ECE 290 Seminar: Fundamental Nanopower Analog Circuits

Presenter: Joey Sankman, Analog/Power Designer, Analog Devices

Description: With the rising interest in edge computing, and the addition of AI/ML functionality, nanopower circuits are in great demand to reduce the quiescent power consumption of remote sensors. In this tutorial, fundamental building blocks for nanopower circuits will be covered, including startup-less low-voltage references, low-frequency clocks, and LDO regulators. Attendees can expect a deep dive into fundamental and practical analog techniques to design nanopower systems.

Bio: Joey Sankman received the B.S. degree from the University of Arizona, Tucson, AZ, and Ph.D. degree from the University of Texas at Dallas, TX in electrical engineering in 2010 and 2014, respectively. At the University of Texas at Dallas, his research included energy harvesting circuits and systems as well as high-performance switch mode power converters. He is currently an analog/power designer at Analog Devices, Principal Member of Technical Staff, working on automotive PMICs. Previously, he was an Analog R&D Engineer working on audio amplifiers, ultra-low power circuits, and radhard gate drivers at Kilby Labs, TI, Dallas, TX. He was the recipient of the U.S. National Science Foundation Graduate Research Fellowship and the 2011 Texas Instruments/Semiconductor Research Corporation Graduate Fellowship. He has authored or co-authored 20 publications in various IEEE journals and conferences. He currently serves on the IEEE ISSCC power subcommittee.

Hosted by: Professor Soumya Bose, ECE Department

Zoom Link: https://ucsc.zoom.us/j/97975378707?pwd=ljcgaCfhMmhZ88Vt5dqQUBVQRjehOx.1