High Performance Isolated LDMOS with Source Spacer and Asymmetric Hetero-doped Architectures

Proceedings. ISPSD '05. The 17th International Symposium on Power Semiconductor Devices and ICs, 2005. Pub Date : 2005-05-23 DOI:10.1109/ISPSD.2005.1488021

J. Cai, M. Harley-Stead, J. Wołoszyn, S. Park

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引用次数: 3

Abstract

A novel isolated LDMOS structure, using a simple yet effective concept of an asymmetric hetero-doped source/drain, is proposed. The asymmetric hetero-doped source/drain reduces the on-state resistance of the transistor due to the high n-type doping used for device drain drift, provides excellent ruggedness for parasitic NPN turned-on due to a minimized n+ source spacer, and also raises the device breakdown voltage due to charge compensation in the composite drain drift region. Therefore, the asymmetric hetero-doped source/drain structure allows the isolated LDMOS to have a high current handling capability with a small device size. Measured results show that a 24 V breakdown voltage new device with a low cost two-layer metal (Al) back-end achieves very low R (sp, on) of 16.6 mOmega.mm2. Furthermore, the new device with 65 V high-side capability achieves good isolation performance even when switching source/drain to -20 V and also gets a cut-off frequency of 13 GHz at a gate voltage of 5.5 V

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具有源间隔和非对称杂掺杂结构的高性能隔离LDMOS

提出了一种新颖的LDMOS隔离结构，该结构采用了一种简单而有效的非对称异质掺杂源/漏极概念。非对称异质掺杂源/漏极由于用于器件漏极漂移的高n型掺杂降低了晶体管的导通电阻，由于最小化n+源间隔，为寄生NPN打开提供了出色的坚固性，并且由于复合漏极漂移区域的电荷补偿，也提高了器件的击穿电压。因此，不对称的杂掺杂源/漏极结构允许隔离的LDMOS具有小器件尺寸的高电流处理能力。测量结果表明，采用低成本的双层金属(Al)后端，采用24v击穿电压的新器件可获得16.6 moma .mm2的极低R (sp, on)。此外，具有65 V高侧能力的新器件即使在源/漏极开关到-20 V时也能实现良好的隔离性能，并且在5.5 V的栅极电压下也能获得13 GHz的截止频率

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings. ISPSD '05. The 17th International Symposium on Power Semiconductor Devices and ICs, 2005.

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