共查询到16条相似文献,搜索用时 125 毫秒
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非外延集电区的超高压锗硅异质结双极晶体管 总被引:1,自引:1,他引:0
介绍了在0.18 μm逻辑工艺平台上全新设计的超高压锗硅异质结双极晶体管(SiGe HBT),该器件改变了外延的一维纵向集电区,而采用了通过离子注入掺杂的“L形”二维集电区结构,集电区包括本征基区下方的纵向集电区和场氧底部横向集电区.该器件可在同一工艺中通过版图中横向集电区长度的变化实现不同的击穿电压,因此可制作超高压... 相似文献
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为了改善SiGe异质结双极型晶体管(HBT)的电学特性和频率特性,设计了一种新型的SGOI SiGe HBT。在发射区引入了双轴张应变Si层。多晶Si与应变Si双层组合的发射区有利于提高器件的注入效率。利用Silvaco TCAD软件建立了二维器件结构模型,模拟了器件的工艺流程,并对器件的电学特性和频率特性进行了仿真分析。结果表明,与传统的SiGe HBT相比,新型SGOI SiGe HBT的电流增益β、特征频率fT等参数得到明显改善,在基区Ge组分均匀分布的情况下,β提高了29倍,fT提高了39.9%。 相似文献
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超结SiGe功率开关二极管可以克服常规Si功率二极管存在的一些缺陷,如阻断电压增大的同时,正向导通压降也将增大,反向恢复时间也变长。该新型功率二极管有两个重要特点:一是由轻掺杂的p型柱和n型柱相互交替形成超结结构,代替传统功率二极管的n-基区;二是p+区采用很薄的应变SiGe材料。该器件可以同时实现高阻断电压、低正向压降和快速恢复的电学特性。与相同器件厚度的常规Si功率二极管相比较,反向阻断电压提高了42%,反向恢复时间缩短了40%,正向压降减小了约0.1V(正向电流密度为100A/cm2时)。应变SiGe层中Ge含量和器件的基区厚度是影响超结SiGe二极管电学特性的重要参数,详细分析了该材料参数和结构参数对正向导通特性、反向阻断特性和反向恢复特性的影响,为器件结构设计提供了实用的参考价值。 相似文献
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Ge组分对SiGe HBT直流特性的影响 总被引:1,自引:0,他引:1
制作了基区Ge组分分别为0.20和0.23的多发射极指数双台面结构SiGe异质结双极型晶体管(HBT)。实验结果表明,基区Ge组分的微小增加,引起了较大的基极复合电流,但减小了总的基极电流,提高了发射结的注入效率,电流增益成倍地提高。Ge组分从0.20增加到0.23,HBT的最大直流电流增益从60增加到158,提高了约2.6倍。 相似文献
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The specific aspects of SiGe:C HBT process and device simulation using TCAD are discussed. Cut-off frequency f
T and collector junction breakdown voltage BV
cbo dependences on carbon concentration in SiGe base area are investigated. The boron and carbon profiles in SiGe base are obtained
to provide a trade-off between gain, cut-off frequency and break-down voltage. High values of f
T × BV
cbo product were achieved. 相似文献
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Joseph A.J. Cressler J.D. Richey D.M. Niu G. 《Electron Devices, IEEE Transactions on》1999,46(7):1347-1354
A comprehensive investigation of the impact of Ge profile shape as well as the scaling of collector and base doping profiles on high-injection heterojunction barrier effects in SiGe HBTs has been conducted over the -73-85°C temperature range. The onset of Kirk effect at high current densities is shown to expose the Si/SiGe heterojunction in the collector-base space charge region, thereby inducing a conduction band barrier which negatively impacts the collector and base currents as well as the dynamic response, leading to a premature roll-off in both β and fT. In light of this, careful profile optimization is critical for emerging SiGe HBT circuit applications, since they typically operate at high current densities to realize maximum performance. We first explore the experimental consequences and electrical signature of these barrier effects over the 200-358 K temperature range for a variety of Ge profiles from an advanced UHV/CVD SiGe HBT technology. We then use extensive simulations which were calibrated to measured results to explore the sensitivity of these barrier effects to both the Ge profile shape and collector profile design, and hence investigate the optimum profile design points as a function of vertical scaling 相似文献
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提出了一个模拟SiGe基区HBT器件特性的物理模型。在基区部分考虑了发射结处的价带不连续、大注入效应、Ge组份变化及重掺杂效应引起的能带变化的影响;在集电区分析时考虑了基区推出效应、载流子速度饱和效应、电流引起的空间电荷区效应以及准饱和效应。在此基础上给出了SiGe基区HBT器件的电流和电荷公式。同时开发了SiGe基区HBT的直流瞬态模型和小信号模型。利用修改的SPICE程序模拟了实际SiGe基区 相似文献
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《Microelectronics Journal》2007,38(4-5):576-582
Boron outdiffusion from the base into the emitter and collector caused by annealing in SiGe heterobipolar transistors (HBTs) has a serious influence on the transit frequency. One solution of the problem of boron outdiffusion is the creation of intrinsic spacers between the base, emitter and collector layers to prevent diffusion of boron across the heterointerface. For optimisation of SiGe HBT properties, several simulators are used. This paper presents a quantitative analysis of a SiGe HBT by process simulators SUPREM IV.GS and ISE TCAD-DIOS. Models for simulation of a boron-doped SiGe base of HBT are discussed and compared. 相似文献