Company Filing History:
Years Active: 1990
Title: Duane S. Dewald: Innovator in Optical Transparency Technology
Introduction
Duane S. Dewald, an inventive mind based in Fort Wayne, Indiana, has made a mark in the field of optical transparency technology. With one patent to his name, his innovation focuses on significantly enhancing the performance of materials exposed to electromagnetic pulses while maintaining visible light clarity.
Latest Patents
Dewald's sole patent, titled "Optical Transparency Having an Electromagnetic Pulse Shield," presents an ingenious solution for attenuating electromagnetic pulses without compromising the transmission of visible light. This innovative transparency comprises a transparent sheet and a laminated, electrically-conductive grid, forming a densely-packed array of apertures. Each aperture is a modified polygon with multiple curved sides, which effectively diffract light, minimizing distractions for viewers through the transparency.
Career Highlights
Duane S. Dewald is employed at Swedlow, Inc., where he leverages his expertise in optical technologies. His approach demonstrates a commitment to combining engineering principles with practical applications in the field of optics. Dewald's innovative work is pivotal in creating reliable materials useful in various high-tech environments.
Collaborations
Throughout his career, Dewald has collaborated with notable individuals such as David W. Holdridge, enhancing the creative output of Swedlow, Inc. These partnerships cultivate an environment where unique ideas can flourish and practical solutions to complex problems can be developed.
Conclusion
Duane S. Dewald exemplifies the spirit of innovation in the realm of optical technologies. His patent not only showcases his ingenuity but also contributes to the advancement of materials designed to protect against electromagnetic interference while ensuring high levels of visibility. Such innovations pave the way for advancements in various industries reliant on optical clarity and electromagnetic resilience.