Title :
Impact of electron and hole inversion-layer capacitance on low voltage operation of scaled n- and p-MOSFET´s
Author :
Takagi, Shin-ichi ; Takayanagi, Mariko ; Toriumi, Akira
Author_Institution :
Adv. LSI Technol. Lab., Yokohama, Japan
fDate :
5/1/2000 12:00:00 AM
Abstract :
The influence of inversion-layer capacitance (Cinv) on supply voltage (Vdd) of n- and p-MOSFET´s is quantitatively examined. The physical origin of the effect of Cinv on Vdd consists in the band bending of a Si substrate in the inversion condition due to Cinv, which is not scaled with a reduction in gate oxide thickness. The amount and the impact of the band bending is accurately evaluated on a basis of one dimensional (1-D) self-consistent calculations including two-dimensional (2-D) subband structure of inversion-layer electrons and holes. It is demonstrated that additional band bending of a Si substrate due to Cinv becomes a dominant factor to limit the lowering of Vdd for CMOS with ultrathin gate oxides. The operation at Vdd lower than 0.6 V is quite difficult even with effective Tox less than 1 nm
Keywords :
CMOS integrated circuits; MOSFET; capacitance; inversion layers; semiconductor device models; semiconductor-insulator boundaries; 1D self-consistent calculations; 2D subband structure; CMOS devices; CMOSFETs; LV operation; Si; Si substrate; Si-SiO2; band bending; electron inversion-layer capacitance; gate oxide thickness; hole inversion-layer capacitance; low voltage operation; scaled n-MOSFETs; scaled p-MOSFETs; supply voltage; ultrathin gate oxides; Capacitance; Charge carrier processes; Energy consumption; Laboratories; Low voltage; MOS capacitors; MOSFET circuits; Power supplies; Substrates; Two dimensional displays;
Journal_Title :
Electron Devices, IEEE Transactions on
