石墨烯量子电容在次谐波参量下转换中的应用

2019 IEEE MTT-S International Microwave Symposium (IMS) Pub Date : 2019-06-02 DOI:10.1109/mwsym.2019.8700855

M. Saeed, Eduard Heidebrecht, A. Hamed, R. Negra

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引用次数: 2

摘要

这项工作首次提出了石墨烯量子电容(CQ)在参数电路中的独特特性。CQ和参数操作的结合产生了独特的拓扑结构，可以实现射频供电，接收器和发射器前端，具有高转换增益(GC)和宽松的本地振荡器(LO)要求。对下变频情况下的前景进行了详细的讨论。通过设计一个以29 GHz为中心的外差射频接收机前端，验证了该方法的可行性。从柔性卡普顿箔上石墨烯变容管的s参数测量中提取的Verilog-A行为模型用于验证。仿真结果提供了20 dB的正GC和4.7 dB的噪声系数(NF)，而不需要直流偏置。结果与提出的概念的理论分析一致。

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Exploiting Graphene Quantum Capacitance in Subharmonic Parametric Downconversion

This work presents for the first time the unique properties of graphene quantum capacitance (CQ) in parametric circuits. The combination of the CQ and parametric operation results in a distinct topology which enables the realisation of RF powered, receiver and transmitter frontends, with high conversion gain (GC) and relaxed local oscillator (LO) requirements. The presented prospect is discussed in details for the down-conversion case. Feasibility of the proposed approach is validated by designing a heterodyne RF receiver frontend centered at 29 GHz. A Verilog-A behavioural model, extracted from S-parameter measurements of a graphene varactor on flexible kapton foil is employed in the verification. Simulation results provide a positive GC of 20 dB and a noise figure (NF) of 4.7 dB without the need for DC bias. The results agree with the presented theoretical analysis of the proposed concept.

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2019 IEEE MTT-S International Microwave Symposium (IMS)

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