Glennis E Covington

Title: Glennis E. Covington: Innovator in Input Device Technology

Introduction

Glennis E. Covington is a notable inventor based in Redmond, WA (US), recognized for her contributions to input device technology. With a total of 2 patents, she has made significant advancements in the field, particularly in sensor configurations for input devices.

Latest Patents

Covington's latest patents focus on innovative input device sensor configurations. One of her patents describes an input device that includes a sensor substrate with a capacitive sensor designed to detect the proximity of an object. This device features a flexible contact layer that is spaced apart from the sensor substrate. The flexible contact layer is engineered to flex and make contact with the sensor substrate when pressure is applied, thereby initiating an input to a computing device. Additionally, the flexible contact layer can incorporate a force concentrator pad, which channels pressure to ensure effective contact with the sensor substrate.

Another patent by Covington also details input device configurations, emphasizing the importance of a flexible contact layer that can flex to initiate input. This layer similarly includes a force concentrator pad designed to enhance the responsiveness of the input device.

Career Highlights

Glennis E. Covington is currently associated with Microsoft Technology Licensing, LLC, where she continues to innovate in the realm of input devices. Her work has contributed to the development of more intuitive and responsive technology that enhances user interaction with computing devices.

Collaborations

Throughout her career, Covington has collaborated with notable colleagues, including Timothy Carlyle Shaw and Flavio Protasio Ribeiro. These collaborations have further enriched her work and contributed to the advancement of technology in her field.

Conclusion

Glennis E. Covington stands out as a pioneering inventor in input device technology, with her patents reflecting her commitment to innovation. Her contributions continue to shape the future of user interaction with technology.