O. Schmitz, S. Hampel, K. Mertens, M. Tiebout, I. Rolfes
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引用次数: 2
摘要
本文介绍了一种新颖的、基于陀螺的有源电感电路的设计、实现和测量结果,该电路采用1.2 V 65nm CMOS技术。通过单独采用堆叠的nMOS-pMOS晶体管组合,所提出的差分回旋器实现了大约18 GHz的最大自共振频率,并且具有高线性度,电流消耗仅为6 mA,因此代表了射频应用的有吸引力的候选者。提出的有源电感与附加电路和可切换电容器相结合,以形成一个无电感,可重构的射频放大器。在散射参数和输出参考压缩方面的测量数据与仿真数据的比较验证了有源电感器的功能。
A highly linear, differential gyrator in 65nm CMOS for reconfigurable GHz applications
This work presents the design, implementation and measurement results of a novel, gyrator-based active inductor circuit in a 1.2 V 65nm CMOS technology. By solely employing stacked nMOS-pMOS transistor combinations, the proposed differential gyrator achieves a maximal self-resonance frequency of approximately 18 GHz and features high linearity with a current consumption of only 6 mA, therefore representing an attractive candidate for radio-frequency applications. The proposed active inductor is combined with additional circuitry and switchable capacitors in order to form an inductorless, reconfigurable RF amplifier. The comparison of measurement and simulation data in terms of scattering parameters and output referred compression verifies the active inductor's functionality.
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