Quinn William Haynie

Title: Innovations by Quinn William Haynie in Microelectromechanical Systems

Introduction

Quinn William Haynie is an accomplished inventor based in Redmond, WA. He has made significant contributions to the field of microelectromechanical systems (MEMS), particularly in the development of scanning laser devices. With a total of two patents to his name, Haynie's work has advanced the technology used in laser scanning applications.

Latest Patents

Haynie's latest patents include innovations in MEMS scanners designed for scanning laser devices. These patents focus on enhancing the resistance to distortion in the mirror surface of MEMS scanners. By improving the performance of these scanners, they can effectively reflect laser light into a pattern of scan lines. This is achieved by connecting the scan plate to an intermediate support structure, which is offset from the scanning surface. This design minimizes distortion caused by rotational forces, leading to better performance in devices such as laser projectors and laser depth scanners.

Another notable patent involves the design of scanning platforms for laser devices. These platforms utilize MEMS structures to facilitate mirror motion. The design features a centrally located stationary mount and a movable portion that surrounds it. This configuration allows for a more compact scanning laser device by reducing the size of the scanning mirror assembly.

Career Highlights

Quinn William Haynie is currently employed at Microvision, Inc., where he continues to innovate in the field of MEMS technology. His work has been instrumental in advancing the capabilities of scanning laser devices, making them more efficient and effective.

Collaborations

Haynie has collaborated with notable coworkers such as Jason B. Tauscher and Wyatt Owen Davis. Their combined expertise has contributed to the successful development of advanced MEMS technologies.

Conclusion

Quinn William Haynie's contributions to the field of microelectromechanical systems have significantly impacted the technology used in scanning laser devices. His innovative patents reflect a commitment to enhancing performance and efficiency in this area.