Harsh Environment Electronics Workshop
November 1, 2022
Davidson-Gundy Alumni Center
The University of Texas at Dallas
View full list of speakers for this workshop.
Additional speaker information will be uploaded following the event.
8:00 AM
Coffee and networking breakfast – DGAC
8:30 AM
Welcoming Remarks from Dr. Joe Pancrazio, VP for Research (UT Dallas)
8:40 AM
Dr. Robert Bauman to present Workshop Goals
Industrial Session (Greg Yeric, CERFE Labs)
9:05 AM
Infineon HiRel – Introduction and Products
Presented by Helmut Puchner, Vice President Fellow Aerospace & Defense (Infineon)
9:25 AM
Radiation Hardened by Design Power Management IC
Integrated Circuits for Space Power Management Applications require a multidisciplinary approach during the design/development process. This presentation will give a general overview of the rad hard by design development approach at TI.
Presented by Hector Torres, Space Design Manager (Texas Instruments)
Hector Torres
Design Director, Texas Instruments for Space Power Products
Hector Torres is an analog IC design engineer with 23+ years of experience. He is the Design Director for Space Power Products at Texas Instruments where he leads several teams in the development of radiation hardened by design power management ICs. Hector has developed a combination of techniques and innovations to improve the radiation induced single event and TID performance of TI’s Space Power products. He is a senior member of technical staff at TI, has 17 patents filed and is in charge of driving the technology roadmap for Space Power.
9:45 AM
Need for Radiation Testing and Understanding
Qorvo has a portfolio of Space-qualified products. Numerous Qorvo products are currently in Space. Generally, products have been qualified by similarity when it comes to radiation hardness. Several radiation tests have been performed on Qorvo GaAs showing GaAs to be rad hard. Several customers/partners have conducted radiation tests on Qorvo GaN showing good hardness to several radiation environments. New processes, products, and packaging options need to be tested for robustness against Space radiation environments for future space missions. A better understanding of radiation effects on semiconductors and package materials needs to be developed and coordinated across the industry.
Presented by Kenneth Decker, Director of TX Advanced Reliability (Qorvo)
Ken Decker
Director of TX Advanced Reliability, Qorvo
Kenneth D. Decker (Ken) received B.S.E.E. and M.S.E.E degrees from Brigham Young University in 1982. He worked for 16 years as a microwave and GaAs reliability test engineer for Texas Instruments. He became a member of the Texas Instruments technical staff in 1996. During that time, he supervised the work involving Reliability and Radiation testing of GaAs devices for the multiyear Phase 1 and Phase 2 MIMIC programs under Naval Air. Starting in 1998, he worked 17 years at TriQuint Semiconductor as the Quality and Reliability Manager/Director. He is the author of numerous publications on various aspects of GaAs reliability. Ken is currently the Director of TX Advanced Reliability for Qorvo and is involved in the reliability testing of GaN and other development processes.
9:55 AM
TBD
Presented by Ron Dusterhoft, Technology Fellow (Halliburton)
Ronald (Ron) Dusterhoft
Technology Fellow, Production Enhancement at Halliburton
Ron Dusterhoft is a Halliburton Technology Fellow for Production Enhancement with 38 years of industry experience. Ron’s specific areas of thought leadership include hydraulic fracturing, FracPac completions, sand control screens, sand consolidation, sand control downhole tool systems, completion design, and reservoir simulation for shale. Ron focuses on drilling and completion optimization, reservoir understanding, and stimulation design for unconventional, shale assets. This involves the use of full asset workflows and more effective data management to maximize collaboration and knowledge sharing between Geoscience, Drilling, and Completion Engineering.
10:15 AM
Packaging for Harsh Environments
The operation of electronics in extreme environments (elevated temperature, pressure, and vibration) is required to digitize the next frontier of many critical, defense, and energy-critical applications. From turbine engines to molten salt reactors, electronics that can operate in these extreme conditions have been identified as an area requiring unique solutions that are more complicated than simple “uprating” of standard integrated circuit and packaging technologies. Over the last decade, Ozark IC has developed XNode® modules – a family of single-board computers and remote electronics that can operate in temperatures above 200oC. A general overview of our work in high-temperature electronics will be presented, including technologies and electronic solutions that span operating regimes from 200oC to 800oC. A scalable approach to solving these problems will be presented based on lessons learned and pointing to areas requiring further investment from the electronics ecosystem.
