t型栅极形状和压片长度对PHEMT高频性能的影响

GaAs IC Symposium. IEEE Gallium Arsenide Integrated Circuit Symposium. 19th Annual Technical Digest 1997 Pub Date : 1997-10-12 DOI:10.1109/GAAS.1997.628239

H. Brech, T. Grave, T. Simlinger, S. Selberherr

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引用次数: 5

摘要

提出了基于gaas的伪晶高电子迁移率晶体管(PHEMTs)的流体动力学/漂移扩散联合模拟。他们不仅考虑了本征晶体管的结构，而且还以一种现实的方式模拟了触点和介电钝化的复杂几何形状。特别注意实现t型栅极截面的一般方案，该方案允许对电子束光刻以及基于光学光刻的间隔工艺实现的栅极轮廓进行建模。采用间隔技术在同一晶圆上制造的两种不同phemt(栅极长度分别为220和500 mm)的直流和射频测量数据非常精确地计算出来。然后，该模拟器用于定量预测栅极长度减小、t栅极轮廓修改和钝化减薄对器件射频性能的影响。指出了应用于高频器件的栅极间隔工艺的具体问题，并指出了最有效的工艺改进方法。

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Influence of T-gate shape and footprint length on PHEMT high frequency performance

Combined hydrodynamic/drift-diffusion simulations of GaAs-based pseudomorphic high electron mobility transistors (PHEMTs) are presented. They do not only take into account the structure of the intrinsic transistor but also model the complex geometries of contacts and dielectric passivation in a realistic manner. Special care was taken to implement a general scheme for the T-gate cross section that allows to model gate profiles realized with electron beam lithography as well as with spacer processes based on optical lithography. Measured dc and RF data of two different PHEMTs (gate lengths 220 and 500 mm, respectively) manufactured on the same wafer with spacer technology are calculated very exactly. The simulator is then used to predict the effects of gate length reduction, modification of the T-gate profile and thinning of the passivation on device RF performance quantitatively. The specific problems of gate spacer processes applied to high frequency devices are identified, and the most effective process improvements are indicated.

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来源期刊

GaAs IC Symposium. IEEE Gallium Arsenide Integrated Circuit Symposium. 19th Annual Technical Digest 1997

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