Location History:
- La Canada, CA (US) (2004)
- Altadena, CA (US) (2018)
Company Filing History:
Years Active: 2004-2018
Title: Innovations by Angus D McRonald
Introduction
Angus D McRonald is a notable inventor based in Altadena, California. He has made significant contributions to the field of aerospace engineering, particularly through his innovative patents. With a total of 2 patents, McRonald has developed technologies that enhance atmospheric entry and orbital mechanics.
Latest Patents
One of McRonald's latest inventions is the "Enveloping Aerodynamic Decelerator." This inflatable aerodynamic deceleration method and system is designed for use with atmospheric entry payloads. The system includes an inflatable envelope and an inflatant, which fills the envelope to create an inflated state. This design allows the envelope to surround the payload, utilizing aerodynamic forces to decelerate it effectively.
Another significant patent is the "Balloon Device for Lowering Space Object Orbits." This apparatus is engineered to lower the orbit of a space object by utilizing an envelope and an inflation system. The inflation control system manages the inflation process, while attachment hardware connects the apparatus to the space object. By inflating the envelope, the effective drag area increases, thereby enhancing atmospheric drag on the envelope.
Career Highlights
Angus D McRonald is currently employed at Global Aerospace Corporation, where he continues to work on innovative aerospace solutions. His expertise in aerodynamic systems and orbital mechanics has positioned him as a valuable asset in the aerospace industry.
Collaborations
Throughout his career, McRonald has collaborated with talented individuals such as Kerry T Nock and Kim Maynard Aaron. These partnerships have fostered a creative environment that encourages the development of groundbreaking technologies.
Conclusion
Angus D McRonald's contributions to aerospace innovation through his patents demonstrate his commitment to advancing technology in this field. His work continues to influence the design and functionality of systems used in atmospheric entry and orbital mechanics.