Haipeng Zhang, Lifei Jiang, Lingling Sun, Wenjun Li, Lei Zhou, Boxing Hua, Liyan Xu, Mi Lin
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引用次数: 16
摘要
本文首次提出了一种具有沟槽栅极和场极板沟槽漏极结构的新型绝缘子硅(SOI) LDMOS (TGFPTD)。所提出的TGFPTD SOI LDMOS主要具有垂直沟道和沟道电流扩展区、横向漂移区、停场掺杂区、沟槽漏极以及几乎最均匀的电流流过漂移区。因此,可以确信TGFPTD SOI LDMOS电池具有比传统SOI LDMOS更低的导通电阻、更低的导通压降和功耗、更高的击穿电压和更高的开关速度。TCAD仿真结果表明,TGFPTD SOI LDMOS电池具有低导通压降、低导通静态电阻和高导通击穿电压的特点,在一定程度上可以在先进的CMOS技术中实现。
A novel SOI LDMOS with a Trench Gate and Field Plate and Trench Drain for RF applications
In this paper a novel structural silicon on insulator (SOI) LDMOS with trench gate and field plate and trench drain (TGFPTD) is firstly proposed. The proposed TGFPTD SOI LDMOS is mainly characterized of a vertical channel and channel current spreading area, a lateral drift region, a field-stopping doped area, a trench drain as well as nearly the most homogenous current flowing through the drift region. Therefore it is convinced that the proposed TGFPTD SOI LDMOS cell is featured of much lower on-resistance, lower on-state voltage drop and power dissipation, higher breakdown voltage and higher switching speed than those of conventional SOI LDMOS. Simulated results obtained with TCAD tools indicate that the proposed TGFPTD SOI LDMOS cell could be realized to some extent in advanced CMOS technologies and is characterized of low on-state voltage drop, low on-state static resistor and high off-state breakdown voltage.
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