Second order distortion modeling in HBTs

Proceedings of Third International Conference on Electronics, Circuits, and Systems Pub Date : 1996-10-13 DOI:10.1109/ICECS.1996.584519

O. Woywode, B. Pejcinovic

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Abstract

There is a great deal of interest in operating semiconductor devices in large-signal, high frequency mode and the Heterojunction Bipolar Transistor (HBT) possesses some unique properties that make it suitable for such applications. Unexpectedly, it has very good linear properties. In this paper we examine the fundamental reasons for such good performance of HBTs, compare various models and the influence of different parameters, such as emitter resistance, base-collector capacitance and time delay of current gain. In particular, we examine the cancellation of second harmonic currents in the base emitter junction in great detail. The method of nonlinear currents was used to develop a set of analytical expressions for equivalent circuits of varying complexity. It was found that the emitter resistance R/sub ee/ linearizes the HBT at low frequencies by providing negative feedback and by bringing the phase difference of the second order currents closer to 180/spl deg/. At high frequencies the base collector capacitance C/sub bc/ dominates. The inherent nonlinearity of C/sub bc/ degrades the cancellation of second order currents in the base emitter junction. We have also found a connection between two different current gain models that makes them equivalent under certain conditions.

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hbt中的二阶畸变建模

在大信号、高频模式下操作半导体器件有很大的兴趣，而异质结双极晶体管(HBT)具有一些独特的特性，使其适合于这种应用。出乎意料的是，它有很好的线性性质。本文探讨了hbt具有良好性能的根本原因，比较了各种模型以及发射极电阻、基极集电极电容和电流增益延时等不同参数对hbt性能的影响。特别地，我们非常详细地研究了基极-发射极结中二次谐波电流的消除。采用非线性电流的方法，建立了一套变复杂等效电路的解析表达式。研究发现，发射极电阻R/sub /通过提供负反馈和使二阶电流的相位差接近180/spl°/，使低频时的HBT线性化。在高频，基极集电极电容C/sub bc/占主导地位。C/sub /固有的非线性降低了基极-发射极结中二阶电流的抵消。我们还发现了两种不同的电流增益模型之间的联系，使它们在某些条件下等效。

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 of Third International Conference on Electronics, Circuits, and Systems

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