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61.
62.
On the basis of the exact resultant solution of two dimensional Poisson’s equations,a new accurate two-dimensional analytical model comprising surface channel potentials,a surface channel electric field and a threshold voltage for fully depleted asymmetrical dual material gate double-gate strained-Si MOSFETs is successfully developed. The model shows its validity by good agreement with the simulated results from a two-dimensional numerical simulator.Besides offering a physical insight into device physics,the model provides basic design guidance for fully depleted asymmetrical dual material gate double-gate strained-Si MOSFETs. 相似文献
63.
基于非平衡格林函数(NEGF)的量子输运理论框架,对双栅MOSFET进行了二维实空间数值模拟。在对表征载流子电势的泊松方程自洽求解后,感兴趣的物理量(如亚阈值摆幅、漏致势垒下降、载流子密度、电流密度等)可以被求得,观察了由栅极注入效应导致的二维电荷分布,并对不同电介质材料对栅极漏电流的影响进行了研究。此外,还通过调整电介质参数并进行比较的方法,研究了电介质的有效质量、介电常数、导带偏移对栅极漏电流的影响。该模拟方法为双栅MOSFET中载流子自栅极的注入提供了良好的物理图景,对器件特性的分析和比较有助于栅氧层高k电介质材料的选取。 相似文献
64.
We present a temperature dependent model for the threshold voltage Vt and subthreshold slope S of strained-Si channel MOSFETs and validate it with reported experimental data for a wide range of temperature, channel doping concentration, oxide thickness and strain value. Such model includes the effect of lattice strain on material, temperature dependent effective mass of carriers, interface-trapped charge density and bandgap narrowing due to heavy channel doping. Also considered are polydepletion effects, carrier localization effect in the ultra-thin channel and quantum-mechanical effects. Our investigation reveals that the threshold voltage reduces linearly with increasing temperature whereas the subthreshold slope increases. In addition Vt is found to be sensitive to strain while S is weakly dependent on strain. Moreover, the channel doping concentration influences both Vt and S, and also the rate of change of Vt with temperature. Furthermore, S decreases for a lightly doped channel particularly at lower temperatures. 相似文献
65.
66.
PolySOI MOSFETs have been fabricated on undoped and doped polycrystalline silicon films and characterized to study the effect of doping on grain boundary passivation. The grain boundary trap density (NST) and threshold voltages have been extracted experimentally to evaluate the extent of grain boundary passivation by the dopants. Charge sheet model based on the effective doping concentration has been employed to analytically estimate the threshold voltages using the experimentally determined grain boundary trap density and grain size (Lg) as model parameters. The variation of threshold voltages with increasing doping concentration for the range of NA ? (NST/Lg) has been studied both by simulation and experiments and the results are presented. Analytically estimated threshold voltages and experimental results show that the threshold voltage falls with increase in the dopant concentration and that this effect is indeed due to the reduction in NST as a result of the grain boundary passivation by the dopants. 相似文献
67.
Visweswara Rao Samoju Pramod Kumar Tiwari 《International Journal of Numerical Modelling》2016,29(4):695-706
In this paper, a three‐dimensional (3D) model of threshold voltage is presented for dual‐metal quadruple‐gate metal‐oxide‐semiconductor field effect transistors. The 3D channel potential is obtained by solving 3D Laplace's equation using an isomorphic polynomial function. Threshold voltage is defined as the gate voltage, at which the integrated charge (Qinv) at the ‘virtual‐cathode’ reaches to a critical charge Qth. The potential distribution and the threshold voltage are studied with varying the device parameters like gate metal work functions, channel cross‐section, oxide thickness, and gate length ratio. Further, the drain‐induced barrier lowering has also been analyzed for different gate length ratios. The model results are compared with the numerical simulation results obtained from 3D ATLAS device simulation results. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
68.
共源极电感同时存在于功率MOSFET的功率回路和门极驱动回路中,影响器件的开关特性和开关损耗。共源极电感的影响将随着器件开关速度和开关频率的提高而显得更为严重。碳化硅(SiC)MOSFET相对于硅器件的材料优势使其可以实现更快速的开关过程,共源极电感的影响更加需要考虑。首先分析了现有功率开关损耗测量方法的优劣,然后选用一种通过测量结温升和热阻的方法来测量SiC MOSFET的开关损耗,最后搭建了一台输出功率1kW、输出电压800V的全碳化硅Boost样机,从100kHz到500kHz进行实验验证。实验结果表明,当不含共源极电感时SiC MOSFET的开通损耗、关断损耗均有所减小。 相似文献
69.
A model of subthreshold characteristics for both undoped and doped double-gate (DG) MOSFETs has been proposed. The models were developed based on solution of 2-D Poisson's equation using variable separation technique. Without any fitting parameters, our proposed models can exactly reflect the degraded subthreshold characteristics due to nanoscale channel length. Also, design parameters such as body thickness, gate oxide thickness and body doping concentrations can be directly reflected from our models. The models have been verified by comparing with device simulations' results and found very good agreement. 相似文献
70.