Home > Seminars > Powering up from Ambient Vibrations: Device-Circuit Co-optimization of Vibration Energy Harvesting Systems

Powering up from Ambient Vibrations: Device-Circuit Co-optimization of Vibration Energy Harvesting Systems

Start:

10/19/2018 at 1:30PM

End:

10/19/2018 at 2:30PM

Location:

258 Fitzpatrick Hall

Host:

College of Engineering close button
headerbottom

Greg Snider

Greg Snider

VIEW FULL PROFILE Email: gsnider@nd.edu
Phone: 574-631-4148
Website: http://www.nd.edu/~gsnider/
Office: 275 Fitzpatrick Hall

Affiliations

Department of Electrical Engineering Professor and Interim Chair
College of Engineering Professor and Interim Chair
My research in the last few years has focused on the design, fabrication, and measurements of micro and nanoelectronic devices. In the micro regime, my group works on CMOS circuits to study packaging issues, as well as to interface CMOS to nano devices. On the nano side, my research focuses on ...
Click for more information about Greg
574-631-4148
Add to calendar:
iCal vCal

The growth of edge-devices and sensors in the realm of Internet of Things pose challenges in terms of power-delivery to these sensor nodes. Energy scavenging and extraction from ambient sources is one way to sustain autonomously powered sensor devices. In this seminar, I will focus on power extraction from ambient vibrations. I will highlight the challenges and tradeoffs involved in the co-design of vibration harvesters along with interface power electronics. Two-common vibration harvesters will be considered: (i) Electromagnetic (EM) and (ii) Piezoelectric (PZT-based) harvesters. Using them as examples, I will try to highlight the interplay between devices and circuits along with the need for co-optimization for performance maximization.

Seminar Speaker:

Dr. Ujwal Radhakrishna

Dr. Ujwal Radhakrishna

Kilby Research Labs, Texas Instruments

Ujwal Radhakrishna is currently working as Analog Design Engineer in Kilby Research Labs in Texas Instruments, Santa Clara, working on HV-power management systems based on Gallium Nitride (GaN) and Silicon. Previously he was a postdoctoral research associate in the Research Laboratory of Electronics (RLE) at MIT working in the area of vibration energy harvesting with Professors Anantha Chandrakasan and Jeffrey Lang. He received his Ph.D. from MTL at MIT in 2016.  He received his Master of Science in Electrical engineering at MIT in 2013 and B. Tech and M. Tech degrees in 2011 in Microelectronics and VLSI at Indian Institute of Technology, Madras, India. His research interests are in the areas of solid state physics, device modeling, III-V semiconductor technology, novel beyond-Si RF and HV device-circuit interaction, MEMS design, energy harvesting and low power circuit design.