Hybrid Battery Ultracapacitor System For Human Robotic Systems, Phase I

The objective of this proposal is to develop a hybrid battery-ultra capacitor storage system that powers human-robotic systems in space missions. Space missions involving human-robotic systems utilizing battery based electrical power often undergo numerous operations within each complete cycle. During Phase I of this program Yardney in collaboration with Maxwell Technologies propose to develop a hybrid system consisting of a high energy Li-ion battery, high power ultracapacitor (UCAP) and the electronic interface control module. The hybrid system to be developed in this program will provide electrical energy to human-robotic systems for advanced next generation space missions.

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identifier	TECHPORT_9611
issued	2011-09-01
landingPage	https://techport.nasa.gov/view/9611
modified	2020-01-29
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publisher	Space Technology Mission Directorate
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metadata_created	2025-11-20T23:29:21.845618
metadata_modified	2025-11-20T23:29:21.845622
notes	The objective of this proposal is to develop a hybrid battery-ultra capacitor storage system that powers human-robotic systems in space missions. Space missions involving human-robotic systems utilizing battery based electrical power often undergo numerous operations within each complete cycle. During Phase I of this program Yardney in collaboration with Maxwell Technologies propose to develop a hybrid system consisting of a high energy Li-ion battery, high power ultracapacitor (UCAP) and the electronic interface control module. The hybrid system to be developed in this program will provide electrical energy to human-robotic systems for advanced next generation space missions.
num_resources	4
num_tags	10
title	Hybrid Battery Ultracapacitor System For Human Robotic Systems, Phase I