A 55 nm triple gate oxide 9 metal layers SiGe BiCMOS technology featuring 320 GHz fT / 370 GHz fMAX HBT and high-Q millimeter-wave passives

Authors :: S. Joblot
C. De-Buttet
Sébastien Petitdidier
F. Abbate
C. Jenny
Didier Celi
B. Ramadout
Thomas Quemerais
Sebastien Haendler
Laurent Favennec
Daniel Gloria
O. Robin
C. Richard
E. Canderle
B. Borot
K. Haxaire
N. Derrier
Remi Beneyton
Julien Rosa
G. Ribes
O. Saxod
P. Brun
Y. Campidelli
Pascal Chevalier
Cedric Durand
A. Montagne
Francois Leverd
G. Imbert
Olivier Gourhant
M. Guillermet
E. Gourvest
L. Berthier
Clement Tavernier
J. Cossalter
M. Buczko
C. Deglise
Mickael Gros-Jean
C. Julien
Jean-Damien Chapon
K. Courouble
D. Ney
G. Avenier
Patrick Maury
Y. Carminati
R. Bianchini
F. Foussadier
Source :: 2014 IEEE International Electron Devices Meeting.
Publication Year :: 2014
Publisher :: IEEE, 2014.
Abstract: This paper presents the first 55 nm SiGe BiCMOS technology developed on a 300 mm wafer line in STMicroelectronics. The technology features Low Power (LP) and General Purpose (GP) CMOS devices and 0.45 µm2 6T-SRAM bit cell. High Speed (HS) HBT exhibits 320 GHz f T and 370 GHz f MAX associated with a CML ring oscillator gate delay τ D of 2.34 ps. Transmission lines, capacitors, high-Q varactors and inductors dedicated to millimeter-wave applications are also available.

Subjects :: Bit cell
Materials science
business.industry
Heterojunction bipolar transistor
Electrical engineering
Ring oscillator
BiCMOS
Inductor
law.invention
Capacitor
CMOS
law
Extremely high frequency
Optoelectronics
business

Full Text Access

Tools