Presented by A. Matt Francis, President and CEO (Ozark)
Matt Francis
Founder and President/CEO, Ozark Integrated Circuits, Inc
Matt Francis, Ph.D. Matt is the founder and President/CEO of Ozark Integrated Circuits, Inc. Dr. Francis earned BSEE (’03), BS Physics (’04), MSEE (’07), and PhD (’09) degrees from the University of Arkansas. Matt also serves as a Region Director, Elect (Region 5 USA Southwest) for the IEEE, the world’s largest technical professional organization, and as an advisor to science-based startups through the local Science Venture Studio. He is a Council Member for the City of Elkins, AR, and is a co-founder of the Elkins Community Network, a 501c3 for local community engagement, and co-founder of the Elkins Robotics/Electronics Club.
10:35 AM
BREAK
10:55 AM
Panel 1, Robert Baumann, Moderator (UT Dallas)
11:40 AM
Lunch
Non-Defense Requirements (Ted Moise, UT Dallas)
12:35 PM
Designing Reliable Devices and Systems for Harsh Environments
Vanderbilt University has the world’s largest university-based program in radiation effects in microelectronics, specializing in the characterization of radiation effects in materials, devices, circuits, and systems using modeling, simulation, and testing. The Institute for Space and Defense Electronics (ISDE) at Vanderbilt is a unique national asset, established specifically to support this work with full-time trained engineers and support staff and advanced computing hardware, software, and characterization tools. ISDE builds on the academic research and education activities of the Radiation Effects Research (RER) group. Overall, Vanderbilt’s radiation effects programs include approximately 10 tenured faculty, 25 graduate students, 5 research faculty, and 5 full-time engineers supporting numerous programs and customers with aggregate annual funding at the multimillion-dollar level. The senior personnel are recognized as world leaders in the field of radiation effects. This talk will discuss the formation and organization of ISDE, as well as the opportunities and challenges associated with operating a specialized research institute in the context of an academic organization.
Presented by Ron Schrimpf, Director, Institute for Space and Defense Electronics (Vanderbilt University)
Ron Schrimpf
Institute for Space and Defense Electronics, Vanderbilt University
Ronald D. Schrimpf received the B.E.E., M.S.E.E., and Ph.D. degrees from the University of Minnesota. He was a faculty member at the University of Arizona from 1986-1996. Since 1996, he has been with Vanderbilt University as the Orrin Henry Ingram Professor of Engineering and Director of the Institute for Space and Defense Electronics. His research focuses on the reliability and survivability of electronics for use in extreme environments, particularly those in which they are exposed to high levels of radiation. He was the Principal Investigator for two Multi-Disciplinary University Research Initiatives dealing with physical mechanisms related to radiation response and reliability of emerging electronic technologies, and he is currently the Principal Investigator for the AF Center of Excellence in Radiation Effects. Ron has served as the General Chair and Technical Chair of the IEEE Nuclear and Space Radiation Effects Conference, Chair of the IEEE Radiation Effects Steering Group, and President of the IEEE Nuclear and Plasma.
12:55 PM
TBD
Presented by Ruben Garcia, Radiation effects physicist in the R2E project (CERN)
1:15 PM
Role of Energy Storage and Power Electronics in Grid Modernization
Electric power systems are undergoing a rapid transformation that includes large-scale integration of renewables and support for the electrification of transportation. For the grid to operate reliably, there is a greater need for energy storage systems and intelligent power conversion systems with advanced circuit topologies and high-speed communication infrastructure. This presentation describes current trends in the development of energy storage, power electronic infrastructure needs, and potential safety and reliability challenges for system operators.
Presented by Babu Chalamala, Energy Storage Program Manager (Sandia National Labs)
Babu Chalamala
Energy Storage Program Manager, Sandia National Laboratories
Dr. Babu Chalamala is head of the Energy Storage Technology and Systems Department at Sandia National Laboratories. He currently chairs the IEEEPES Energy Storage and Stationary Battery Committee. He received his Ph.D. in Physics from the University of North Texas and B.Tech. in Electronics and Communications Engineering from Sri Venkateswara University. He is a Fellow of the IEEE, AAAS, and the National Academy of Inventors.
