Sentence examples for electromechanical frequency from inspiring English sources

The results from the electromechanical frequency response functions (EFRFs) derived from two theoretical studies show excellent agreement with experimental studies.

The electromechanical frequency response functions that relate the power output and circuit load resistance are identified from the exact solutions.

In this article we present a theory describing the influence of the magnetostrictive component size on magnetically tuned electromechanical resonance frequencies (EMRs) for ferromagnetic piezoelectric heterostructures.

In practice, the typical ranges of electromechanical oscillation frequencies are usually considered as known in advance.

Damping of low frequency electromechanical oscillations is very important for a safe system operation.

The objective is to insert additional damping to low frequency electromechanical oscillations.

The purpose of the work reported in this paper is to design an oscillation damping controller for DPFC to damp low frequency electromechanical oscillations.

This paper presents a dynamic simulation algorithm for studying the effect of a Unified Power Flow Controller (UPFC) on the low frequency electromechanical oscillations and transient stabilities.

Although a single piezoelectric layer has an ideal sinusoidal waveform from its output terminals, the combined rotating system having multiple layers give complicated responses due to the electromechanical damping, high frequency mechanical vibrations and electromagnetic nonlinearities.

The aim of pre-processing PMU data is to extract the features of electromechanical modes whose frequency covers the range from 0.2 to 2.5 Hz.

The study of low-frequency electromechanical modes in power systems has experienced much progress in the past few years.