超低比导通电阻SOI双栅槽型MOSFET

本文提出了超低比导通电阻(Ron,sp) SOI双栅槽型MOSFET(DG Trench MOSFET)。此MOSFET的特点是拥有双栅和一个氧化物槽：氧化物槽位于漂移区,一个槽栅嵌入氧化物槽,另一个槽栅延伸到埋氧层。首先,双栅依靠形成双导电沟道来减小Ron,sp;其次,氧化物槽不仅折叠漂移区,而且调制电场,从而减小元胞尺寸,增大击穿电压。当DG Trench MOSFET的半个元胞尺寸为3μm时,它的击穿电压为93V,Ron,sp为51.8mΩ?mm2。与SOI单栅MOSFET(SG MOSFET)和SOI单栅槽型MOSFET(SG Trench MOSFET)相比,在相同的BV下,DG Trench MOSFET的Ron,sp分别地降低了63.3%和33.8%。     

A new high voltage SOI LDMOS with triple RESURF structure

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 R_sp 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/R_on.It reduces R_sp by 25%in 400 V SOI LDMOS and by 38%in 550 V SOI LDMOS compared with the D-resurf structure.     

一种新型高压Triple RESURF SOI LDMOS

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。     

Ultra-low specific on-resistance SOI double-gate trench-type MOSFET

An ultra-low specific on-resistance(R_on,sp) silicon-on-insulator（SOI） double-gate trench-type MOSFET （DG trench MOSFET） is proposed.The MOSFET features double gates and an oxide trench:the oxide trench is in the drift region,one trench gate is inset in the oxide trench and one trench gate is extended into the buried oxide.Firstly,the double gates reduce R_on,sp by forming dual conduction channels.Secondly,the oxide trench not only folds the drift region,but also modulates the electric field,thereby reducing device pitch and increasing the breakdown voltage（BV）.A BV of 93 V and a R_on,sp of 51.8 mΩ·mm² is obtained for a DG trench MOSFET with a 3μm half-cell pitch.Compared with a single-gate SOI MOSFET（SG MOSFET） and a single-gate SOI MOSFET with an oxide trench（SG trench MOSFET）,the R_on,sp of the DG trench MOSFET decreases by 63.3%and 33.8% at the same BV,respectively.     

带有P型埋层的新型双栅SOI MOSFET

本文提出一种超低比导通电阻(Ron,sp)可集成的SOI 双栅triple RESURF (reduced surface field)的n型MOSFET (DG T-RESURF)。这种MOSFET具有两个特点：平面栅和拓展槽栅构成的集成双栅结构(DG),以及位于n型漂移区中的P型埋层。首先, DG形成双导电通道并且缩短正向导电路径,降低了比导通电阻。DG结构在反向耐压时起到了纵向场板作用,提高了器件的击穿电压特性。其次, P型埋层形成triple RESURF结构 (T-RESURF),这不仅增加了漂移区的浓度,而且调节了器件的电场。这在降低了比导通电阻的同时提高了击穿电压。最后,与p-body区连接在一起的P埋层和拓展槽栅结构,可以显著降低击穿电压对P型埋层位置的敏感性。通过仿真,DG T-RESURF的击穿电压为325V,比导通电阻为8.6 mΩ?cm2,与平面栅single RESURF MOSFET(PG S-RESURF)相比,DG T-RESURF的比导通电阻下降了63.4%,击穿电压上升9.8%。