文件名称:Stand-Alone-Intelligent-Digital-Distance-Relay.ra
下载
别用迅雷、360浏览器下载。
如迅雷强制弹出,可右键点击选“另存为”。
失败请重下,重下不扣分。
如迅雷强制弹出,可右键点击选“另存为”。
失败请重下,重下不扣分。
介绍说明--下载内容均来自于网络,请自行研究使用
Remote end infeed causes problems in distance relay measurement, especially under high resistance earth fault conditions. Although a distance relay set to an ideal operating region can cover the fault resistance at one particular load Condition, the operating region is affected by changes in load condition. Hence a distance relay may overreach or underreach when load changes. From the main factors which affect the ideal digital distance relay operating region, a stand alone intelligent digital distance relay which
can adapt to these changes is presented. This approach does not need communication links from the remote end of the line or the system control center. Numerous computer simulations have been
carried out on realistic system configurations and the result9 show that them is a high potential for developing an intelligent digital
distance relay. -Remote end infeed causes problems in distance relay measurement, especially under high resistance earth fault conditions. Although a distance relay set to an ideal operating region can cover the fault resistance at one particular load Condition, the operating region is affected by changes in load condition. Hence a distance relay may overreach or underreach when load changes. From the main factors which affect the ideal digital distance relay operating region, a stand alone intelligent digital distance relay which
can adapt to these changes is presented. This approach does not need communication links from the remote end of the line or the system control center. Numerous computer simulations have been
carried out on realistic system configurations and the result9 show that them is a high potential for developing an intelligent digital
distance relay.
can adapt to these changes is presented. This approach does not need communication links from the remote end of the line or the system control center. Numerous computer simulations have been
carried out on realistic system configurations and the result9 show that them is a high potential for developing an intelligent digital
distance relay. -Remote end infeed causes problems in distance relay measurement, especially under high resistance earth fault conditions. Although a distance relay set to an ideal operating region can cover the fault resistance at one particular load Condition, the operating region is affected by changes in load condition. Hence a distance relay may overreach or underreach when load changes. From the main factors which affect the ideal digital distance relay operating region, a stand alone intelligent digital distance relay which
can adapt to these changes is presented. This approach does not need communication links from the remote end of the line or the system control center. Numerous computer simulations have been
carried out on realistic system configurations and the result9 show that them is a high potential for developing an intelligent digital
distance relay.
(系统自动生成,下载前可以参看下载内容)
下载文件列表
M-file\A1Rz.mat
......\A1Xz.mat
......\B1Rz.mat
......\B1Xz.mat
......\Fault.asv
......\Fault.m
......\Fault.MAT
......\Ia.mat
......\Ia1.mat
......\Ia2.mat
......\Ib.mat
......\Ic.mat
......\Steady-State.MAT
......\SteadyState.asv
......\SteadyState.m
......\Va.mat
......\..riable\P+Q+1to2\A1Rz.mat
......\........\........\A1Xz.mat
......\........\........\B1Rz.mat
......\........\........\B1Xz.mat
......\volt.mat
EMTP\dum002.bin
....\dum1.bin
....\dum12345.bin
....\dum3.bin
....\dum46.bin
....\dum9.bin
....\Fault.adp
....\LCCa.alc
....\LCCa.atp
....\LCCa.lib
....\lcca.lis
....\lcca.pch
....\LCCb.alc
....\LCCb.atp
....\LCCb.lib
....\lccb.lis
....\lccb.pch
Line Simulink Model\Case1A1.mat
...................\Case1B1.mat
...................\Case1C1.mat
...................\Case1D1.mat
...................\Case2A2.mat
...................\Case2B2.mat
...................\Case2C2.mat
...................\Case2D2.mat
...................\Case3A3.mat
...................\Case3B3.mat
...................\Case3C3.mat
...................\Case3D3.mat
...................\Case4A4.mat
...................\Case4B4.mat
...................\Case4C4.mat
...................\Case4D4.mat
...................\Fault.asv
...................\Fault.m
...................\FaultCase2.asv
...................\FaultCase2.m
...................\FaultCase3.m
...................\FaultCase4.m
...................\FaultClassification.asv
...................\FaultClassification.m
...................\FaultFirstLine.mdl
...................\FaultInLine.mdl
...................\FaultInLineVariation.mdl
...................\FaultLGtoLL.asv
...................\FaultLGtoLL.m
...................\FaultLGtoLLL.asv
...................\FaultLGtoLLL.m
...................\FaultLLtoLLL.asv
...................\FaultLLtoLLL.m
...................\hs_err_pid768.log
...................\Ia.mat
...................\Ib.mat
...................\Ic.mat
...................\Lineparameters.rep
...................\OnlineClasification.asv
...................\OnlineClasification.m
...................\Va.mat
...................\Vb.mat
M-file\Variable\P+Q+1to2
......\Variable
M-file
EMTP
Line Simulink Model
......\A1Xz.mat
......\B1Rz.mat
......\B1Xz.mat
......\Fault.asv
......\Fault.m
......\Fault.MAT
......\Ia.mat
......\Ia1.mat
......\Ia2.mat
......\Ib.mat
......\Ic.mat
......\Steady-State.MAT
......\SteadyState.asv
......\SteadyState.m
......\Va.mat
......\..riable\P+Q+1to2\A1Rz.mat
......\........\........\A1Xz.mat
......\........\........\B1Rz.mat
......\........\........\B1Xz.mat
......\volt.mat
EMTP\dum002.bin
....\dum1.bin
....\dum12345.bin
....\dum3.bin
....\dum46.bin
....\dum9.bin
....\Fault.adp
....\LCCa.alc
....\LCCa.atp
....\LCCa.lib
....\lcca.lis
....\lcca.pch
....\LCCb.alc
....\LCCb.atp
....\LCCb.lib
....\lccb.lis
....\lccb.pch
Line Simulink Model\Case1A1.mat
...................\Case1B1.mat
...................\Case1C1.mat
...................\Case1D1.mat
...................\Case2A2.mat
...................\Case2B2.mat
...................\Case2C2.mat
...................\Case2D2.mat
...................\Case3A3.mat
...................\Case3B3.mat
...................\Case3C3.mat
...................\Case3D3.mat
...................\Case4A4.mat
...................\Case4B4.mat
...................\Case4C4.mat
...................\Case4D4.mat
...................\Fault.asv
...................\Fault.m
...................\FaultCase2.asv
...................\FaultCase2.m
...................\FaultCase3.m
...................\FaultCase4.m
...................\FaultClassification.asv
...................\FaultClassification.m
...................\FaultFirstLine.mdl
...................\FaultInLine.mdl
...................\FaultInLineVariation.mdl
...................\FaultLGtoLL.asv
...................\FaultLGtoLL.m
...................\FaultLGtoLLL.asv
...................\FaultLGtoLLL.m
...................\FaultLLtoLLL.asv
...................\FaultLLtoLLL.m
...................\hs_err_pid768.log
...................\Ia.mat
...................\Ib.mat
...................\Ic.mat
...................\Lineparameters.rep
...................\OnlineClasification.asv
...................\OnlineClasification.m
...................\Va.mat
...................\Vb.mat
M-file\Variable\P+Q+1to2
......\Variable
M-file
EMTP
Line Simulink Model