Nanoscale on-chip inductors using a linearized meminductive circuit

A. Alaa
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引用次数: 0

Abstract

This work presents a novel RF on-chip inductor that overcomes the problems with conventional large-sized inductors, which cannot be placed in an integrated circuit (IC) for large inductance values. The proposed inductor depends mainly on the meminductor, a new passive circuit element that has memory properties. This new circuit element is argued to be common in the nanoscale, where the dynamical properties of electrons and ions are likely to depend on the history of the system. Being nonlinear, it is shown that, by a suitable arrangement of meminductors and through appropriate initial values for their inductances, we can achieve a linear nanoscale inductor.
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使用线性化记忆电感电路的纳米级片上电感器
这项工作提出了一种新颖的射频片上电感器,克服了传统大尺寸电感器无法在集成电路(IC)中放置大电感值的问题。所提出的电感主要依赖于记忆电感,这是一种具有记忆特性的新型无源电路元件。这种新的电路元件被认为在纳米尺度上是常见的,在纳米尺度上,电子和离子的动力学特性很可能取决于系统的历史。由于mem感应器是非线性的,因此通过适当的排列方式和适当的电感初始值,可以实现线性纳米感应器。
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来源期刊
IEEE Potentials
IEEE Potentials Social Sciences-Education
CiteScore
1.40
自引率
0.00%
发文量
94
期刊介绍: IEEE Potentials is the magazine dedicated to undergraduate and graduate students and young professionals. IEEE Potentials explores career strategies, the latest in research, and important technical developments. Through its articles, it also relates theories to practical applications, highlights technology?s global impact and generates international forums that foster the sharing of diverse ideas about the profession.
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