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Researcher
Maxime De Wit
- Disciplines:Nanotechnology, Sensors, biosensors and smart sensors, Other electrical and electronic engineering, Design theories and methods
Affiliations
- Electronic Circuits and Systems (ECS) (Division)
Member
From1 Aug 2020 → 4 Jul 2019 - ESAT - MICAS, Microelectronics and Sensors (Division)
Member
From1 Sep 2014 → 4 Jul 2019
Projects
1 - 1 of 1
- CMOS Millimeter Wave Circuits for Dielectric Waveguide CommunicationFrom2 Jun 2014 → 27 May 2019Funding: Own budget, for example: patrimony, inscription fees, gifts
Publications
1 - 7 of 7
- Analysis and Design of a Foam-Cladded PMF Link With Phase Tuning in 28-nm CMOS(2019)
Authors: Maxime De Wit, Patrick Reynaert
Pages: 1960 - 1969 - A D-band Foam-Cladded Dielectric Waveguide Communication Link with Automatic Tuning(2018)
Authors: Maxime De Wit, Patrick Reynaert
Pages: 234 - 237Number of pages: 4 - An F-band Active Phase Shifter in 28nm CMOS(2017)
Authors: Maxime De Wit, Patrick Reynaert
Pages: 965 - 968 - Polymer Microwave Fibers: a blend of RF, copper and optical communication(2016)
Authors: Patrick Reynaert, Maarten Tytgat, Wouter Volkaerts, Alexander Standaert, Yang Zhang, Maxime De Wit, Niels Van Thienen
Pages: 15 - 20 - An 18Gbps Polymer Microwave Fiber (PMF) Communication Link in 40nm CMOS(2016)
Authors: Niels Van Thienen, Yang Zhang, Maxime De Wit, Patrick Reynaert
Pages: 483 - 486 - RF-through-Plastics: an Alternative to Copper and Optical Fiber(2015)
Authors: Niels Van Thienen, Wouter Volkaerts, Maxime De Wit, Alexander Standaert, Yang Zhang, Patrick Reynaert
Pages: 15 - 19 - RF-through-Plastics: an Alternative to Copper and Optical Fiber(2015)
Authors: Niels Van Thienen, Wouter Volkaerts, Maxime De Wit, Alexander Standaert, Yang Zhang, Piet De Pauw, Patrick Reynaert
Pages: 15 - 19