System Parameter Identification of Thermal Generation Unit in the Mongolian Electrical Grid: Real-Life Frequency Response Test

2021 ◽  
Author(s):  
Choidorj Adiyabazar ◽  
F. Gonzalez-Longatt ◽  
Martha N. Acosta ◽  
Jose Luis Rueda ◽  
Erkhemzaya Bolor
Keyword(s):  
Parameter Identification ◽  
Frequency Response ◽  
System Parameter ◽  
Real Life ◽  
Thermal Generation ◽  
Electrical Grid ◽  
Response Test ◽  
Generation Unit

A Frequency Response Test Device for Nano-Second Coaxial Resistor Divider

2019 ◽  
Author(s):  
Jiayin Yan ◽  
Kaisheng Mei ◽  
Shuo Chen ◽  
Yanan Wang ◽  
Weidong Ding
Keyword(s):  
Frequency Response ◽  
Test Device ◽  
Response Test

Frequency response function-based parameter identification from short data sequences

2004 ◽  
Vol 18 (5) ◽  
pp. 1097-1116 ◽  
Author(s):  
B. Cauberghe ◽  
P. Guillaume ◽  
P. Verboven ◽  
S. Vanlanduit ◽  
E. Parloo
Keyword(s):  
Parameter Identification ◽  
Frequency Response ◽  
Response Function ◽  
Frequency Response Function

Dynamic Analysis and Parameter Identification of a Single Mass Elastomeric Isolation System Using a Maxwell-Voigt Model

2006 ◽  
Vol 128 (6) ◽  
pp. 713-721 ◽  
Author(s):  
Jie Zhang ◽  
Christopher M. Richards
Keyword(s):  
Parameter Identification ◽  
Dynamic Analysis ◽  
Frequency Response ◽  
Natural Frequency ◽  
Damping Ratio ◽  
Response Spectra ◽  
Isolation System ◽  
Single Mass ◽  
Voigt Model ◽  
Stiffness And Damping

Dynamic analysis and parameter identification of a single mass elastomeric isolation system represented by a Maxwell-Voigt model is examined. Influences that the stiffness and damping values of the Maxwell element have on natural frequency, damping ratio, and frequency response are uncovered and three unique categories of Maxwell-type elements are defined. It is also shown that Voigt and Maxwell-Voigt models with equivalent natural frequencies and damping ratios can have considerably different frequency response spectra. Lastly, a parameter identification method is developed for identifying Maxwell-Voigt models from frequency response spectra. The method is based on constant natural frequency and damping ratio curves generated from modal analysis of potential Maxwell-Voigt models.

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