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1.
分析了SOI器件各结构参数对器件性能的影响,给出了器件各结构参数的优化方向,找出了可行硅膜厚度和可行沟道掺杂浓度之间的设计容区.在部分耗尽与全耗尽SOI器件的交界处,阈值电压的漂移有一个峰值,在器件设计时应避免选用这一交界区.此外,随着硅膜厚度的减小,器件的泄漏电流随着沟道掺杂浓度的不同,有一个极小值.通过模拟分析发现,只要合理选择器件的结构参数,就能得到性能优良的SOI器件.  相似文献   

2.
杨胜齐  何进  黄如  张兴 《电子学报》2002,30(11):1605-1608
本文提出了用异型硅岛实现的厚膜全耗尽(FD)SOI MOSFET的新结构,并分析了其性能与结构参数的关系.通过在厚膜SOI MOSFET靠近背栅的界面形成一个相反掺杂的硅岛,从而使得厚膜SOI MOSFET变成全耗尽器件.二维模拟显示,通过对异型硅岛的宽度、厚度、掺杂浓度以及在沟道中位置的分析与设计,厚膜SOI MOSFET不仅实现了全耗尽,从而克服了其固有的Kink效应,而且驱动电流也大大增加,器件速度明显提高,同时短沟性能也得到改善.模拟结果证明:优化的异型硅岛应该位于硅膜的底部中央处,整个宽度约为沟道长度的五分之三,厚度大约等于硅膜厚度的一半,掺杂浓度只要高出硅膜的掺杂浓度即可.重要的是,异型硅岛的设计允许其厚度、宽度、掺杂浓度以及位置的较大波动.可以看出,异型硅岛实现的厚膜全耗尽 SOI MOSFET 为厚膜SOI器件提供了一个更广阔的设计空间.  相似文献   

3.
研究了全耗尽SOI、部分耗尽SOI和体硅NMOS器件中源、漏、栅和衬底电流的非准静态现象。研究表明,在相同的结构参数下,体硅器件的非准静态效应最强,PDSOI次之,FDSOI最弱。指出了沟道源、漏端反型时间和反型程度的不同是造成非准静态效应的内在原因。最后提出临界升压时间的概念,以此对非准静态效应进行定量表征,深入研究器件结构参数对非准静态效应的影响规律。结果显示,通过缩短沟道长度、降低沟道掺杂浓度、减小硅膜厚度和栅氧厚度、提高埋氧层厚度等手段,可以弱化SOI射频MOS器件中的非准静态效应。  相似文献   

4.
利用二维模拟软件对部分耗尽SoI器件中的非对称掺杂沟道效应进行了模拟.详细地研究了该结构器件的电学性能,如输出特性,击穿特性.通过本文模拟发现部分耗尽SOI非对称掺杂沟道相比传统的部分耗尽SOI,能抑制浮体效应,改善器件的击穿特性.同时跟已有的全耗尽SOI非对称掺杂器件相比,部分耗尽器件性能随参数变化,在工业应用上具有可预见性和可操作性.因为全耗尽器件具有非常薄的硅膜,而这将引起如前栅极跟背栅极的耦合效应和热电子退化等寄生效应.  相似文献   

5.
利用二维模拟软件对部分耗尽SoI器件中的非对称掺杂沟道效应进行了模拟.详细地研究了该结构器件的电学性能,如输出特性,击穿特性.通过本文模拟发现部分耗尽SOI非对称掺杂沟道相比传统的部分耗尽SOI,能抑制浮体效应,改善器件的击穿特性.同时跟已有的全耗尽SOI非对称掺杂器件相比,部分耗尽器件性能随参数变化,在工业应用上具有可预见性和可操作性.因为全耗尽器件具有非常薄的硅膜,而这将引起如前栅极跟背栅极的耦合效应和热电子退化等寄生效应.  相似文献   

6.
通过数值模拟手段,用归一化的方法研究了界面陷阱、硅膜厚度和沟道掺杂浓度对R-G电流大小的影响规律.结果表明:无论在FD还是在PD SOI MOS器件中,界面陷阱密度是决定R-G电流峰值的主要因素,硅膜厚度和沟道掺杂浓度的影响却因器件的类型而异.为了精确地用R-G电流峰值确定界面陷阱的大小,器件参数的影响也必须包括在模型之中.  相似文献   

7.
许剑  丁磊  韩郑生  钟传杰   《电子器件》2007,30(6):2166-2169
在考虑了隐埋层与硅层的二维效应的基础上提出非对称HALO结构的全耗尽SOI二维阈值电压解析模型,该模型计算了在不同硅膜厚度,掺杂浓度,HALO区占沟道比例的条件下的阈值电压.模型结果与二维数值模拟软件MEDICI的模拟结果较好的吻合,该模型对HALO结构的物理特性和工艺设计有很好的指导意义.  相似文献   

8.
提出了一种新的全耗尽SOI MOSFETs阈值电压二维解析模型.通过求解二维泊松方程得到器件有源层的二维电势分布函数,氧化层-硅界面处的电势最小值用于监测SOI MOSFETs的阈值电压.通过对不同栅长、栅氧厚度、硅膜厚度和沟道掺杂浓度的SOI MOSFETs的MEDICI模拟结果的比较,验证了该模型,并取得了很好的一致性.  相似文献   

9.
提出了一种新的全耗尽SOI MOSFETs阈值电压二维解析模型.通过求解二维泊松方程得到器件有源层的二维电势分布函数,氧化层-硅界面处的电势最小值用于监测SOI MOSFETs的阈值电压.通过对不同栅长、栅氧厚度、硅膜厚度和沟道掺杂浓度的SOI MOSFETs的MEDICI模拟结果的比较,验证了该模型,并取得了很好的一致性.  相似文献   

