0.5 /spl μ m BiCMOS和DMOS工艺的多电压器件集成技术

12th International Symposium on Power Semiconductor Devices & ICs. Proceedings (Cat. No.00CH37094) Pub Date : 2000-05-22 DOI:10.1109/ISPSD.2000.856837

Tomohide Terashima, F. Yamamoto, K. Hatasako

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引用次数: 26

摘要

本文介绍了BiCMOS和DMOS工艺的多电压器件集成技术，以及半微米工艺中5 V/12 V NPNTr不经热处理而降低β的简单措施。N井偏置栅极用于30v高压nmos。此外，埋入的P+对60 V HV-NMOS产生了RESURF效应。每个特定导通电阻(Ron/spl中点/S)达到足够低的值(60 m /spl Omega/ mm2 (BVds=33 V)， 127 m /spl Omega/ mm2 (BVds=74 V))。仅加入P井保护环，60 V DMOS结构变为90 V DMOS, Ron/spl middot/S为230 m /spl Omega/ mm2 (BVds=94 V)。我们可以优化30 V/60 V/90 V NMOS器件和FID(全隔离二极管)。以PMOS为例，采用P- ldd(轻掺杂漏极)和下沉P区(P体、P阱)相结合的方法实现了30 V/60 V/90 V的PMOS。利用P+屏蔽区稳定了5v / 12v NPNTr的β。上述各种技术不需要任何复杂的工艺步骤。

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Multi-voltage device integration technique for 0.5 /spl mu/m BiCMOS and DMOS process

This paper describes the multi-voltage device integration technique for BiCMOS and DMOS process and the simple measures to the beta decreasing of 5 V/12 V NPNTr by the lack of heat treatment used for half-micron process. The N well offset gate are used for 30 V HV-NMOS. Moreover, RESURF effect by Buried P+ is applied to 60 V HV-NMOS. Each specific on-resistance (Ron/spl middot/S) reaches sufficiently low value (60 m /spl Omega/ mm2 (BVds=33 V), 127 m /spl Omega/ mm2 (BVds=74 V)). 60 V DMOS structure became to 90 V DMOS by only addition of P well guard ring, and the Ron/spl middot/S is 230 m /spl Omega/ mm2 (BVds=94 V). Using the appropriate length of RESURF formed at N-epitaxial layer; we could optimize 30 V/60 V/90 V NMOS devices and FID (Full Isolation Diode). In the case of PMOS, 30 V/60 V/90 V PMOS has been realized by using the combination of P-LDD (Lightly Doped Drain) and Sinker P region (P body, P well). Using a P+ shield region stabilized the beta of 5 V/12 V NPNTr. Any complicated process step is not needed for various techniques mentioned above.

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12th International Symposium on Power Semiconductor Devices & ICs. Proceedings (Cat. No.00CH37094)

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