水平电流双极晶体管(HCBT)的噪声图表征

2018 IEEE BiCMOS and Compound Semiconductor Integrated Circuits and Technology Symposium (BCICTS) Pub Date : 2018-10-01 DOI:10.1109/BCICTS.2018.8551146

J. Žilak, M. Koričić, Željko Osrečki, M. Simic, T. Suligoj

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引用次数: 5

摘要

本文首次研究了水平电流双极晶体管(HCBT)技术的噪声参数。分析和解释了技术参数(即三种不同的集电极掺杂谱)对噪声性能的影响。具有均匀n集电极的HCBT在$\pmb{f}=\mathbf{0.9}$ GHz和$\pmb{f}=\pmb{1.5}$ GHz的最小噪声系数$(\pmb{N}F_{\min})$分别为0.91 dB和1.09 dB，而具有低掺杂n集电极的HCBT具有最高的相关增益，意味着最佳的噪声增益权衡。这三种hcbt的最佳集电极电流$(\pmb{I}_{\text{Copt}})$分别在最低$\pmb{NF}_{\min}$约为5 mA和10 mA，分别在0.9 GHz和1.5 GHz时，以及最佳阻抗$\pmb{Z}_{\text{opt}}$接近$\mathbf{50}\ \Omega$。一些低噪声放大器制造$\pmb{NF}=\mathbf{1.22}\ \mathbf{dB}$和功率增益高达17.2 dB在0.9 GHz。

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Noise Figure Characterization of Horizontal Current Bipolar Transistor (HCBT)

Noise parameters of the Horizontal Current Bipolar Transistor (HCBT) Technology are examined for the first time. Impact of technological parameters (i.e., three different collector doping profiles) on the noise performance is analyzed and explained. The HCBT with the uniform n-collector profile has the smallest minimum noise figure $(\pmb{N}F_{\min})$ of 0.91 dB at $\pmb{f}=\mathbf{0.9}$ GHz and 1.09 dB at $\pmb{f}=\pmb{1.5}$ GHz, while the HCBT with the low-doped n-collector has the highest associated gain implying the best noise-gain tradeoff. All three HCBTs have the optimum collector current $(\pmb{I}_{\text{Copt}})$ at the lowest $\pmb{NF}_{\min}$ of around 5 mA and 10 mA at 0.9 GHz and 1.5 GHz, respectively, as well as the optimum impedance $\pmb{Z}_{\text{opt}}$ close to $\mathbf{50}\ \Omega$. Several low-noise amplifiers are fabricated with $\pmb{NF}=\mathbf{1.22}\ \mathbf{dB}$ and power gain up to 17.2 dB at 0.9 GHz.

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2018 IEEE BiCMOS and Compound Semiconductor Integrated Circuits and Technology Symposium (BCICTS)

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