| SPW 2022 Proceedings |
General Sessions
| Power Systems Architecture: |
| NASA’s Technology Goals for Lunar Surface Powers John Scott, NASA Johnson Space Center Video ♦ Charts |
| Assessment of Analog Electronics for Lunar Power Hibernation Richard Oeftering, NASA Glenn Research Center Video ♦ Charts |
| A Modular, High-Power, Radiation-Hardened, DC-DC Converter with Decentralized Control Alex Hanson, The University of Texas at Austin Anton Quiroz, Apogee Semiconductor Video ♦ Charts |
| Atomic Planar Power for Lightweight Exploration E. Joseph Nemanick, The Aerospace Corporation Video ♦ Charts |
| Power Management and Distribution (PMAD) – Power System Design and Analytical Techniques: |
| Aerospace’s Experience with GaN Power Christopher Le, The Aerospace Corporation Video ♦ Charts |
| Verify End-of-Life Reliability and Performance of Hybrid DC-DC Converters for Space PMAD Chris Hart, IR HiRel, an Infineon Technologies Company Video ♦ Charts |
| Crossing the Death Valley of Technology Development Dong Tan, Northrop Grumman Video ♦ Charts |
| Improve Satellite System Efficiency with Super-Junction Rad Hard FETs Oscar Mansilla, IR HiRel, an Infineon Technologies Company Video ♦ Charts |
| Advanced Concepts: |
| Regenerative Fuel Cell Systems for Lunar Surface Applications Jessica Cashman, NASA Glenn Research Center Video ♦ Charts |
| Demonstrating the Thermoradiative Diode: Generating Electrical Power Through Radiative Emission Ned Ekins-Daukes, UNSW Sydney Video ♦ Charts |
| Cell Self-Discharge Monitor for Li-Ion Batteries during Operation using Machine Learning Albert Zimmerman, The Aerospace Corporation Video ♦ Charts |
| 3 MeV Proton Irradiation Study of Ultra-Thin GaAs Solar Cells Larkin Sayre, University of Cambridge Video ♦ Charts |
| Energy Generation I – Multijunction Solar Cells: |
| Production and Development Status of Spectrolab 3J and 4J Space Cells Mitchell Bennett, Spectrolab, Inc. Video Unavailable ♦ Charts Unavailable |
| AZUR SPACE Enabling Technologies for Space Applications – 3G, 4G and Beyond Torsten Torunski, AZUR SPACE Solar Power GmbH Video Unavailable ♦ Charts Unavailable |
| Qualification, Production, and Program Status of SolAero’s Inverted Metamorphic and Upright Ge Solar Cells John Hart, SolAero Technologies Corporation Video ♦ Charts |
| Multi-Junction Thin Film Photovoltaics for Space Power Generation Randy Ellingson, The University of Toledo Video ♦ Charts |
| Energy Generation II – Modules and Arrays Designs: |
| Novel Integration of PVA String Blocking Function Emanuele Ferrando, SpaceTech GmbH Video ♦ Charts |
| Space Power Modules: Flex Arrays Phil Luc, Spectrolab, Inc. Video ♦ Charts |
| Sparkwing: Small Sat Solar Arrays from a Catalogue Jos de Hoog, Airbus Defence & Space Netherlands Video ♦ Charts |
| Deployable Solar Array Developments at Opterus Thomas Murphey, Opterus Research and Development, Inc. Video ♦ Charts |
| Energy Generation III – Reliability and Characterization: |
| Large-Area, Solar Panel Testing Using LED Solar Simulation for 3J, 4J, 5J and 6J Cell Technologies Casey Hare, Angstrom Designs Video ♦ Charts |
| DragonSCALES – Space Grade Si Solar Cells & Modules Qualification and Production Status Murat Okandan, mPower Technology Video ♦ Charts |
| High Altitude Flight Results using Selenium, A PV Measurement Ecosystem Don Walker, The Aerospace Corporation Video ♦ Charts |
| Repeatability and Performance of Commercial, High-Altitude, Balloon Flights for Solar Cell Calibration Scott Ireton, Angstrom Designs Video ♦ Charts |
| Energy Storage I – Space Battery Level Topics: |
| The Use of COTS Lithium-ion Batteries for NASA JPL Missions Marshall Smart, Jet Propulsion Laboratory, California Institute of Technology Video ♦ Charts |
| Battery Development for CADRE, NASA’s Shoebox-Sized Lunar Rovers John-Paul Jones, Jet Propulsion Laboratory, California Institute of Technology Video ♦ Charts |
| Design and Qualification of Family of Space COTS Batteries Rob Gitzendanner, EaglePicher Technologies Video ♦ Charts |
| Lithium Ion Cells Capable of Zero-Volt Storage and Recovery from Dead Bus Events Christopher Schauerman, Cellec Technologies, Inc. Video ♦ Charts |
| Energy Storage II – Cell Level Developments for Energy Storage: |
| Development of High Specific Energy Li/CFx Primary Battery Cells for Deep Space Missions Erik Brandon, Jet Propulsion Laboratory, California Institute of Technology Video ♦ Charts |
| Qualification of the LSE12x — New 12Ah Size Cell from GS Yuasa Thomas Pusateri, GS Yuasa Lithium Power Video ♦ Charts |
| Next Generation Lithium-Ion Cell Development and In-Orbit Performance Joe Troutman, EnerSys Video ♦ Charts |
| Update of Saft Gen 6 Cell and Batteries Status Chengsong Ma, Saft Video Unavailable ♦ Charts |
| Energy Storage III – Advanced Energy Storage Topics: |
| Leveraging Machine Learning to Accurately Predict Si-Anode Performance Benjamin Park, Enevate Corporation Video ♦ Charts |
| Enabling Electric Aviation Applications with High Energy Density Silicon-Based Lithium-Ion Batteries Michael Sinkula, Zenlabs Energy, Inc. Video ♦ Charts |
| Advancing the Electrification of Space Travel & Exploration with Lithium-Silicon Battery Technologies Rick Costantino, Group14 Technologies Video Unavailable ♦ Charts Unavailable |
| High Energy Density Lithium-Ion Cells with Improved Rate Capability by Spatial Patterning Roberta Benedict, Cellec Technologies Video Unavailable ♦ Charts Unavailable |
| Development of Graphene Batteries for Use in Space Applications* Elena Bekyarova, Carbon Solutions, Inc. Video ♦ Charts * Not presented at workshop |