MT 1070 RCP, as a flagship rapid control prototype independently developed by ModelingTech, has an ample number of analog input interfaces and PWM output interfaces, and a wide range of digital level access, and is suitable for large-scale power electronic system control applications such as parallel inverters and multi-level converters.
With 64 PWM channels and 32 AI channels per single machine, the product is suitable for the control requirements of multi-inverter and multi-level systems.
Based on exposed-core technology, the product offers high speeds and low latency, solving the problem of high-switching frequency control.
The product has an ample amount of IO ports and a variety of industrial communication interfaces to meet the requirements of industrial-grade power hardware control .
The distinctive Power Physical Rapid Control Experimental System launched by Modelingtech combines virtual and physical elements, which enables better cultivation of students' practical and hands-on abilities.
The distinctive Power Physical Rapid Control Experimental System launched by Modelingtech combines virtual and physical elements, which enables better cultivation of students' practical and hands-on abilities.
Due to the flexible structure and diverse components of microgrids, the traditional method of building small-scale physical systems has faced significant challenges. The use of simulation to construct and study/test microgrids has been increasingly widely applied.
Due to the flexible structure and diverse components of microgrids, the traditional method of building small-scale physical systems has faced significant challenges. The use of simulation to construct and study/test microgrids has been increasingly widely applied.
With the increase in the number of experimental projects across disciplines and students, traditional electrical laboratories and the quantity of experimental instruments are insufficient to meet the needs of students. As a result, the concept of simulation-based laboratory teaching, which can complement physical experiments, has become a focal point of attention for schools.
With the increase in the number of experimental projects across disciplines and students, traditional electrical laboratories and the quantity of experimental instruments are insufficient to meet the needs of students. As a result, the concept of simulation-based laboratory teaching, which can complement physical experiments, has become a focal point of attention for schools.
The development of new energy is the trend of future energy. It is of great significance to study the safety, efficiency, green, and environmentally friendly utilization of energy in various aspects such as development, utilization, transmission, distribution, and consumption.
The development of new energy is the trend of future energy. It is of great significance to study the safety, efficiency, green, and environmentally friendly utilization of energy in various aspects such as development, utilization, transmission, distribution, and consumption.
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