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Guo Yufeng Li Zhaoji Zhang Bo Luo Xiaorong 《电子科学学刊(英文版)》2006,23(3):437-443
A new SOI (Silicon On Insulator) high voltage device with Step Unmovable Surface Charges (SUSC) of buried oxide layer and its analytical breakdown model are proposed in the paper. The unmovable charges are implemented into the upper surface of buried oxide layer to increase the vertical electric field and uniform the lateral one. The 2-D Poisson's equation is solved to demonstrate the modulation effect of the immobile interface charges and analyze the electric field and breakdown voltage with the various geometric parameters and step numbers. A new RESURF (REduce SURface Field) condition of the SOl device considering the interface charges and buried oxide is derived to maximize breakdown voltage. The analytical results are in good agreement with the numerical analysis obtained by the 2-D semiconductor devices simulator MEDICI. As a result, an 1200V breakdown voltage is firstly obtained in 3pro-thick top Si layer, 2pro-thick buried oxide layer and 70pro-length drift region using a linear doping profile of unmovable buried oxide charges. 相似文献
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本文提出了一种具有高k介质阶梯变宽度结构的新型的SOI LDMOS器件,该器件通过在漂移区内引入介质区域使得漂移区的宽度呈阶梯变化.借助三维器件仿真软件DAVINCI对其势场分布及耐压特性进行了深入分析.首先,阶梯变宽度结构能够在漂移区内引入新的电场峰值来优化势场分布,提高击穿电压.其次,采用高k材料作为侧壁介质区域可以进一步优化漂移区内势场分布,并提高漂移区浓度来降低导通电阻.结果表明,与常规结构相比,新器件的击穿电压可提高42%,导通电阻可降低37.5%,其FOM优值是常规器件的3.2倍. 相似文献
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具有倾斜表面漂移区的SOI LDMOS的工艺设计 总被引:1,自引:0,他引:1
对一种具有倾斜表面漂移区SOI LDMOS的制造方法进行了研究,提出采用多窗口LOCOS法形成倾斜表面漂移区的新技术;建立了倾斜表面轮廓函数的数学模型,并开发了用于优化窗口尺寸和位置的计算机程序。TCAD 2-D工艺仿真验证了该技术的可行性。设计了漂移区长度约为15μm的SOI LDMOS。数值仿真结果表明,与RESURF结构器件相比较,其漂移区电场近似为理想的常数分布,并且击穿电压提高约8%,漂移区浓度提高约127%。由此可见,VLT是一种理想的横向耐压技术。 相似文献
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Unified Breakdown Model of SOI RESURF Device with Uniform/Step/Linear Doping Profile 总被引:5,自引:3,他引:2
A unified breakdown model of SOI RESURF device with uniform,step,or linear drift region doping profile is firstly proposed.By the model,the electric field distribution and breakdown voltage are researched in detail for the step numbers from 0 to infinity.The critic electric field as the function of the geometry parameters and doping profile is derived.For the thick film device,linear doping profile can be replaced by a single or two steps doping profile in the drift region due to a considerable uniformly lateral electric field,almost ideal breakdown voltage,and simplified design and fabrication.The availability of the proposed model is verified by the good accordance among the analytical results,numerical simulations,and reported experiments. 相似文献
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Analysis of hot-carrier degradation in a SOI LDMOS transistor with a steep retrograde drift doping profile 总被引:6,自引:6,他引:0
I. Corts J. Roig D. Flores J. Urresti S. Hidalgo J. Rebollo 《Microelectronics Reliability》2005,45(3-4):493-498
This paper reports the electrical performances of a RF SOI power LDMOS transistor with a retrograde doping profile in the entire drift region. A comparison between retrograde and conventional uniformly doped drift SOI power LDMOS transistors is provide by means of a numerical simulation analysis. The proposed structures exhibit better performances in terms of trapped electron distribution and transconductance degradation with no modification of the breakdown voltage capability. Simulation results show that, at a given bias conditions, the reduction of lateral electric field peak at the silicon surface due to the implementation of the retrograde doping profile accounts for the observed reduction of the hot carrier degradation effect. 相似文献
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提出了体硅LDMOS漂移区杂质浓度分布的一种二维理论模型,根据该模型,如果要使带有场极板的LDMOS得到最佳的性能,那么LDMOS漂移区的杂质浓度必须呈分段线性分布.用半导体专业软件Tsuprem-4和Medici模拟证明了该模型十分有效,根据该模型优化得到的新型LDMOS的击穿电压和导通电阻分别比常规LDMOS增加58.8%和降低87.4%. 相似文献
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针对600 V以上SOI高压器件的研制需要,分析了SOI高压器件在纵向和横向上的耐压原理。通过比较提出薄膜SOI上实现高击穿电压方案,并通过仿真预言其可行性。在埋氧层为3μm,顶层硅为1.5μm的注氧键合(Simbond)SOI衬底上开发了与CMOS工艺兼容的制备流程。为实现均一的横向电场,设计了具有线性渐变掺杂60μm漂移区的LDMOS结构。为提高纵向耐压,利用场氧技术对硅膜进行了进一步减薄。流片实验的测试结果表明,器件关态击穿电压可达600 V以上(实测832 V),开态特性正常,阈值电压提取为1.9 V,计算开态电阻为50Ω.mm2。 相似文献
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为探索在薄埋氧层SOI衬底上实现超高耐压LDMOS的途径,提出了一种具有P埋层(BPL)的薄埋氧层SOI LDMOS结构,耐压1200V以上。该BPL SOI LDMOS在传统SOI LDMOS的埋氧层和N型漂移区之间引入了一个P型埋层。当器件正向截止时,N型漂移区与P埋层之间的反偏PN结将承担器件的绝大部分纵向压降。采用2维数值仿真工具Silvaco TCAD对BPL SOI LDMOS进行虚拟制造和器件仿真,结果表明该结构采用适当的参数既能实现1280V的耐压,将BOX层减薄到几百纳米以下又可以改善其热特性。 相似文献
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给出了漂移区为线性掺杂的高压薄膜SOI器件的设计原理和方法.在Si膜厚度为0.15μm、隐埋氧化层厚度为2μm的SOI硅片上进行了LDMOS晶体管的制作.首次对薄膜SOI功率器件的击穿电压与线性掺杂漂移区的杂质浓度梯度的关系进行了实验研究.通过对漂移区掺杂剂量的优化,所制成的漂移区长度为50μm的LDMOS晶体管呈现了高达612V的击穿电压. 相似文献
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对一种具有倾斜表面漂移区SOI LDMOS的制造方法进行了研究,提出了多窗口反应离子刻蚀法来形成倾斜表面漂移区的新技术,建立了倾斜表面轮廓函数的数学模型,TCAD工具的2D工艺仿真证实了该技术的可行性,最终优化设计出了倾斜表面漂移区长度为15μm的SOI LDMOS.数值仿真结果表明,其最优结构的击穿电压可达350 V... 相似文献
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In this paper, we extensively investigate, by two-dimensional simulations, the output characteristics accuracy and breakdown voltage performance for very-thin film (80 nm) SOI lateral double-diffused MOS (LDMOS) transistor as a function of the drift doping, drift length and field plate length. Trade-offs are discussed to optimize the off-state breakdown voltage versus the occurrence of kink effect and quasi-saturation in on-state. The conclusions are supported by experimental results. 相似文献
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