On June 2nd, renowned SAL expert Mirjana Videnović-Mišić gave a talk at the IEEE Radio Frequency Integrated Circuits Symposiom (RFIC) in Boston, Massachusetts, where she presented leading RFIC know-how to the RF community. Gernot Hueber, Principal Scientist & Head of Research Unit RF (Radio Frequency) at SAL, co-organized world-class workshops at the leading international symposium and was involved in the organization and success of the conference as technical program cas well as steering committee member.
During various full-day workshops, the speakers provided the community with in-depth understanding of new design techniques in the field of 5G and Internet of Things (IoT).
As part of the "RF Circuit Design: Technologies for Tomorrow" workshop, which Gernot Hueber helped organize, Mirjana Videnović-Mišić (SAL) talked about "Body biasing in 28nm UTBB FD-SOI CMOS technology - a device approach to the circuit design". In her presentation, she explained body biasing technique advantage given to a mixer-first receiver design from the device perspective.
Workshop attendees also received new input on how to discover and investigate new design techniques using state of the edge technology. The workshop focused on enhanced Mobile Broadband (eMBB), ultra-reliable low-latency self-driving car communication and Massive Machine learning and provided the community with in-depth understanding of new and underlying FDSOI CMOS capability (extended back biasing, flip-well, etc.), FinFET and GaN technologies, followed by advanced RFIC examples such as wideband GaN circulators and 60GHz CMOS. Both experienced designers and early researchers were equipped with a broad and deep overview of technology for the next generation RFIC design, including an introduction to emerging 3D and heterogeneous technology combining high-speed InP with digital CMOS for RFIC.
At the "Design Challenges in 5G IoT" workshop, also co-organized by Gernot Hueber, the speakers focused on novel applications and network techniques that are demanding the RFIC designers to discover and investigate new designs to allow the high volume of use-cases based on and beyond 5G. For instance, new applications in high volume deployment that will benefit from 5G’s ultra-fast networks and real-time responsiveness, including solar-powered nodes (street-light) or other innovations that enhance city-wide infrastructures or public safety communications were discussed during the workshop.
Mirjana Videnović-Mišić received the M.Sc. and PhD degree in Electronics and Microelectronics engineering from the University of Novi Sad, Serbia, in 2004 and 2009 respectively.
In 2009 she founded the Team for analog and radio frequency integrated circuit design (ICreate) at the University of Novi Sad, Serbia.
In 2010 she joined Faculty of Technical Sciences, University of Novi Sad as an assistant professor covering the topics from semiconductor modeling to analog and radio-frequency integrated circuit design.
In 2014/2015 she was Fulbright Visiting Scholar and from 2015-2018 she was the Marie Curie Individual Global Fellowship recipient. Both fellowships were executed in cooperation with the Berkeley Wireless Research Center, University California at Berkeley.
Her research interests include the analysis, design and optimization of the analog and radio frequency integrated circuits for 5G and beyond applications. In MInERVA project, Mirjana Videnovic-Misic will lead the Rx IC design.