Topic
RLC circuit
About: RLC circuit is a research topic. Over the lifetime, 14490 publications have been published within this topic receiving 142697 citations.
Papers published on a yearly basis
Papers
More filters
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TL;DR: A crosstalk noise model for both identical and nonidentical coupled resistance-inductance-capacitance (RLC) interconnects is developed based on a decoupling technique exhibiting an average error of 6.8% as compared to SPICE.
Abstract: On-chip interconnect delay and crosstalk noise have become significant bottlenecks in the performance and signal integrity of deep submicrometer VLSI circuits. A crosstalk noise model for both identical and nonidentical coupled resistance-inductance-capacitance (RLC) interconnects is developed based on a decoupling technique exhibiting an average error of 6.8% as compared to SPICE. The crosstalk noise model, together with a proposed concept of effective mutual inductance, is applied to evaluate the effectiveness of the shielding technique
48 citations
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24 Sep 1976
TL;DR: In this article, an inductance-capacitance loop defines a resonant circuit and is arranged in a member subject to stress, which varies the inductance or capacitance of the circuit, and its resonant frequency.
Abstract: An inductance-capacitance loop defines a resonant circuit and is arranged in a member subject to stress. Strains resulting from the stress vary the inductance or capacitance of the circuit, and its resonant frequency. A dip meter is used to detect the resonant frequency and thus provides a reading indicative of the stress in the member.
48 citations
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TL;DR: In this article, a hybrid active power filter (HAPF) is proposed for high-voltage distribution grid, which can be used for reactive power compensation as well as for harmonic mitigation caused by the nonlinear load.
Abstract: A novel hybrid active power filter (HAPF) applied to a high-voltage grid is proposed. The passive filter of this topology can be used for reactive power compensation as well as for harmonic mitigation caused by the nonlinear load. The active power filter, which is shunted to a fundamental resonance circuit, is connected in series with a matching transformer, thus forming the injection-type hybrid active power filter. Because of this advantage, it is effective to be used in the high-voltage distribution grid. The basic principle of this topology is introduced particularly. Then, the steady compensation characteristic and the resonance-damping characteristic of this system are analyzed in detail. The principle about the designing method of HAPF is proposed. A HAPF prototype with the proposed designing method was built, and installed in a copper plan in Southern China. Experimental and application results prove that the proposed HAPF is good in harmonics elimination, reactive power compensation, and reliability.
48 citations
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12 Feb 1991
TL;DR: In this article, an electrode detecting unit including a ground electrode and a detecting electrode oppose each other along a paper path is used to detect a change in the thickness of two sheets of paper passing through the path.
Abstract: Apparatus for detecting thickness which includes an electrode detecting unit including a ground electrode and a detecting electrode The electrodes oppose each other along a paper path An oscillating circuit provides an oscillation frequency signal A resonant circuit, having a resonator independent of the oscillating circuit, has a resonance point which changes in accordance with a change in electro-static capacitance corresponding to a change in paper thickness detected by the electrode detecting unit A resonant circuit outputs a detection signal corresponding to the change in resonance point By analyzing this detecting signal, a state of two sheets of paper passing through the path is detected as a change in paper thickness
48 citations
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TL;DR: In this paper, the response of a nonlinear time-varying coupled RLC network starting from a given operating point is considered, and the response is modeled as motion occurring in a differentiable manifold π in R 2b ∆ + ∆ times R +, where b is the number of branches.
Abstract: The response of a nonlinear time-varying coupled RLC network starting from a given operating point is considered. We view the response as motion occurring in a differentiable manifold \Sigma in R^{2b} \times R_{+} , where b is the number of branches. We impose two basic manifold conditions (MC) on the network. First, the resistor characteristics are required to be a manifold \Lambda . Second, the resistor characteristics and their connections are such that the set of branch voltages and branch currents satisfying both the Kirchhoff laws and the resistor characteristics is a manifold \Sigma . We then show that under the conditions imposed on the RLC elements and the topology of the network, the network has a unique response specified by a flow on \Sigma if and only if the capacitor voltages, inductor currents, and time constitute a parametrization for \Sigma . Finally, we show that our conditions include as special cases the determinateness conditions previously obtained by several authors.
48 citations