Title: Voltage Transfer Characteristic Matching by Different Nanosheet Layer Numbers of Vertically Stacked Junctionless CMOS Inverter for SoP/3D-ICs applications
Authors: Sung, P. -J.
Chang, C. -Y.
Chen, L. -Y.
Kao, K. -H.
Su, C. -J.
Liao, T. -H.
Fang, C. -C.
Wang, C. -J.
Hong, T. -C.
Jao, C. -Y.
Hsu, H. -S.
Luo, S. -X.
Wang, Y. -S.
Huang, H. -F.
Li, J. -H.
Huang, Y. -C.
Hsueh, F. -K.
Wu, C. -T.
Huang, Y. -M.
Hou, F. -J.
Luo, G. -L.
Huang, Y. -C.
Shen, Y. -L.
Ma, W. C. -Y.
Huang, K. -P.
Lin, K. -L.
Samukawa, S.
Li, Y.
Huang, G. -W
Lee, Y. -J.
Li, J. -Y.
Wu, W. -F.
Shieh, J. -M.
Chao, T. -S.
Yeh, W. -K.
Wang, Y. -H.
電子物理學系
電機工程學系
Department of Electrophysics
Department of Electrical and Computer Engineering
Issue Date: 1-Jan-2018
Abstract: For the first time, CMOS inverters with different numbers of vertically stacked junctionless (JL) nanosheets (NSs) are demonstrated. All fabrication steps were below 600 degrees C, and 8-nm thick poly-Si NSs with smooth surface roughness were formed by a dry etching process. Compared to single channel devices, stacked n/p-channel FETs exhibit higher on-current with low leakage current. Furthermore, a common-gate process was performed for the fabrication of CMOS inverters. By adjusting the NS layer numbers for n/pFETs, respectively, the voltage transfer characteristics (VTCs) of the CMOS inverter can be matched much better to reduce the noise margin due to on-current matching without area penalty. This work experimentally demonstrates a new configuration of CMOS inverters on stacked NSs, which is promising for System-on-Panel (SoP) and 3D-ICs applications.
URI: http://hdl.handle.net/11536/151103
ISSN: 2380-9248
Journal: 2018 IEEE INTERNATIONAL ELECTRON DEVICES MEETING (IEDM)
Appears in Collections:Conferences Paper