Program Type
Undergraduate
Faculty Advisor
Mr. Jacob Weidenfeller
Document Type
Presentation
Location
Face-to-face
Start Date
18-4-2024 3:00 PM
End Date
18-4-2024 3:30 PM
Abstract
This project explores the utilization of a bespoke supercapacitor system to energize and propel a robot across various challenging courses. The custom supercapacitor setup serves as the primary power source, providing rapid charging capabilities and high energy density. The research investigates the integration of this innovative power solution into the robot's design, aiming to optimize its performance and endurance in competitive environments.
Recommended Citation
Davis, Charles; Giese, Zachary; Gober, Joseph; Grisham, Samuel; and Mahan, Avery, "Applications of Supercapacitors in Robotic Systems" (2024). ATU Research Symposium. 24.
https://orc.library.atu.edu/atu_rs/2024/2024/24
Included in
Controls and Control Theory Commons, Electrical and Electronics Commons, Other Electrical and Computer Engineering Commons, Power and Energy Commons
Applications of Supercapacitors in Robotic Systems
Face-to-face
This project explores the utilization of a bespoke supercapacitor system to energize and propel a robot across various challenging courses. The custom supercapacitor setup serves as the primary power source, providing rapid charging capabilities and high energy density. The research investigates the integration of this innovative power solution into the robot's design, aiming to optimize its performance and endurance in competitive environments.