Abstract
With the advent of the new information technologies, the power communication service object is continuously enhanced by the modernization level of the switches architecture designed in the substation automation environment. In the futuristic plan, the communication network not only provides a transmission line between devices, but also takes into account the reliability and efficiency of the power system communication network. Many protocols are used for the provision of faster and more robust communication among control centers, Remote Terminal Units (RTUs) and Intelligent Electronic Devices (IEDs). These protocols support the exchange of a wide range of possible common data that is organized by a DATA-SET, such as in synchronized circuit breaker switching, distance protection and overcurrent protection. However, these protocols do not give the expected performance with standard switches architectures due to the remarkable traffic in power system communication. To address this issue, this paper modelled a substation automation switch based on the packet forwarder technique based on Generic Object Oriented Substation Event (GOOSE) protocol with different architectures of substation automation switches based International Electrotechnical Commission (IEC) 61850 standard. Finally, the simulations results found that the architecture of the four-switch system showed a significant performance, as compared with other architectures.
Highlights
The electrical power grid is a significant part of our daily life activities, as well as industry development
The backbone feature of IEEE standard 802.1Q is to support the Virtual Local Area Network (VLAN) isolation of traffic, which is significantly important to managing the information throughout the network
Lainbeuwffeitrhbtlhoicsk, awbiuthffderefiblnoecdk with defined size is utilized and located between the path combiner and the CPU. It is a storage block for Generic Object Oriented Substation Event (GOOSE) packets to store them while the CPU is busy
Summary
The electrical power grid is a significant part of our daily life activities, as well as industry development. In other words, it is a storage block for GOOSE packets to store them while the CPU is busy. AThfiensicteenpareiroioodf thoef dtirmope puanctkieltisthgaeptpsepnes rwmhiesnsitohne nfruommbetrhoef CPU to releaseetvheenmts tahnadt csoemnedftrhome pthaeckineptsuttogethneerpatroorcseesxscoeredasntdhethoevnertaolltchaeparecicteyivofert.heThperorceecsseoivr.eSrupcharatnof the switch isomccoadsieonledreduusciensgththeere“liEanbitliittyy oSfinthke”sbylsotecmk;itnheSriemfoErev, ecnaltcsu.laFtiigngurtehe6nsuhmobwers othf edrporpoppaocskeedts siswitch by using cSrNiumoc.iEoalfvidenrnothtpsipssasoctukftedwtysaarneTd.oiTttahilsnefuosmrcmebneuralaortifeoidnopafusttfsohelelvoedwnrstos: p pBaucffkeretcsaphaacpitypenSserwvihceenrattehoefnCuPUmber o(f1)events that come from the input generators exceeds reduces the reliability of the sySsetrevmice; trhateeroeffoCrPeU, the overall c1apacity of the processor Such an occasion caslceruilvacteintigmethoef pnruocmesbseor of drop packets is cruci(a2l)in this study and it is formulated as follows: Service time 1 ms packets (3)
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