Yuqing Mao                   

Doctorante

930 Chemin des Colles
Parc de Sophia Antipolis
F-06410 Biot
France

Mail : yuqing.mao@etu.unice.fr


Titre de la thèse :  Conception et réalisation d'un émetteur-récepteur BLE en technologie FDSOI

Directeur de thèse : Gilles Jacquemod et Yoann Charlon

Financement : Bourse CSC (China Scholarship Council)


Domaine d'activité :

Variabilité, Calibration, Analogique et RF, Grille arrière, FDSOI


Publications :

Conférences internationales :

Y. Mao, Y. Charlon, Y. Leduc & G. Jacquemod, "New design of an ultra low power CDR architecture using FDSOI 28nm technology”, NewCAS, Edinburgh, Scotland, 2023.

Y. Mao, Y. Charlon, Y. Leduc & G. Jacquemod, "LC tank oscillator based on new negative resistor in FDSOI technology”, PRIME-LA/LASCAS, Quito, Ecuador, 2023, Student Award : IEEE Circuits and Systems Society Student Travel Grants

Y. Mao, Y. Charlon, Y. Leduc & G. Jacquemod, "Ultra low power CDR based on an injection-locked ring oscillator architecture using FDSOI technology”, FETCH, Les Houches, France, 2022.

Y. Mao, Y. Charlon, F. Debieu, Z. Wei, Y. Leduc & G. Jacquemod, “Ultra low power injection-locked ring oscillator architecture using FDSOI technology”, AVIC, Bordeaux, France, 2021.

Conférences invité :

G. Jacquemod, Y. Mao, Y. Leduc & Y. Charlon, “New clock generator's design based on back-gate auto-biasing of 28nm UTBB-FDSOI transistors”, WCAM, Tokyo, Japan, 2023.

G. Jacquemod, Y. Mao, Y. Leduc & Y. Charlon, “A new negative resistor for LC tank oscillator in FDSOI technology”, Material Science and Engineering, Dubai, UAE, 2022.

Y. Leduc, Y. Charlon, X. Alibert, Y. Mao, G. Jacquemod & J. Mesquin, "Reasoned modeling of switched capacitors circuits - Preparation and simulation”, FETCH, Les Houches, France, 2022.


Conférences nationales :

Y. Mao, Y. Charlon, Y. Leduc & G. Jacquemod, “Ultra low power CDR based on an injection-locked ring oscillator architecture using FDSOI technology”, Worshop CSC-Polytech, Paris, 2022.

G. Jacquemod, Z. Wei, Y. Mao, Y. Leduc & Y. Charlon, Réduction des effets SCE et DIBL des transistors UTBB-FDSOI”, JPCNFM, Saint-Malo, 2021.