Protection&Control Transmission Line Protection Busbar Protection Transformer Protection Circuit Breaker Protection Generator Protection Feeder Protection Capacitor Protection Motor Protection Transfer & Synchronization Arc Protection
Digital Substation PCS-221S Merging Unit PCS-221 Merging Unit PCS-222 Circuit Breaker Controller PCS-9250 AC Electronic CT/VT
Automation PCS-9700 Automation System PCS-9700 HMI Software PCS-9705 Bay Control Unit PCS-9705S Bay Control Unit PCS-9799 Station Manager PCS-9799S Station Manager PCS-9710 Remote Terminal Unit PCS-9710S Remote Terminal Unit PCS-9794 Protocol Converter PCS-9785 Satellite-Synchronized Clock PCS-9882 Ethernet Switch PCS-9882Rx DIN Rail Managed Ethernet Switch PCS-9882XD Managed Ethernet Switch PCS-9884 Managed Ethernet Switch Supporting HSR and PRP MUX-2M/64 Communication Interface
Phasor Measurement PCS-997S Fault Line Locator PCS-996S-G Phasor Data Concentrator PCS-996 Phasor Measurement Unit
Disturbance Fault Recording PCS-996RC Disturbance Fault Recorder PCS-996R Disturbance Fault Recorder PCS-986 Disturbance Fault Recorder PCS-9013 DFR Management System
Stability Control System PCS-992 Power Stability Control System PCS-993 Out-of-Step Controller PCS-994 Frequency & Voltage Controller PCS-994S Frequency and Voltage Controller
Power Grid Monitoring and Control PCS-9000 Energy Management System PCS-9000 Distribution Management System
Configuration Tool PCS-Torch MOT Tool PCS-Studio Configuration Tool PCS-Explorer IED Configuration & Debugging Tool PCS-SCD Configuration Tool PCS-COMM Configuration & Debugging Tool
Accessories MD1501 Series Auxiliary Relays MD1701 Series Test Blocks MD1701S Test Block
FACTS PCS-9580 Static Var Compensator PCS-9583 Static Synchronous Compensator PCS-9570 Series Compensation PCS-9590 DC De-Icer PCS-9578 Controllable Shunt Reactor PCS-8200 Unified Power Flow Controller PCS-9571 Fault Current Limiter PCS-9564A Dynamic Voltage Restorer PCS-9569 Shore Power System
HVDC PCS-8600 UHVDC Converter Valve System PCS-9550 LCC-HVDC Control and Protection System PCS-8100 VSC-HVDC IGBT Valve PCS-9520 VSC-HVDC Control and Protection System PCS-9510 Cooling System PCS-8300 High-voltage DC Circuit Breaker PCS-9250 DC Electronic CT/VT
PV & Wind Power Grid-Connection PCS-9700 Renewable Energy SCADA PCS-9726 Generation Management Unit PCS-9700F Power Forecast System PCS-9700R AGC/AVC
Battery Energy Storage System PCS-9567MV-10000 Medium Voltage Skid PCS-9567MV-7000 Medium Voltage Skid PCS-9567MV-5000 Medium Voltage Skid PCS-9567MV-3500 Medium Voltage Skid PCS-9567-2500 Twin Power Conversion Systems PCS-9567-2500 電力変換システム PCS-9567-1750 Power Conversion System PCS-9567-1750 電力変換システム PCS-9567 Power Conversion System Vulnerability Disclosure Policy パワーコンディショナー脆弱性開示ポリシー
Microgrid PCS-9617MG Microgrid Controller
Static Frequency Converter PCS-9575 Static Frequency Converter
Protection,Automation&Control DMS EMS Stability Control & WAMS Digital Substation
HVDC & FACTS De-Icing Unified Power Flow Controller (UPFC) Series Compensation Static Synchronous Compensator(STATCOM) Static Var Compensator (SVC) LCC-HVDC Transmission VSC-HVDC Transmission
Renewable & Microgrid Energy Storage System Microgrid PV Generation SFC
Power Generation Pumped Storage Power Plant Nuclear Power Plant Hydro Power Plant Thermal Power Plant
Transmission System AC Transmission LCC-HVDC Transmission VSC-HVDC Transmission
Distribution System Distribution Network
Industrial Consumer Urban Track Traffic Electrified Railway Oil & Petrochemical Metals & Mining
The response time of the control device is 2.3ms, the breaking time of the fast mechanical switch is 1ms, and the overall effective time is 9.2ms. The artificial grounding short-circuit test of the fast switch based fault current limiter (FCL) was successfully accomplished.
On December 20, 2021, the test results were announced at 750kV Helanshan substation of Ningxia Power Grid. As the first application in the EHV core hub substation in China, the performance indexes of PCS-8351 fast switch based FCL developed by NR were tested and verified by the short-circuit test of the actual system, and the short-circuit current limiting depth reached 31.5%, which was in full accord with the solution design.

With the formation of 750kV double loops in Ningxia power grid, the three-phase short-circuit current of the AC bus in 750kV Helanshan substation has exceeded the breaking capacity of the existing conventional circuit breaker, which will affect the safe and stable operation of the power grid, thus corresponding treatments need to be taken.
However, limiting the short-circuit current through operating some lines in hot standby will lower the operation reliability of the power grid and increase the loss of multiple no-load lines.
NR has accumulated rich experience in the fields of power system analysis, protection & control for many years, and achieved key breakthroughs in emerging technologies of high-voltage AC and DC fast switching. To solve the problem mentioned above, NR has carried out joint research with Northwest Branch of State Grid and State Grid Ningxia, and a scheme of installing FCLs at 750kV Helanshan substation was determined. The scheme shows that the short-circuit current limiting effect is significant, and there are no steady-state losses and voltage fluctuation problems.
At the same time, NR provided a series of system solutions including the action characteristics analysis of the transformer protection, the line protection and the bus protection after FCLs were put into operation. Besides, a third-party RTDS test was passed. In the test, a closed-loop simulation environment based on Helanshan substation and surrounding systems was built to comprehensively evaluate the protection characteristics after the FCL was set.
The basic principle of PCS-8351 FCL is a parallel connection of a fast mechanical switch and a current-limiting reactor. The PCS-8351 FCL also comes with a high-speed control device which applies highly integrated software and hardware design. The control device leads to the fastest detection and operation time of short-circuit current less than 3ms. When it goes to the fast mechanical switch, the breaking time is less than 1 ms, and the redundancy design of double breakers connected in series ensures the current can be reliably limited even if one breaker fails.
The deep integration of the fast mechanical switch and the control device realizes that the current limiting takes effect within one cycle after the fault occurs, which strictly limits the short-circuit current before the open of the conventional circuit breaker when the arc is generated. The application of the FCL can reduce the breaking stress of the conventional circuit breaker and ensure the reliable clearance of the fault.
PCS-8351 FCL cannot only be applied on the transformer side, but also be installed on the bus section/bus coupler or outgoing line, which can also achieve fast and flexible current limiting.
PCS-8351 FCL successfully passed the artificial grounding short-circuit test at 750kV Helanshan substation in Ningxia, which fully verified the effectiveness of NR protection solution and various performance indexes of the product. It also created favourable conditions to improve the power supply reliability of regional power grids and the power flow dispersion capacity of the subsection of Helanshan power grid.

At present, PCS-8351 FCL has been applied in many power grids such as Xinjiang and Ningxia. It provides a flexible and innovative solution that can be widely popularized and applied for the deteriorating problem of overlimit short-circuit current of high-voltage power grid. The success of PCS-8351 FCL also strengthens the leading position of NR fast switch products in the field of high-voltage power grid.