Title :
First demonstration of a full 28nm high-k/metal gate circuit transfer from Bulk to UTBB FDSOI technology through hybrid integration
Author :
Golanski, Dominique ; Fonteneau, P. ; Fenouillet-Beranger, C. ; Cros, A. ; Monsieur, F. ; Guitard, Nicolas ; Legrand, Charles-Alexandre ; Dray, Alexandre ; Richier, Cedric ; Beckrich, H. ; Mora, P. ; Bidal, G. ; Weber, Olivier ; Saxod, O. ; Manouvrier, J.
Author_Institution :
ST Microelectron., Crolles, France
Abstract :
For the first time a full hybrid integration scheme is proposed, allowing a full circuit design transfer from 28nm Bulk CMOS high-k/metal gate onto UTBB FDSOI with minimum design effort. As the performance of FDSOI logic and SRAM devices have already been reported, this paper highlights the original way to integrate ESD devices, variable MOS capacitors and vertical bipolar transistor within the frame of our hybrid technology. Competitive ESD performance for the same footprint is achieved through hybrid MOSFETS snap-back voltage reduction, obtained by implant engineering. In addition, we demonstrate that the performance of Silicon Controlled Rectifier (SCR) and ESD diodes are matched vs Bulk technology while maintaining the performance of FDSOI devices and without any additional masks.
Keywords :
CMOS logic circuits; CMOS memory circuits; MOS capacitors; MOSFET; SRAM chips; bipolar transistors; electrostatic discharge; elemental semiconductors; high-k dielectric thin films; integrated circuit reliability; logic design; rectifiers; silicon; silicon-on-insulator; ESD device; ESD diodes; ESD performance; FDSOI device; FDSOI logic; MOS capacitor; SCR; SRAM device; Si; UTBB FDSOI technology; bulk CMOS high-k/metal gate; bulk technology; full circuit design transfer; full hybrid integration scheme; high-k-metal gate circuit transfer; hybrid MOSFET snap-back voltage reduction; silicon controlled rectifier; size 28 nm; vertical bipolar transistor; Electrostatic discharges; Implants; Junctions; Logic gates; MOSFET; Performance evaluation; Thyristors;
Conference_Titel :
VLSI Circuits (VLSIC), 2013 Symposium on
Conference_Location :
Kyoto
Print_ISBN :
978-1-4673-5531-5
