DC and RF Characterization of Nano-ridge HBT Technology Integrated on 300 mm Si Substrates

Authors :: Yadav, S.
Vais, A.
Rana ElKashlan
Witters, L.
Vondkar, K.
Mols, Y.
Walke, A.
Yu, H.
Alcotte, R.
Ingels, M.
Piet Wambacq
Langer, R.
Kunert, B.
Waldron, N.
Bertrand Parvais
Collaert, N.
Electronics and Informatics
Faculty of Engineering
Source :: Vrije Universiteit Brussel
Publication Year :: 2021
Publisher :: Institute of Electrical and Electronics Engineers Inc., 2021.
Abstract: Performance and complexity of next-generation communication systems can be enhanced by the realization of III-V materials on large-area Si substrates and their heterogenous integration with Si-CMOS. In this paper, a GaAs/InGaP HBT technology which is integrated on 300 mm Si substrates using nano-ridge engineering is described. DC and RF characterization of the devices is presented, and device characteristics are explained using physical modeling. The impact of nano-ridge sidewall on device DC performance is studied in detail. Further, a RF small-signal model applicable to these devices is proposed and guidelines for further improvements in RF performance are discussed.

Subjects :: Computer Networks and Communications
Hardware and Architecture
III-V HBTs on Si
heterogenous integration
Electrical and Electronic Engineering
Instrumentation
5G
Electronic, Optical and Magnetic Materials

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