10.
通过数值模拟手段 ,用归一化的方法研究了界面陷阱、硅膜厚度和沟道掺杂浓度对 R- G电流大小的影响规律 .结果表明 :无论在 FD还是在 PD SOI MOS器件中 ,界面陷阱密度是决定 R- G电流峰值的主要因素 ,硅膜厚度和沟道掺杂浓度的影响却因器件的类型而异 .为了精确地用 R- G电流峰值确定界面陷阱的大小 ,器件参数的影响也必须包括在模型之中  相似文献   

11.
A physical model for the fully depleted submicrometer SOI MOSFET is described and used to assess the performance of SOI CMOS VLSI digital circuits. The computer-aided analysis is focused on both problematic and beneficial effects of the parasitic bipolar junction transistor (BJT) in the floating-body device. The study shows that the bipolar problems overwhelm the benefits, and hence must be alleviated by controlling the activation of the BJT via device design tradeoffs. A feasible approach to the needed design optimization is demonstrated by veritable device/circuit simulations, which also predict significant speed superiority of SOI over bulk-silicon CMOS circuits in scaled, submicrometer technologies  相似文献   

12.
结合多项用于深亚微米集成电路的新技术,提出了用于数GHz射频集成电路的SOI nMOSFET器件结构和制造工艺.经过半导体工艺模拟软件Tsuprem4仿真和优化,给出了主要的工艺步骤和详细的工艺条件.制作了0.25μm SOI射频nMOSFET器件,结构和工艺参数同仿真结果一致,测试获得了优良的或可接受的直流及射频性能.  相似文献   

13.
The generation-over-generation scaling of critical CMOS technology parameters is ultimately bound by nonscalable limitations, such as the thermal voltage and the elementary electronic charge. Sustained improvement in performance and density has required the introduction of new device structures and materials. Partially depleted SOI, a most recent MOSFET innovation, has extended VLSI performance while introducing unique idiosyncrasies. Fully depleted SOI is one logical extension of this device design direction. Gate dielectric tunneling, device self-heating, and single-event upsets present developers of these next-generation devices with new challenges. Strained silicon and high-permittivity gate dielectric are examples of new materials that will enable CMOS developers to continue to deliver device performance enhancements in the sub-100 nm regime.  相似文献   

14.
A new 2D analytical drain current model is presented for symmetric double-gate fully depleted nanoscale SOI MOSFETs. Investigation of device parameters like transconductance for double-gate fully depleted nanoscale SOI MOSFETs is also carried out. Finally this work is concluded by modeling the cut-off frequency, which is one of the main figures of merit for analog/RF performance for double-gate fully depleted nanoscale SOI MOSFETs. The results of the modeling are compared with those obtained by a 2D ATLAS device simulator to verify the accuracy of the proposed model.  相似文献   

15.
Floating-body effects triggered by impact ionization in fully depleted submicrometer silicon-on-insulator (SOI) MOSFETs are analyzed based on two-dimensional device simulations. The parasitic bipolar junction transistor (BJT) effects are emphasized, but the kink effect and its disappearance in the fully depleted device are first explained physically to provide a basis for the BJT analysis. The results of simulations of the BJT-induced breakdown and latch phenomena are given, and parametric dependences are examined to give physical insight for optimal design. The analysis further relates the DC breakdown and latch mechanisms in the fully depleted submicrometer SOI MOSFET to actual BJT-related problems in an operating SOI CMOS circuit. A comprehensive understanding of the floating-body effects is attained, and a device design to control them utilizing a lightly doped source (LDS) is suggested and shown to be feasible  相似文献   

16.
This paper compared the performance of conventional fully depleted (FD) SOI MOSFETs and body-grounded nonfully depleted (NFD) SOI MOSFETs for analog applications, A new low-barrier body-contact (LBBC) technology has been developed to provide effective body contact. Experimental results show that the NFD MOSFET's with LBBC structure give one order of magnitude higher output resistance, significantly lower flicker noise, improved subthreshold characteristics, and minimal threshold voltage variation compared with conventional FD SOI MOSFETs. The device characteristics of the LBBC MOSFET's are more desirable for fabricating high performance analog or mixed analog/digital CMOS circuits  相似文献   

17.
Improved short-channel behavior, reduced subthreshold slopes, and mobility enhancements previously observed in NMOS transistors made in thin, fully depleted silicon-on-insulator (SOI) films are discussed. These results were obtained with the back interface held in depletion during operation. It is shown from basic principles of device operation that the observed performance improvements are sensitive to the applied substrate voltage. In addition, the exposure of the back interface to the surface depletion region in these devices makes the transistor performance sensitive to radiation-induced charging effects at the back interface. The anticipated effects of radiation on threshold voltage, subthreshold slope, and mobility in ultrathin, fully depleted SOI transistors are discussed, and an estimate is made of the expected radiation sensitivity of these parameters for a typical ultrathin SOI technology  相似文献   

18.
A thorough investigation of hot-carrier effects in deep submicron N- and P-channel SOI MOSFET's is reported in this paper. First, a comparison of device aging among three types of SOI devices fabricated by various technologies is shown. The carrier type, the quality of oxides, and the device structure are key parameters for the degradation mechanisms in these devices. On the other hand, the worst-case aging (V d=Vt,Vd/2 or Vd) also depends on these device distinctions. For fully depleted SOI MOSFETs, the variation of the main electrical parameters is determined with and without the influence of defects in the buried oxide. The device lifetime of NMOS/SOI in the worst-case condition is carefully predicted using accurate methods that take into account the degradation saturation and the region of defect creation (Si/SiO2 interface and/or oxide volume). Finally, an investigation of the aging/recovery mechanisms is carried out in P-channel SOI MOSFETs under an alternating stress  相似文献   

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