Phase-Space-Based Pilot Main Protection for a Transmission Line Immune to Timing Attack and Controllable Shunt Reactors

Pilot current differential protection for transmission lines is an important part of ensuring the safety of the power grid. The loss of data synchronization due to cyberattacks and the uncertain compensation degree of controllable shunt reactors will evidently deteriorate the performance of pilot cu...

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Veröffentlicht in:	IEEE transactions on power delivery 2020-04, Vol.35 (2), p.654-664
Hauptverfasser:	Jin, Neng, Lin, Xiangning, Rong, Zirui, Xing, Jiawei, Chen, Le, Li, Zhengtian, Zhang, Peifu, Tong, Ning, Ma, Xiao
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Sprache:	eng
Schlagworte:	Aerospace electronics Circuit faults controllable shunt reactors Criteria fault component instantaneous power free setting Inductors Nuclear engineering Nuclear safety phase space Pilot protection Power transmission lines Reactors Shunt reactors Shunts (electrical) Synchronism Synchronization timing attack Transmission lines
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container_title	IEEE transactions on power delivery
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creator	Jin, Neng Lin, Xiangning Rong, Zirui Xing, Jiawei Chen, Le Li, Zhengtian Zhang, Peifu Tong, Ning Ma, Xiao
description	Pilot current differential protection for transmission lines is an important part of ensuring the safety of the power grid. The loss of data synchronization due to cyberattacks and the uncertain compensation degree of controllable shunt reactors will evidently deteriorate the performance of pilot current differential protection and may lead to the maloperation of the protection if no effective countermeasure is implemented. To address the above-mentioned problems, a novel line pilot protection criterion based on the recognition of the phase space trajectory is proposed. First, the basic principle of phase space and its parameter selection scheme are analyzed. Then, the fault component instantaneous power difference (FCIPD) is selected as the time series for phase space reconstruction, and the distribution characteristics of the phase space trajectory of the FCIPD under different conditions are analyzed. Subsequently, a novel pilot main protection criterion for a transmission line is proposed. PSCAD/EMTDC-based simulation results verify that the proposed criterion is immune to timing attack and controllable shunt reactors and has the advantages of free setting, high speed, and high-fault-resistance tolerance capability.
doi_str_mv	10.1109/TPWRD.2019.2919787
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The loss of data synchronization due to cyberattacks and the uncertain compensation degree of controllable shunt reactors will evidently deteriorate the performance of pilot current differential protection and may lead to the maloperation of the protection if no effective countermeasure is implemented. To address the above-mentioned problems, a novel line pilot protection criterion based on the recognition of the phase space trajectory is proposed. First, the basic principle of phase space and its parameter selection scheme are analyzed. Then, the fault component instantaneous power difference (FCIPD) is selected as the time series for phase space reconstruction, and the distribution characteristics of the phase space trajectory of the FCIPD under different conditions are analyzed. Subsequently, a novel pilot main protection criterion for a transmission line is proposed. 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The loss of data synchronization due to cyberattacks and the uncertain compensation degree of controllable shunt reactors will evidently deteriorate the performance of pilot current differential protection and may lead to the maloperation of the protection if no effective countermeasure is implemented. To address the above-mentioned problems, a novel line pilot protection criterion based on the recognition of the phase space trajectory is proposed. First, the basic principle of phase space and its parameter selection scheme are analyzed. Then, the fault component instantaneous power difference (FCIPD) is selected as the time series for phase space reconstruction, and the distribution characteristics of the phase space trajectory of the FCIPD under different conditions are analyzed. Subsequently, a novel pilot main protection criterion for a transmission line is proposed. 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subjects	Aerospace electronics Circuit faults controllable shunt reactors Criteria fault component instantaneous power free setting Inductors Nuclear engineering Nuclear safety phase space Pilot protection Power transmission lines Reactors Shunt reactors Shunts (electrical) Synchronism Synchronization timing attack Transmission lines
title	Phase-Space-Based Pilot Main Protection for a Transmission Line Immune to Timing Attack and Controllable Shunt Reactors
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