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MT 1050 is an entry-level rapid control prototyping product that helps users to quickly debug and validate control algorithms in a safe laboratory, facilitating teaching and research applications such as motor control and renewable energy converter control in the field of power electronics and power transmission.
The hardware architecture is based on ARM dual-core CPU and Xilinx ZYNQ-7100 FPGA, providing algorithm developers with customized, high-performance rapid control prototyping tools.
Based on bare metal technology with high speed and low latency, thus realizing high switching frequency control.
Supporting Modbus TCP/RTU, CAN, Ethernet TCP/UDP, Serial and other industrial communication protocols to meet the needs of industrial-grade power hardware control.
Capable of rapid verification and testing of renewable energy inverter control algorithms and systems, helping users save time and reduce costs in the process of product development and release.
Capable of rapid verification and testing of renewable energy inverter control algorithms and systems, helping users save time and reduce costs in the process of product development and release.
The distinctive Power Device Control System launched by Modelingtech combines virtual and physical elements, which enables better cultivation of students' practical and hands-on abilities.
The distinctive Power Device Control System launched by Modelingtech combines virtual and physical elements, which enables better cultivation of students' practical and hands-on abilities.
Running microgrid EMS algorithms and the underlying inverter control of photovoltaic, wind energy storage, etc., to quickly realize the verification and testing of control strategies.
Running microgrid EMS algorithms and the underlying inverter control of photovoltaic, wind energy storage, etc., to quickly realize the verification and testing of control strategies.
As a part of the MT simulation experiment platform, it helps students to complete experiments of basic power electronic control, grid-connected control of renewable energy inverters, motor control and so on.
As a part of the MT simulation experiment platform, it helps students to complete experiments of basic power electronic control, grid-connected control of renewable energy inverters, motor control and so on.
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