TY - JOUR
T1 - The intrinsic parameter fluctuation on high-κ/metal gate bulk FinFET devices
AU - Li, Yiming
AU - Su, Hsin Wen
AU - Chen, Yu Yu
AU - Hsu, Sheng Chia
AU - Huang, Wen Tsung
PY - 2013
Y1 - 2013
N2 - In this work, based on the experimentally calibrated 3D device simulation, we for the first time estimate the impact of intrinsic parameter fluctuation on the electrical characteristic of 16-nm-gate TiN/HfO2 bulk FinFETs. The sources of intrinsic parameter fluctuation include the random discrete dopants, interface traps and work function differences, simultaneously. The full 3D simulated threshold voltage fluctuation, induced by the aforementioned random sources simultaneously, is 26.2 mV for the N-type bulk FinFET (and is 55.5 mV for the planar N-MOSFET). For the N-type bulk FinFET, the statistical sum of these fluctuations is 9.5% (and is 12.3% for the planar device) overestimation, compared with the full 3D simulation. One of the main reasons is the independence assumption on these random variables is destroyed owing to interactions to different extents among RDs, ITs and WKs. The coupled surface potentials cannot be simply estimated by using their statistical sum of individual random source. Under the same threshold voltage, compared with the result of the planar MOSFETs, more than 50% reduction on the threshold voltage fluctuation of the explored bulk FinFETs is observed owing to the benefit of 3D structural nature.
AB - In this work, based on the experimentally calibrated 3D device simulation, we for the first time estimate the impact of intrinsic parameter fluctuation on the electrical characteristic of 16-nm-gate TiN/HfO2 bulk FinFETs. The sources of intrinsic parameter fluctuation include the random discrete dopants, interface traps and work function differences, simultaneously. The full 3D simulated threshold voltage fluctuation, induced by the aforementioned random sources simultaneously, is 26.2 mV for the N-type bulk FinFET (and is 55.5 mV for the planar N-MOSFET). For the N-type bulk FinFET, the statistical sum of these fluctuations is 9.5% (and is 12.3% for the planar device) overestimation, compared with the full 3D simulation. One of the main reasons is the independence assumption on these random variables is destroyed owing to interactions to different extents among RDs, ITs and WKs. The coupled surface potentials cannot be simply estimated by using their statistical sum of individual random source. Under the same threshold voltage, compared with the result of the planar MOSFETs, more than 50% reduction on the threshold voltage fluctuation of the explored bulk FinFETs is observed owing to the benefit of 3D structural nature.
KW - 16-nm-gate
KW - Bulk FinET
KW - Characteristic fluctuation
KW - Random discrete dopant
KW - Random interface trap
KW - Random work function
KW - Statistical 3D device simulation
UR - http://www.scopus.com/inward/record.url?scp=84876854677&partnerID=8YFLogxK
U2 - 10.1016/j.mee.2013.03.076
DO - 10.1016/j.mee.2013.03.076
M3 - Article
AN - SCOPUS:84876854677
SN - 0167-9317
VL - 109
SP - 302
EP - 305
JO - Microelectronic Engineering
JF - Microelectronic Engineering
ER -