共查询到19条相似文献,搜索用时 93 毫秒
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提出了一种具有分段P型埋层的Triple-RESURF LDMOS(SETR LDMOS)。该结构将传统Triple-RESURF LDMOS(TR LDMOS)中均匀掺杂的P埋层漏端一侧做分段处理,使漂移区中P型杂质从源端到漏端呈现出近似阶梯掺杂的分布。这种优化能够平衡漏端底部剧烈的衬底辅助耗尽效应,提升器件的耐压性能;同时,器件正向导通状态下,对电流的传输路径也没有形成阻碍,能够维持较低的比导通电阻。流片结果表明,在漂移区长度均为65μm的情况下,SETR LDMOS的击穿电压能达到813 V,比传统TR LDMOS的击穿电压高51 V,且比导通电阻维持在7.3Ω·mm2。 相似文献
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利用TCAD仿真研究了一种具有异质结体二极管与N包围型P柱超结的4H-SiC UMOSFET(SJH-MOSFET)。通过在SJH-MOSFET中引入异质结和具有电荷平衡的超结结构,能够有效地优化器件的击穿电压、比导通电阻、反向恢复特性。研究结果表明,薄轻掺杂的电流扩展层(CSL)和N型包围使得耗尽区变窄,并为电流的流动提供了两个扩散路径,其中CSL使得电子快速地水平扩散,而N型包围允许电子可以垂直地流动,改进后结构的耐压提升了13.6%,栅槽底部高电场降低了10.5%,比导通电阻降低了10.5%,开启时间降低了38.4%,关断时间降低了44.7%;体区嵌入P+多晶硅与漂移区接触形成异质结体二极管,由于异质结特殊的能带结构,使得体二极管在导通时,P+多晶硅里空穴较少地流入到漂移区,使反向恢复电荷降低了42.96%,反向恢复时间降低了4.17%。 相似文献
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针对传统垂直GaN基异质结场效应晶体管中,由于GaN电流阻挡层内p型杂质激活率低而导致的漏电问题,提出了一种使用AlGaN极化掺杂电流阻挡层的垂直GaN基异质结场效应晶体管结构。在AlGaN极化掺杂电流阻挡层中,通过Al组分渐变而产生的极化电场来提升p型杂质激活率,能更加有效地抑制截止状态下通过极化掺杂电流阻挡层的泄漏电流,从而提升器件的耐压能力。此外,极化掺杂电流阻挡层内空穴浓度的增大会降低器件导通电阻,但由于极化掺杂电流阻挡层与n-GaN缓冲层之间形成的二维电子气会阻挡耗尽层向缓冲层内的扩展,极化掺杂电流阻挡层的使用对器件导通电阻几乎没有影响。 相似文献
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提出了一种具有超低比导通电阻的L型栅漏极LDMOS器件。该器件在两个氧化槽中分别制作L型多晶硅槽栅。漏极n型重掺杂区向下延伸,与衬底表面重掺杂的n型埋层相接形成L型漏极。L型栅极不仅可以降低导通电阻,还具有纵向栅场板的特性,可有效改善表面电场分布,提高击穿电压。L型漏极为电流提供了低阻通路,降低了导通电阻。另外,氧化槽折叠漂移区使得在相同耐压下元胞尺寸及导通电阻减小。二维数值模拟软件分析表明,在漂移区长度为0.9 μm时,器件耐压达到83 V,比导通电阻仅为0.13 mΩ·cm2。 相似文献
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《Microelectronics Journal》2015,46(5):404-409
In this paper, a power laterally diffused metal-oxide-semiconductor field-effect transistor (LDMOSFET) on InGaAs is proposed to achieve substantial improvement in breakdown voltage, on-resistance and Baliga׳s figure-of-merit with reduced cell pitch. The proposed LDMOSFET contains two vertical gates which are placed in two separate trenches built in the drift region. The source and drain contacts are taken from the top. The modified device has a planer structure implemented on InGaAs which is suitable for medium voltage power integrated circuits. The performance of proposed device is evaluated using two-dimensional numerical simulations and results are compared with that of the conventional LDMOSFET. The proposed structure considerably reduces the electric field inside the drift region due to reduced-surface field (RESURF) effect even at increased doping concentration leading to improved design trade-off. The proposed device provides 144% higher breakdown voltage, 25% lower specific on-resistance, 8 times improvement in figure-of-merit, and 25% reduction in cell pitch as compared to the conventional device. 相似文献
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新型的功率器件--射频LDMOS 总被引:3,自引:1,他引:3
射频LDMOS功率器件与普通双极型功率器件相比,结构合理、增益高、热稳定性好、性价比高,广泛应用于通信、广播、航空、军事电子等领域。文中对射频LDMOS功率器件的发展趋势、应用前景及主要性能作了较详细的分析,通过实验得出结论,LDMOS功率器件可用于固态发射机中。 相似文献
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A new technique for high breakdown voltage of the LDMOS device is proposed in this paper. The main idea in the proposed technique is to insert the P+ silicon windows in the buried oxide at the interface of the n-drift to improve the breakdown voltage, electric field and maximum lattice temperature. The proposed structure is called as P+ window LDMOS (PW-LDMOS). It is shown by extending the depletion region between the P+ windows and the n-drift region, the breakdown voltage of PW-LDMOS increases to 405 V from 84 V of the conventional LDMOS on 1 µm silicon layer and 2 µm buried oxide layer. Also, effective values of doping, length, and depth of P+ window are investigated in the breakdown voltage. Moreover, a self-heating-effect is alleviated by the silicon windows in comparison with the conventional LDMOS. All the achieved results have been extracted by two-dimensional and two-carriers simulator ATLAS. 相似文献