POWER CONVERSION SYSTEM
Power Conversion System(PCS)
Real-Time Simulation Solution
Power Conversion System (PCS)
The energy storage inverter is the core component of the energy storage system. Major wind and solar inverter manufacturers have seized the opportunity to reaesrch energy storage products, and the performance testing of energy storage inverters (PCS) has become the development direction for major manufacturers. Testing and verifying technical solutions using physical experimental platforms has drawbacks such as long construction cycles and high risk costs. However, the use of a semi-physical simulation model can just solve the problems existing in the early stage of physical platform construction.
Solution Class
Multiple Power Conversion System Testing
Multiple Power Conversion System Testing
Multiple Power Conversion System Testing
Multiple Power Conversion System Testing
Research on Energy Management Systems (EMS)
System Schemes
Research on Energy Management Systems (EMS)
  • 01
    Research on Energy Management Systems (EMS)
  • 02
    High/low voltage ride-through testing and impedance analysis testing
  • 03
    Research on energy storage inverter control strategies
  • 04
    Research on novel energy storage topology structures
Highlights
Superior FPGA simulation capability.
Superior FPGA simulation capability.
With a simulation time step of 1us, it can run parallel tests for 3-5 energy storage inverter systems. It is equipped with domestically pioneered LC and RonRoff hybrid modeling methods, suitable for various application scenarios from low frequency to high frequency.
Powerful CPU simulation capability.
Powerful CPU simulation capability.
Support parallel simulation across multiple CPU cores. A single-core CPU can support a simulation time step of 50us for generating units in series or parallel connection.
Professional hardware IO interfaces and industrial communication.
Professional hardware IO interfaces and industrial communication.
Support high-speed and wide voltage range (-25V, 25V) digital inputs, suitable for industrial inverter controller interfaces. Supports professional power communication protocols such as MODBUS TCP, MODBUS RTU, CAN, serial port, etc., facilitating efficient interaction with controller information.
Powerful device expansion capability.
Powerful device expansion capability.
Support up to 8 SFP fiber optic signal modules, allowing easy physical IO expansion or parallel simulation of multiple devices. This meets the requirements for parallel testing of multiple photovoltaic inverter systems or energy storage systems with multiple units in parallel.
Additional features of the HIL platform.
Additional features of the HIL platform.

Provide a professional automation testing Python API, facilitating industrial users in developing automated testing tools. Supports "HIL Scope" high-speed waveform recording function, enabling observation of multi-channel waveforms at a sampling rate of 500k.



Superior FPGA simulation capability.
Powerful CPU simulation capability.
Professional hardware IO interfaces and industrial communication.
Powerful device expansion capability.
Additional features of the HIL platform.
Related Customers
Industrial Users
University Users
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