1:35 PM
Civil Aerospace Microelectronics Technology and Workforce Development Needs
Successful 21st-century space enterprises require access, in part, to two things: increasing quantities of sophisticated commercial microelectronics and a robust workforce able to deploy their capabilities in harsh environments reliably. In this regime, space radiation effects are increasingly a “live with” rather than an “avoid” consideration, particularly single-event effects. Design practices, standards, and test approaches all need focus from academia, government, industry, and international partners. The recent enactment of the CHIPS and Science Act of 2022 provides additional opportunities to help meet these needs.
Presented by Jonny Pellish, Deputy Manager NASA Electronic Parts, and Packaging (NASA)
Jonny Pellish
Electronic Parts Manager, NASA
Dr. Jonny Pellish is employed at the Goddard Space Flight Center as the National Aeronautics and Space Administration’s Electronic Parts Manager, responsible for workforce development and coordinating Agency-wide technical activities in the electronic parts and radiation effects engineering communities. Jonny is also the deputy manager for the NASA Electronic Parts and Packaging (NEPP) Program, which is operated by NASA Goddard on behalf of the NASA Office of Safety and Mission Assurance.
Since January 2022, Dr. Pellish has been working as a Legislative Fellow for the U.S. Senate Committee on Commerce, Science, and Transportation as a Space and Science Subcommittee member. There, he had the opportunity to support the drafting and passage of the CHIPS and Science Act of 2022, as well as, a wide range of other domestic manufacturing, scientific research, and space policy issues.
Jonny received the B.S. degree in physics from Vanderbilt University in 2004, and the M.S. and Ph.D. degrees in electrical engineering from Vanderbilt University in 2006 and 2008. From 2007–2008, he held an IBM Ph.D. Fellowship, including a co-op position at the IBM Austin Research Laboratory. Jonny has authored or co-authored over 75 refereed publications in addition to numerous conference and workshop presentations. He is a Member of the American Institute of Aeronautics and Astronautics and a Senior Member of the Institute for Electrical and Electronics Engineers.
1:55 PM
Extreme Environment Examples
Presented by Doug Sheldon, Assurance Technology Program Manager (JPL)
2:15 PM
BREAK
2:25 PM
Panel 2, Manuel Quevedo, Moderator (UT Dallas)
Defense Requirements (Bruce Snider, Mustang Optics)
3:10 PM
TBD
Presented by Dev Shenoy, Microelectronics strategy (Department of Defense)
3:30 PM
TBD
Presented by Dev Palmer, MTO Deputy Director (DARPA)
Dev Palmer
Deputy Director, Microsystems Technology Office (MTO)
Dr. Dev Palmer was named Deputy Director of the Microsystems Technology Office (MTO) in April 2020. Before his appointment, he was Chief Technologist at the Lockheed Martin Advanced Technology Laboratories, where he directed the independent research and development program and worked with the senior leadership team to define and execute technology strategy.
He served tours as a program manager in MTO from 2012 to 2017 and at the US Army Research Office Electronics Division from 2001 to 2012. In both positions, he directed a portfolio of research and development programs driving innovation for next-generation radio communications, sensing, and electronic warfare systems. His career in defense-related research and development began at the Microelectronics Center of North Carolina, where he worked on several microsystems technologies and applications from 1991 to 2001, ultimately serving as director of the Optical and Electronic Packaging Group.
Palmer earned a Bachelor of Arts in Physics and a Master of Science and Doctorate of Philosophy in electrical engineering from Duke University. He was elected Fellow of the IEEE in 2012 “for leadership and contributions in microwave and millimeter wave systems and sources.” His work guiding research and technology transition for national security has been recognized by the 2010 Army Research Laboratory Award for Program Management, the 2011 Army Superior Civilian Service Medal, the 2013 Secretary of Defense Award for Excellence, and the 2017 DARPA Meritorious Service Medal.
3:50 PM
TBD
Presented by Nathan Nowlin (Sandia Labs, National Security)
4:10 PM
TBD
Presented by Eric Forsythe, Program Manager for NexFlex (Army Research Labs)
4:30 PM
TBD
Presented by Ken Goretta, Asia Office of Aerospace Research and Development (AOARD)
4:50 PM
Closing Remarks from Dr. Joe Pancrazio, VP for Research (UT Dallas)
5:00 PM
Networking Hour – DGAC Inspiration Hall