RCP Power Device Control RCP Power Device Control
RCP Power Device Control

The accreditation of engineering education has fundamentally promoted the optimization of talent training programs. As an important indicator of the "Double First-Class Initiative," it has a significant impact on the professional construction and development of universities. The emphasis on "solving complex engineering problems" as a crucial component of the accreditation criteria lies in cultivating students' comprehensive professional knowledge literacy, fostering their abilities in modeling and innovative design, and developing their hands-on practical skills. Traditional laboratory platforms often struggle to meet these educational requirements simultaneously. Therefore, it is necessary to complement traditional teaching and experimental methods with new approaches and scientific tools.

ModelingTech has introduced a unique Power Physical Rapid Control Experiment System, which helps students learn and verify control theories and algorithms. Students can interact with actual control devices, understand and learn how to transform theories and algorithms into operational code on practical control devices. They can also configure, wire, and debug the system themselves, observe real signals using oscilloscopes, and cultivate their practical hands-on ability through a combination of virtual and real-world experiences.

Related Customers
The Research Center for Novel Electric Motors and Intelligent Control at Huazhong University of Science and Technology.

Typically, it takes about a week or even longer to develop an algorithm through handwritten code. However, after using the Yuantech platform, the algorithm was successfully validated in just one day.

The Research Center for Novel Electric Motors and Intelligent Control at Huazhong University of Science and Technology.
东北电力大学
东北电力大学
北方工业大学
北方工业大学
西南交通大学
西南交通大学
大连海事大学
大连海事大学
石河子大学
石河子大学
System Schemes

MT 1050 RCP is used to run control algorithm models programmed in Simulink, which replaces traditional DSP controllers connected with power inverters or motors, allowing for control algorithm debugging and improvement of the actual controlled object. Customers can achieve rapid controller design and test for power electronics or motor drive systems.

System Schemes
Related Products
MT 1050 RCP
Entry-level Performance
MT 1050 RCP
MT 1050 RCP
StarSim FPGA Circuit Solver
Core software for running power electronics models on FPGA
StarSim FPGA Circuit Solver
StarSim FPGA Circuit Solver
StarSim RCP
PC-based software
StarSim RCP
StarSim RCP
Technical Features
Enabling safe and efficient experiments
Enabling safe and efficient experiments

The virtual control-side experimental platform helps students leverage the advantages of simulation to complete innovative and safe design for real systems. 

Loading control algorithms conveniently
Loading control algorithms conveniently

Support for experimental research-based laboratory courses to help cultivate outstanding engineers.

Multiple experiments can be performed with one device
Multiple experiments can be performed with one device

Closed-loop simulation system, supporting a variety of fault experiments without the need to switch between platforms, allowing universities to quickly deploy laboratories.

Testing Item
  • 01Physical PMSG Grid-Connected Operation Control
  • 02PMSM Full-Speed Range Vector Control
  • 03Three-Phase Three-Level NPC Inverter Control
Physical PMSG Grid-Connected Operation Control
Physical PMSG Grid-Connected Operation Control

Test the impact of physical grid-connected operation of Permanent Magnet Synchronous Generators (PMSG) on the power grid, aiming to achieve effective grid-connected control during voltage fluctuations in the grid.

PMSM Full-Speed Range Vector Control
PMSM Full-Speed Range Vector Control

Test the full process of full-speed and vector control of Permanent Magnet Synchronous Motors (PMSM), aiming to achieve constant torque output and stable speed control of the motor.

Three-Phase Three-Level NPC Inverter Control
Three-Phase Three-Level NPC Inverter Control

Test the output port voltage waveform to be a normal five-level waveform, and the filtered line voltage waveform to be a sinusoidal voltage with a phase difference of 120°, achieving the corresponding circuit function effectively.

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