用于高频高压工作的硅导通基极晶体管的掺杂曲线优化

Proceedings., IEEE/Cornell Conference on Advanced Concepts in High Speed Semiconductor Devices and Circuits, Pub Date : 1989-08-07 DOI:10.1109/CORNEL.1989.79834

D. Rathman, M. Hollis, R. A. Murphy, A. L. McWhorter, M. Mcnamara

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引用次数: 2

摘要

研究了蚀刻发射极Si pbt(可渗透基极晶体管)垂直掺杂分布对f/sub t/和V/sub B/的影响。利用二维模拟程序CANDE确定了若干剖面的f/sub T/作为V/sub CE/和V/sub B/的函数。高度不均匀的掺杂分布(高掺杂的发射极，低掺杂的集电极)导致器件的V/sub B/比均匀掺杂器件高，在最大f/sub T/ s相同的掺杂水平下。对于非均匀掺杂的PBT, f/sub T/保持高的V/sub CE/范围扩大，而均匀掺杂的器件随着V/sub CE/的增加而从最大值缓慢下降。在非均匀掺杂情况下，观察到的f/sub T/和V/sub B/的增强将使该器件在大信号操作中非常有用，特别是在a类中。f/sub T/对V/sub CE/和VB的依赖关系与所提出的模型一致。尽管目前的工艺限制将f/sub T/ s限制在理论值的60%，V/sub B/ s限制在理论值的80%，但已经制造出在V/sub CE/=15 V时f/sub T/=22 GHz和在C/sub CE/=26 V时f/sub T/=12 GHz的非均匀掺杂Si pbt。

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Doping profile optimization in silicon permeable base transistors for high-frequency, high-voltage operation

The effects of variations in the vertical doping profiles of etched-emitter Si PBTs (permeable base transistors) on f/sub t/ and V/sub B/ have been investigated. CANDE, a two-dimensional simulation program, has been used to determine f/sub T/ as a function of V/sub CE/ and V/sub B/ for a number of profiles. A highly nonuniform doping profile (high-doped emitter, low-doped collector) results in a device with a higher V/sub B/ than a uniformly doped device for doping levels at which the maximum f/sub T/'s are identical. The range of V/sub CE/ over which f/sub T/ remains high is extended for the nonuniformly doped PBT, whereas the uniformly doped device shows a slow degradation from its maximum with increasing V/sub CE/. The enhancement in f/sub T/ and V/sub B/ observed for the nonuniformly doped case should make the device very useful in large-signal operation, particularly in class A. Experimental devices with both nonuniform and uniform doping profiles have been fabricated. The dependence of f/sub T/ on V/sub CE/ and VB are consistent with the model presented. Despite processing limitations which currently limit f/sub T/'s to 60% of their theoretical value and V/sub B/'s to 80% of their theoretical value, nonuniformly doped Si PBTs with f/sub T/=22 GHz at V/sub CE/=15 V and f/sub T/=12 GHz at C/sub CE/=26 V have been fabricated.<>

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来源期刊

Proceedings., IEEE/Cornell Conference on Advanced Concepts in High Speed Semiconductor Devices and Circuits,

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