Technology
User Cases
MT 1050 adopts a high-performance CPU+FPGA hardware architecture, enabling users to rapidly debug and verify control algorithms in a safe and convenient laboratory environment. This platform features abundant analog and digital signal interfaces as well as flexibly configurable control panels, facilitating innovative research and teaching practices of advanced control algorithms in power electronics and electric drive fields.
Combined with self-developed RCP software, it quickly implements control of power electronic systems such as new energy converters.
It reduces university researchers’time spent on code learning, hardware customization and debugging, accelerating the completion of graduation theses and other academic outputs.
It can be directly connected to power hardware such as motors, allowing university users to complete experimental subject verification faster and more safely.
It supports carrier phase and frequency adjustment, decoding of various position signals, and innovative research-oriented development and design.
It rapidly verifies and tests control algorithms and systems for new energy inverters, helping manufacturers shorten product development and launch cycles while cutting costs.
It rapidly verifies and tests control algorithms and systems for new energy inverters, helping manufacturers shorten product development and launch cycles while cutting costs.
A distinctive power hardware rapid control experimental system developed by ModelingTech Energy Technology. The virtual-real integrated architecture effectively improves students’hands-on practical capabilities.
A distinctive power hardware rapid control experimental system developed by ModelingTech Energy Technology. The virtual-real integrated architecture effectively improves students’hands-on practical capabilities.
It executes microgrid EMS algorithms and underlying inverter control algorithms for wind, photovoltaic and energy storage systems to rapidly verify and test control strategies.
It executes microgrid EMS algorithms and underlying inverter control algorithms for wind, photovoltaic and energy storage systems to rapidly verify and test control strategies.
As a component of the MT simulation experimental platform, it supports students to conduct experiments covering basic power electronic control, grid-connected control of new energy inverters, motor control and more.
As a component of the MT simulation experimental platform, it supports students to conduct experiments covering basic power electronic control, grid-connected control of new energy inverters, motor control and more.
Leave a message or call to get more details about the product
Learn relevant concepts and technologies
Latest scientific research achievements in top academic journals
Rewarding events and competitions await your participation
Copyright ©上海远宽能源科技有限公司 沪ICP备11009377号-1
