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研究了P埋层深度对体硅 Triple-RESURF LDMOS纵向电场和击穿电压的影响。分析表明,当P型埋层靠近器件表面时,纵向电场平均值较小,击穿电压较低;当P型埋层靠近衬底时,优化漂移区浓度较低,器件比导通电阻较大;当P型埋层位于漂移区中部时,器件的BV2/Rs,on设计优值最大。指出了P型埋层在漂移区不同区域时击穿点的位置,以及对应的漂移区浓度取值范围,为横向高压Triple-RESURF LDMOS的设计提供了参考。 相似文献
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A novel triple RESURF(T-resurf) SOI LDMOS structure is proposed.This structure has a P-type buried layer.Firstly,the depletion layer can extend on both sides of the P-buried layer,serving as a triple RESURF and leading to a high drift doping and a low on-resistance.Secondly,at a high doping concentration of the drift region, the P-layer can reduce high bulk electric field in the drift region and enhance the vertical electric field at the drain side,which results in uniform bulk electric field distributions and an enhanced BV.The proposed structure is used in SOI devices for the first time.The T-resurf SOI LDMOS with BV = 315 V is obtained by simulation on a 6μm-thick SOI layer over a 2μm-thick buried oxide layer,and its Rsp is reduced from 16.5 to 13.8 mΩ·cm2 in comparison with the double RESURF(D-resurf) SOI LDMOS.When the thickness of the SOI layer increases, T-resurf SOI LDMOS displays a more obvious effect on the enhancement of BV2/Ron.It reduces Rsp by 25%in 400 V SOI LDMOS and by 38%in 550 V SOI LDMOS compared with the D-resurf structure. 相似文献
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一种新型高压Triple RESURF SOI LDMOS 总被引:2,自引:2,他引:0
提出了一种新型Triple RESURF SOI LDMOS结构,该结构有一个P型埋层。首先,耗尽层能够在P型埋层的上下同时扩展与Triple RESURF机理相同,使得漂移区浓度提高,导通电阻降低。其次,当漂移区浓度较高时,P型埋层起到了降低体内电场的作用,并能够提高漏端纵向电场使得其电场分布更加均匀从而耐压增加。Triple RESURF结构在SOI LDMOS中首次提出。在6微米厚的SOI层以及2微米厚的埋氧层中获得了耐压300V的Triple RESURF SOI LDMOS,其导通电阻从Double RESURF SOI LDMOS的17.2mΩ.cm2降低到13.8mΩ.cm2。当外延层厚度增加时, Triple RESURF结构的效果更加明显,在相同耐压下,相对于Double RESURF,该结构能够在400V和550V的SOI LDMOS中分别降低29%和38%的导通电阻。 相似文献
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