两层金属场极板高压LDMOS的优化设计

Optimization Design of Double Metal Field Plates for High Voltage LDMOS

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摘要采用场极板结终端技术提高LDMOS击穿电压,借助二维器件仿真器MEDICI软件对基于体硅CMOS工艺500V高压的n-LDMOS器件结构和主要掺杂参数进行优化,确定漂移区的掺杂浓度(ND)、结深(Xj)和长度(LD)。对多晶硅场极板和两层金属场极板的结构参数进行模拟和分析,在不增加工艺复杂度的情况下,设计一种新型的具有两层金属场极板结构的500Vn-LDMOS。模拟结果表明,双层金属场极板结构比无金属场极板结构LDMOS的击穿电压提高了12%,而这两种结构LDMOS的比导通电阻(RS)基本一致。 The breakdown voltage of the LDMOS was improved by the junction terminal techno-logy of the field plate,the structure and the main doping parameters of the 500 V n-LDMOS based on the bulk silicon CMOS technology were optimized with the simulation tool MEDICI,and the doping density ND,the junction depth Xj and the length LD of the shifting region were determined.The structure parameters of the polysilicon field plate and the double metal field plates were simulated and analyzed.A novel 500 V n-LDMOS with double metal field plates was presented without any extra process steps.The simulation results show that the breakdown voltage of the double metal field plates structure is improved by 12% compared to that of the LDMOS without any metal field plates.Besides that,the specific on-resistance almost does not change.

作者张永红黄瑞

机构地区上海第二工业大学实验与实训中心

出处《微纳电子技术》 CAS 北大核心 2011年第2期87-91,共5页 Micronanoelectronic Technology

基金上海第二工业大学校基金项目(QD209012)

关键词 LDMOSFET 金属场极板多晶硅场极板击穿电压比导通电阻 lateral double-diffused metal-oxide-semiconductor field-effect transistor（LDMOSFET） metal field plate polysilicon field plate breakdown voltage specific on resistance

分类号 TN386.1 [电子电信—物理电子学]

作者简介 E-mail：yhzhang@pc.sspu.cn张永红（1982-），女，河南商丘人，上海第二工业大学实验与实训中心教师，主要研究方向是大规模与超大规模集成电路设计、集成电路制造工艺和可制造性设计（DFM）等。

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1APPLES J A,VAES H M J,HART P A,et al.Thin layer high-voltage devices[J].Philips Journal of Research,1979,35 (1):1-13.
2KWO K K,WILLIAM T L.Analysis of the gate voltage de-pendent series resistance of MOSFET[J].IEEE Trans Elec-tron Devices,1986,33 (7):965-972.
3NG K K,BAYRUNS R J,FANG S C.The spread resis-tance of MOSFET[J].IEEE Electron Device Letters,1985,6 (4):195-198.
4FEILER W,HACK E,GERLACH W.Multistep field plates for high-voltage planar p-n junctions[J].IEEE Trans Elec-tron Devices,1992,39 (6):1514-1520.
5刘磊,高珊,陈军宁,柯导明,刘琦,周蚌艳.高压LDMOS场极板的分析与设计[J].半导体技术,2006,31(10):782-786. 被引量：4
6HOSSAIN Z,IMAN M,FULTAN J,et al.Double-RESURF 700 V n-channel LDMOS with best-in-class on-resistance[C]//Proceedings of International Symposium on Power Semiconductor Devices.El Segundo,USA,2002,137-140.
7ZIA H.Determination of manufacturing resurf process window for a robust 700 V double resurf LDMOS transistor[J].Power Semiconductor Devices and Ics,2008,35 (1):133-136.
8XU H P,MA V W Y,SUN I S M,et al.Superjunction LD-MOS with drift region charge-balanced by distributed hexagon p-islands[J].Proceedings of EDSSC,2003,32 (1):313-316.
9LUDIKHUIZE AW.A review of RESURF technology[C]//Proceedings of Power Semiconductor Devices and ICs.Tou-louse,France,2000,11-18.
10AVANT Corporation.TSUPREM-4 Version 2001.4 User's Manual[K].Beaverton,USA:TCAD Business Unit,Technical Publications,2001:172-186.

