Add to ORKGCenter, Boeing Defense & Space, and the Kopin Corporation, are designing an advanced electrical power system for a small satellite. This system incorporates recent advances in three areas: photovoltaic cell design, battery energy storage design, and DC·DC power conversion technology. Introducing these advances into a flight power system will produce a satellite power system with double the capability of similar systems utilizing current technology
NASA Glenn Research Center (GRC) has a long history related to the development of advanced power tec...
This book provides an introduction to the main design principles, methods, procedures, and developme...
The OpenOrbiter Small Spacecraft Development Initiative aims to create an Open Prototype for Educati...
The University of Alabama in Huntsville Students for the Exploration and Development of Space, in co...
Solar power is a reality. Today, increasing numbers of photovoltaic and other solar-powered installa...
The satellite research centre of NTU has successfully completed six satellite programs. Among them, ...
Larger, more complex spacecraft of the future such as a manned Space Station will require electric p...
This thesis presents a preliminary design of the electrical power system (EPS) for the Naval Postgra...
Due to strict constraint regarding the volume of a PocketQube (50x50x50 mm) it is crucial to reduce ...
Abstract—Design of electrical power system for Nano-satellites is presented. The role of this electr...
The majority of new satellites generate electrical power using photovoltaic solar arrays and store e...
Includes bibliographical references (page 36)The California State University of Northridge CubeSat, ...
Small satellites, weighting between 100 to 200 kg, have witnessed increasing use for a variety of sp...
This thesis describes the design and implementation of an electronic power system for the CubeSTAR s...
The electrical power system developed for the International Space Station represents the largest spa...
NASA Glenn Research Center (GRC) has a long history related to the development of advanced power tec...
This book provides an introduction to the main design principles, methods, procedures, and developme...
The OpenOrbiter Small Spacecraft Development Initiative aims to create an Open Prototype for Educati...
The University of Alabama in Huntsville Students for the Exploration and Development of Space, in co...
Solar power is a reality. Today, increasing numbers of photovoltaic and other solar-powered installa...
The satellite research centre of NTU has successfully completed six satellite programs. Among them, ...
Larger, more complex spacecraft of the future such as a manned Space Station will require electric p...
This thesis presents a preliminary design of the electrical power system (EPS) for the Naval Postgra...
Due to strict constraint regarding the volume of a PocketQube (50x50x50 mm) it is crucial to reduce ...
Abstract—Design of electrical power system for Nano-satellites is presented. The role of this electr...
The majority of new satellites generate electrical power using photovoltaic solar arrays and store e...
Includes bibliographical references (page 36)The California State University of Northridge CubeSat, ...
Small satellites, weighting between 100 to 200 kg, have witnessed increasing use for a variety of sp...
This thesis describes the design and implementation of an electronic power system for the CubeSTAR s...
The electrical power system developed for the International Space Station represents the largest spa...
NASA Glenn Research Center (GRC) has a long history related to the development of advanced power tec...
This book provides an introduction to the main design principles, methods, procedures, and developme...
The OpenOrbiter Small Spacecraft Development Initiative aims to create an Open Prototype for Educati...