current PCB traces." This invention involves systems and methods that utilize thermal vias to enhance the current-carrying capacity of conductive traces on multilayered printed circuit boards. The patent outlines various ways to select parameters associated with these vias to control both electrical and thermal properties of the conductive trace. These parameters include aspects such as via diameter, plating thickness, quantity and placement of vias, and alterations to the conductive material, all aimed at optimizing the performance of PCB traces.

Career Highlights

Ben M Armstrong is affiliated with Schweitzer Engineering Laboratories, Inc., where he applies his expertise in advancing PCB technologies. His innovative work continues to influence the design and development of efficient electrical systems. His contributions not only bolster the capabilities of existing technologies but also pave the way for future innovations in the field.

Collaborations

Throughout his career, Ben has collaborated with notable colleagues, including Travis C Mallett and Forrest A Rahrer. These partnerships have fostered an environment of creativity and innovation, enhancing the quality and breadth of their contributions to the technology sector.

Conclusion

Ben M Armstrong's dedication to innovation and excellence in PCB technology showcases his role as a vital contributor to the engineering community. His work on high-current PCB traces exemplifies the intersection of theoretical knowledge and practical application. As technology continues to evolve, Armstrong’s advancements promise to play a crucial role in the development of more efficient electronic devices.