Technology
User Cases
Independently developed by ModelingTech Energy Technology, the MT 1075 is a flagship rapid control prototyping unit. It is equipped with abundant analog input ports and PWM output ports, as well as wide-range digital voltage input compatibility. It is applicable to control applications of large-scale industrial power electronic systems such as parallel inverters and multilevel converters.
The advanced hardware architecture, paired with self-developed Real-Time software, meets the requirements of 50 kHz high-speed control.
It supports 64 PWM digital outputs and 16 general DO channels to facilitate the control of large-scale systems.
It newly supports 16 channels of 4 MSPS analog inputs to receive equipment status feedback faster and achieve precise signal control.
CAN-FD is added to the supported communication protocols, featuring high bandwidth and low latency to fit control scenarios including automotive industry and energy management.
The LCD display enables quick access to critical device configuration information, as well as detailed data such as Ethernet IP and MAC addresses.
One-click deployment cuts down the time cost of code translation, hardware customization and debugging for users.
Enables rapid verification and testing of control algorithms and systems for new energy inverters, helping manufacturers cut product development and launch cycles and reduce costs.
Enables rapid verification and testing of control algorithms and systems for new energy inverters, helping manufacturers cut product development and launch cycles and reduce costs.
A distinctive power hardware rapid control experimental system developed by ModelingTech. The virtual-real integrated design effectively improves students’practical operation capabilities.
A distinctive power hardware rapid control experimental system developed by ModelingTech. The virtual-real integrated design effectively improves students’practical operation capabilities.
Runs microgrid EMS algorithms and underlying inverter control algorithms for wind, PV and energy storage systems to quickly verify and test control strategies.
Runs microgrid EMS algorithms and underlying inverter control algorithms for wind, PV and energy storage systems to quickly verify and test control strategies.
As a component of the MT simulation experimental platform, it supports students to complete experiments including basic power electronic control, grid-connected control of new energy inverters, and motor control.
As a component of the MT simulation experimental platform, it supports students to complete experiments including basic power electronic control, grid-connected control of new energy inverters, and motor control.
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
