文件名称:Stabilizing-Ferroresonance-
介绍说明--下载内容均来自于网络,请自行研究使用
This paper employs the multiple scales method and
chaos theory for analyzing chaotic behavior of the voltage
transformer (VT) with linear core loss model. It is shown that
ferroresonance phenomenon in VTs can be classified as chaotic
dynamics, including a sequence of bifurcations such as period
doubling bifurcation (PDB), saddle node bifurcation (SNB),
Hopf Bifurcation (HB) and chaos.-This paper employs the multiple scales method and
chaos theory for analyzing chaotic behavior of the voltage
transformer (VT) with linear core loss model. It is shown that
ferroresonance phenomenon in VTs can be classified as chaotic
dynamics, including a sequence of bifurcations such as period
doubling bifurcation (PDB), saddle node bifurcation (SNB),
Hopf Bifurcation (HB) and chaos.
chaos theory for analyzing chaotic behavior of the voltage
transformer (VT) with linear core loss model. It is shown that
ferroresonance phenomenon in VTs can be classified as chaotic
dynamics, including a sequence of bifurcations such as period
doubling bifurcation (PDB), saddle node bifurcation (SNB),
Hopf Bifurcation (HB) and chaos.-This paper employs the multiple scales method and
chaos theory for analyzing chaotic behavior of the voltage
transformer (VT) with linear core loss model. It is shown that
ferroresonance phenomenon in VTs can be classified as chaotic
dynamics, including a sequence of bifurcations such as period
doubling bifurcation (PDB), saddle node bifurcation (SNB),
Hopf Bifurcation (HB) and chaos.
(系统自动生成,下载前可以参看下载内容)
下载文件列表
Stabilizing Ferroresonance .pdf