- Undergraduate
Bachelor's Degrees
Bachelor of ArtsBachelor of EngineeringDual-Degree ProgramUndergraduate AdmissionsUndergraduate Experience
- Graduate
Doctoral Degrees
Doctor of PhilosophyPhD Innovation ProgramDoctor of Medicine-PhD Joint DegreeGraduate AdmissionsGraduate Experience
- Research
- Entrepreneurship
- Community
- About
-
![](https://optimise2.assets-servd.host/thayer-web/production/headshots/Jason_Stauth_headshot.jpg?w=600&h=600&q=80&fm=jpg&fit=crop&dm=1611102503&s=19d0dad4d87f3ccea6534684b6a12345)
Jason T. Stauth
Associate Professor of Engineering
![](https://optimise2.assets-servd.host/thayer-web/production/images/Jason_Stauth_in_lab.jpg?w=600&h=400&q=80&fm=jpg&fit=crop&dm=1611102329&s=ce90ef1741ea820622af7de85fb2d731)
Research Interests
High-frequency and chip-scale power electronics; photovoltaic and electrochemical system management; sensor interfaces and energy scavenging; integrated circuit design (analog/mixed signal, RF, power, and embedded applications); communications electronics; technology entrepreneurship
Education
- BA, Physics, Colby College 1999
- BE, Engineering Sciences, Dartmouth 2000
- MS, Electrical Engineering, UC Berkeley 2006
- PhD, Electrical Engineering, UC Berkeley 2008
Selected Publications
- J.T. Stauth, " Pathways to mm-scale DC-DC converters: Trends, opportunities, and limitations ," IEEE Custom Integrated Circuits Conference (CICC), 2018.
- C. Schaef and J.T. Stauth, " A Highly Integrated Series–Parallel Switched-Capacitor Converter With 12 V Input and Quasi-Resonant Voltage-Mode Regulation ," IEEE Journal of Emerging and Selected Topics in Power Electronics , vol. 6, no. 2, pp. 456–464, June 2018.
- S.R. Pasternak, M.H. Kiani, J.S. Rentmeister and J.T. Stauth, " Modeling and Performance Limits of Switched-Capacitor DC–DC Converters Capable of Resonant Operation With a Single Inductor ," IEEE Journal of Emerging and Selected Topics in Power Electronics , vol. 5, no. 4, pp. 1746–1760, Dec. 2017.
- C. Schaef, E. Din and J.T. Stauth, " 10.2 A digitally controlled 94.8%-peak-efficiency hybrid switched-capacitor converter for bidirectional balancing and impedance-based diagnostics of lithium-ion battery arrays ," IEEE International Solid-State Circuits Conference (ISSCC), 2017.
- J.S. Rentmeister and J.T. Stauth, " A 48V:2V flying capacitor multilevel converter using current-limit control for flying capacitor balance ," IEEE Applied Power Electronics Conference and Exposition (APEC), 2017.
- E. Din, C. Schaef, K. Moffat and J.T. Stauth, " A Scalable Active Battery Management System With Embedded Real-Time Electrochemical Impedance Spectroscopy ," in IEEE Transactions on Power Electronics , vol. 32, no. 7, pp. 5688–5698, July 2017.
- M.H. Kiani and J.T. Stauth, " Optimization and comparison of hybrid-resonant switched capacitor DC-DC converter topologies ," IEEE Workshop on Control and Modeling for Power Electronics (COMPEL), 2017.
- C. Schaef, E. Din and J.T. Stauth, " A Hybrid Switched-Capacitor Battery Management IC With Embedded Diagnostics for Series-Stacked Li–Ion Arrays ," in IEEE Journal of Solid-State Circuits , vol. 52, no. 12, pp. 3142–3154, Dec. 2017.
- K. Kesarwani, R. Sangwan and J.T. Stauth, " Resonant-Switched Capacitor Converters for Chip-Scale Power Delivery: Design and Implementation ," IEEE Transactions on Power Electronics , vol. 30, no. 12, pp. 6966–6977, Dec. 2015.
- C. Schaef, K. Kesarwani and J.T. Stauth, " 20.2 A variable-conversion-ratio 3-phase resonant switched capacitor converter with 85% efficiency at 0.91W/mm2 using 1.1nH PCB-trace inductors ," IEEE International Solid-State Circuits Conference - (ISSCC), 2015.
- J.T. Stauth, M.D. Seeman and K. Kesarwani, " Resonant Switched-Capacitor Converters for Sub-module Distributed Photovoltaic Power Management ," IEEE Transactions on Power Electronics , vol. 28, no. 3, pp. 1189–1198, March 2013.
Patents
- Systems and methods for characterizing impedance of an energy storage device | 10,393,818
- System and method for reducing power loss in switched-capacitor power converters | 9,793,794
- System and method for reducing power loss in switched-capacitor power converters copy | 9,660,523
Courses
- ENGS 61 : Intermediate Electrical Circuits
- ENGG 199.14 : High Frequency and Switching Electronic Circuits
- ENGS 32 : Electronics: Introduction to Linear and Digital Circuits
- ENGS 125 : Power Electronics and Electromechanical Energy Conversion
Videos
Seminar: Small-Scale Electronics for Large-Scale Energy
Dartmouth Undergrads in the Lab: Solar Panel Efficiency
News
![](https://optimise2.assets-servd.host/thayer-web/production/images/GH_service-humanity-electronic_circuit_board.5e44242076c3e.jpg?w=75&h=75&q=100&fm=jpg&fit=crop&dm=1611102448&s=4352f1b2015f5b14c8a80b91fea3091f)
![](https://optimise2.assets-servd.host/thayer-web/production/images/newfac.jpg?w=75&h=75&q=100&fm=jpg&fit=crop&dm=1611102315&s=efd2957e0e3a799d71957ee38d1859ab)