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
Ejina Banner is located at the westernmost end of Inner Mongolia Autonomous Region, with a vast territory and remote location. The power grid in Ejina region is only connected to the main grid through one circuit of 220kV line. The power grid was weak and the reliability of power supply was low, greatly affecting industrial and residential power consumption in the region. The "source grid load storage" new power system pilot project in Ejina region has built a 25MW/25MWh energy storage system and 7.2MW diesel generator on the basis of existing power grids, wind power, and photovoltaic power generation. By optimizing and integrating local source, grid, and load resources, and increasing regulatory and supportable resources, it has achieved that the regional power grid can operate in grid connection and off grid modes, strengthening the local power grid, by completely solving the problem of power supply reliability in Ejina Banner.
NR provided a complete set of grid-forming type energy storage system equipment and a "source-grid-load-storage" control and management system for the project. In addition to providing all the functions of conventional energy storage such as peak to valley shift, smooth new energy, black start, and power backup, the NR grid-forming type energy storage system also achieves power self-synchronization control by controlling the internal potential amplitude and phase angle, presenting a voltage source characteristic. The energy storage system configured for the project has a short time high overload capacity of 2.25 times, achieving local fast primary frequency modulation, rotational inertia, and other multi-time scale control functions, effectively improving system inertia and short circuit capacity, improving grid damping characteristics, and providing fast dynamic reactive compensation, enhancing voltage support for the grid. It is the cornerstone of stable operation of power grids in weak regions. In 2022, NR grid-forming energy storage systems were successively put into operation for five projects, reflecting the strong demand for grid-forming energy storage technology in the construction of new power systems.

RTDS Simulation Test of "Source-Grid-Load-Storage" in Ejina Region
The "source-gird-load-storage" control and management system is the core control system of the regional power grid. In addition to the scheduling functions of collecting, monitoring, and managing the regional power grid, it is more important to have the decision-making ability to ensure the stable operation of the power grid under various operating modes. For this purpose, NR has established a RTDS simulation test platform for the Ejina regional power grid, which has completed all the test contents, including unplanned and planned grid to off-grid transition, planned off-grid to grid transition, system steady-state and transient simulation under grid and off grid modes, system black start, and protection setting adaptability analysis, to evaluate the flexible switching ability and safety stability of the system in multiple operation modes. The correctness of the voltage source support function of grid-forming type energy storage and the coordinated control strategy of source network load and storage is verified, providing model and data support for on-site testing and future operation, and ensuring the smooth implementation of the project.
New power systems, especially regional systems, face several core issues of system security and stability - power and energy balance, short circuit current, voltage stability, and frequency stability. Conventional energy storage can only meet the needs of energy balance. The application of grid-forming type energy storage in the Ejina project has solved the problem of system stability during the promotion of "source-grid--load-storage" in recent years, supporting the frequency, voltage, and short circuit current of the system, improving the reliability of the system, and ensuring stable operation of the system.
The new power system pilot project in Ejina region is based on exploring the development path of building a highly integrated new power system with "source-grid--load-storage", providing a solid foundation and guarantee for establishing an advance power system stability awareness system, promoting the high-quality development of remote weak power grids, promoting the efficient use of clean energy.