Matthew J Ney

Title: Innovations of Matthew J Ney

Introduction

Matthew J Ney is an accomplished inventor based in Derry, NH (US). He has made significant contributions to the field of antenna technology, holding a total of 2 patents. His work focuses on advanced manufacturing techniques, particularly additive manufacturing.

Latest Patents

One of his latest patents is the "Additively manufactured modular aperture (AMMA) stacked patch antenna." This invention features an antenna assembly that includes a first dielectric material, a ground plane, and two or more patch antennas. The design incorporates a first aperture slot and a second non-intersecting aperture slot, with a second dielectric material that separates the patch antennas from the ground plane. The use of additive manufacturing techniques, such as three-dimensional printing, is a key aspect of this invention.

Another notable patent is the "Additive manufacturing of aperture fed patch antenna." This method involves creating a monolithic structure that includes a ground plane with aperture slots and a patch antenna. The process also utilizes a sacrificial support feature to maintain the patch antenna's position above the ground plane. The application of dielectric material, such as dielectric foam, is crucial for supporting the patch antenna.

Career Highlights

Matthew J Ney is currently employed at BAE Systems Information and Electronic Systems Integration Inc. His work at this company has allowed him to further develop his innovative ideas and contribute to advancements in electronic systems.

Collaborations

He has collaborated with notable coworkers, including Jean L Kubwimana and Alexander D Johnson. Their teamwork has likely fostered a creative environment that enhances the development of new technologies.

Conclusion

Matthew J Ney's contributions to antenna technology through his patents and work at BAE Systems highlight his innovative spirit and dedication to advancing the field. His inventions are paving the way for future developments in additive manufacturing and antenna design.