Innovative Teaching Experiment Innovative Teaching Experiment
Innovative Teaching Experiment

In current higher education, more and more emphasis is placed on the cultivation of students' practical ability, and experimental education has become a crucial part of science and engineering education. However, with the increase of experimental projects and the number of students in various disciplines, the number of traditional electrical laboratories and experimental instruments is difficult to meet the needs of students, so the concept of simulation experimental teaching that can match the physical object has begun to become the focus of attention of schools. Simulation teaching experiments is a software technology based on the construction of virtual experimental teaching system, is the existing digital and virtualisation of a variety of teaching laboratories, with complementary to the physical laboratory, assisting scientific research work, safe and easy to maintain and other advantages.

Related Customers
Joint Laboratories

ModelingTech has established joint laboratories with Tsinghua University, Hunan University, North China University of Technology and Hefei University of Technology. By incorporating genuine industrial demands and cutting-edge research methodologies into teaching, students gain access to application scenarios that are closer to industrial realities, enabling them to learn knowledge through practical experience. 

Joint Laboratories
华中科技大学
华中科技大学
北方工业大学
北方工业大学
湖南大学
湖南大学
合肥工业大学
合肥工业大学
南京理工大学
南京理工大学
长安大学
长安大学
东北石油大学
东北石油大学
渤海大学
渤海大学
内蒙古工业大学

远宽能源实时仿真器是一款可靠性高、准确度高、操作上手简单的仿真平台,是我们构建与电力科学研究院相同水平的测试平台的重要组成部分。

内蒙古工业大学
System Schemes

MT 1050 RCP is connected to MT 6020 real-time simulator through a I/O signal connector board. The main circuit topology runs in MT 6020 simulator, the control algorithm programmed with MATLAB/SIMULINK runs in MT 1050 RCP, thus a safe and cutting-edge simulation experimental platform is formed. Combined with well-written experimental program package, users can use it for experiments on basic Power Electronics, motor control, grid-connected inverters.

System Schemes
Related Products
MT 1050 RCP
Entry-level Performance
MT 1050 RCP
MT 1050 RCP
MT 6020 Simulator
Entry-level Performance
MT 6020 Simulator
MT 6020 Simulator
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
StarSim HIL
PC-based software for real-time simulation systems
StarSim HIL
StarSim HIL
Technical Features
Introduction of cutting-edge simulation technology
Introduction of cutting-edge simulation technology

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

Building a laboratory for efficient use
Building a laboratory for efficient use

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

Integration between industry and education
Integration between industry and education

Give students a real engineering experience, laboratory courses cover a wide range of areas, fully exercising students' critical thinking and collaborative skills.

Testing Item
  • 01Experiments on basic Power Electronics
  • 02Experiments related to motor control.
  • 03Experiments on grid-connected inverters and renewable energy.
Experiments on basic Power Electronics
Experiments on basic Power Electronics

Thyristor Single-phase/Three-phase Rectifier Circuit Experiment, Boost/Buck Chopper Experiment, H-Bridge Bipolar PWM Control Experiment, Three-phase Two-level Bridge Inverter SVPWM Control Experiment, and so on.

Experiments related to motor control.
Experiments related to motor control.

Experiments on DC motor single/dual closed-loop speed control, Brushless DC motor speed control, Permanent Magnet Synchronous Motor (PMSM) vector control, and AC motor constant voltage frequency ratio control, etc.

Experiments on grid-connected inverters and renewable energy.
Experiments on grid-connected inverters and renewable energy.

Experiments on grid-tie inverter control, three-level AC bridge control, two-level bridge static VAR generator experiment, photovoltaic grid-connected system Maximum Power Point Tracking (MPPT) experiment, permanent magnet synchronous wind turbine system control experiment, battery Boost/Buck charging and discharging experiment, etc.

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