598 / 2019-02-21 22:22:13
Field Test Method for DC Protection Equipment of HVDC by Secondary Signal Simulating
DC protection,HVDC transmission,field test,optical current transformer,secondary signal simulation
Final Paper
jinbo wu / State Grid Hunan Electric Power Co. Ltd. Power Research Institute
Quan Hong / State Grid Hunan Electric Power Co. Ltd. Power Research Institute
Hui Li / State Grid Hunan Electric Power Co. Ltd. Power Research Institute
Siyuan Guo / State Grid Hunan Electric Power Co. Ltd. Power Research Institute
Hao Xu / State Grid Hunan Electric Power Co. Ltd. Power Research Institute
Weijun Zhu / State Grid Hunan Electric Power Co. Ltd. Power Research Institute
Fan OUyang / State Grid Hunan Electric Power Co. Ltd. Power Research Institute
The field test for these has not been implemented regularly due to lacking simple and feasible method. This paper proposed a novel field test method for DC protection equipment of HVDC by secondary signal simulating with low security risk and low cost. It is not need to remove the equipment and explain the photoelectric conversion protocol. The field test device for DC protection equipment of HVDC has been developed. This device has secondary signal simulation ability of optical current transformer and zero flux current transformer. The field test device for DC protection equipment of HVDC has been developed with secondary signal simulation ability of optical current transformer and zero flux current transformer. Its validity was verified by field testing of DC protection equipment in Jiangling-Echeng ±500kV HVDC project. This project has been in operation more than ten years.
Important Date
  • Conference Date

    Oct 21

    2019

    to

    Oct 24

    2019

  • Oct 13 2019

    Abstract Notification of Acceptance

  • Oct 13 2019

    Draft paper submission deadline

  • Oct 14 2019

    Draft Paper Acceptance Notification

  • Oct 24 2019

    Registration deadline

  • Oct 29 2019

    Final Paper Deadline

Organized By
Xi'an Jiaotong University
Contact Information