二级参考文献18

1卓伟,刘光廷,徐晓东.场板的设计和分析[J].半导体技术,1995,11(4):29-31. 被引量：2
2Appels J A,Vaes H M J.High-voltage thin layer devices.IEDM Tech Dig,1979:238.
3Ludikhuize A W.High-voltge DMOS and PMOS in analogIC's.IEDM Tech Dig,1982:81.
4Serag E D Habib.The ALDMOST:A new power MOS transistor.IEEE Electron Device Lett,1987,8:257.
5Sakai T,So K C,Shen Z,et al.Modeling and characterization of SIPOS passivated,high voltage,N- and P-channel lateral RSURF type DMOSFETs.Proc of ISPSD,1992:288.
6Charitat G,Bouanane M A,Rossel P.A new junction termination technique for power devices:RESURF LDMOS with SIPOS layers.Proc of ISPSD,1992:213.
7Terashima T,Yamashita J,Yamada T.Over 1000V n-ch LDMOSFET and p-ch LIGBT with JI RESURF structure and multiple floating field plate.Proc of ISPSD,1995:455.
8Chen X B,Mawby P A,Salama C A T,et al.Lateral high-viltage devices using an optimized variational lateral doping.Int J Electron,1996,3:449.
9Hossain Z,Imam M,Fulton J,et al.Double-resurf 700V N-channel LDMOS with best in class on-resistance.Proc of ISPSD,2002:137.
10Ludikhuize A W.A versatile 700～1200V IC process for analog and switching applications.IEEE Trans Electron Devices,1991,38(7):1582.

共引文献8

1邓兰萍,王纪民.LDMOS低功耗自恢复电平移位电路设计[J].Journal of Semiconductors,2005,26(10):2028-2031. 被引量：5
2王华.永不言败[J].中国大学生就业,2005(20):29-29.
3关彦青,程东方,王邦麟.用TCAD进行IC新工艺的开发[J].微计算机信息,2006,22(10S):131-133. 被引量：6
4王伟宾,赵远远,钟志亲,王姝娅,戴丽萍,张国俊.漂移区覆盖高k薄膜的高压LDMOS器件优化设计[J].微电子学,2012,42(2):261-265. 被引量：1
5孙鹏,刘玉奎,陈文锁.700V三层RESURF nLDMOS优化设计[J].微电子学,2013,43(2):278-281. 被引量：2
6许帅,徐政,吴晓鸫.硅化钛场板的工艺条件与特性研究[J].电子与封装,2013,13(10):33-35.
7石艳梅,张卫华.降场层对SOI LDMOS击穿特性的影响[J].天津理工大学学报,2013,29(5):12-15.
8乔明,袁柳.功率集成器件及其兼容技术的发展[J].电子与封装,2021,21(4):71-86. 被引量：4

1陆生礼,孙伟锋,易扬波,伍玉萍.500V体硅N-LDMOS器件研究[J].固体电子学研究与进展,2005,25(4):521-525. 被引量：2
2许坚,孙伟峰,李海松.100V体硅N-LDMOS器件研究[J].电子器件,2008,31(2):469-471.
3丁磊,许剑,韩郑生,梅沁,钟传杰.LDD工艺参数对多晶硅薄膜晶体管KINK效应的影响[J].液晶与显示,2008,23(2):173-177. 被引量：1
4孙伟锋,易扬波,陆生礼.多场极板LEDMOS表面电场和导通电阻研究[J].固体电子学研究与进展,2006,26(2):157-161. 被引量：1
5张林,肖剑,谷文萍,邱彦章.SiC肖特基栅JFET功率特性的研究[J].微电子学,2012,42(4):556-559. 被引量：2
6王佩宁,胡晨,李锐.面向功耗优化的伪随机测试矢量生成[J].电子器件,2002,25(2):174-177. 被引量：2
7李蔚,刘德明,黄德修.硅基二氧化硅保偏光波导起偏器的设计[J].Journal of Semiconductors,2004,25(10):1311-1314. 被引量：1
8徐德辉,熊斌,王跃林.CMOS兼容自对准微机械热电堆红外探测器[J].光学学报,2010,30(10):2817-2820. 被引量：2
9半导体工业的心脏移植——Intel纳米电子材料发展路线图[J].新材料产业,2004(2):78-81.
10郭宇锋,李曼,杨可萌,夏晓娟,吉新村,张长春.SOI横向功率器件横向耐压技术的研究进展[J].南京邮电大学学报（自然科学版）,2015,35(5):11-19.

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两层金属场极板高压LDMOS的优化设计

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