MT 8020 Simulator|ModelingTech

MT 8020 Simulator

In recent years, China has accelerated its energy transition, and power systems have become increasingly power-electronicized and high-frequency. Conventional simulation platforms fail to match their simulation capacity with practical engineering demands. As a Chinese enterprise mastering cutting-edge core real-time simulation technologies, ModelingTech Energy Technology has carried out iterative upgrades and technical exploration based on its existing product portfolio, and successfully developed the MT 8020 Real-Time Simulator, a power supercomputing platform built on high-performance CPU and FPGA. It facilitates simulation and testing of power and power electronic systems including new energy inverters, multilevel converters, motor drive systems and microgrids.

Detailed Highlights

Ultra-powerful CPU, 8 Cores @ 3.8 GHz

Supports multi-core parallel simulation to enable users to model massive quantities of new energy converter equipment within new energy power stations.
High-performance FPGA

Abundant logic resources support microsecond-level real-time simulation of detailed models for wind, PV and energy storage converters, forming closed loops with external physical controllers.
Versatile I/O Combinations, Max Configuration: 160 DI, 64 AO

Equipped with 8 universal I/O slots. Users can flexibly combine I/O modules for different application scenarios to achieve optimal real-time simulation performance.
Support for 8-channel SFP+ Fiber Expansion

Enables high-speed parallel simulation among simulators to meet large-scale computing demands of new energy power station simulation; supports hardware-in-the-loop simulation with multilevel controllers via fiber links.

Versatile I/O Combinations, Max Configuration: 160 DI, 64 AO

Support for 8-channel SFP+ Fiber Expansion

Technical Parameters

Model

MT 8020
Processor

8-core, 3.8 GHz base frequency
Memory

32GB DDR4 SDRAM
FPGA

1451K Logic Cells, 75.9 Mb Memory Resources, equipped with 5520 DSP Slices
Analog Output

Up to 48 channels, 16bit, 1MSPS, ±10V
Analog Input

16 channels，16bit，1MSPS，±10V
Digital Input

Up to 96 channels, Wide Range of Voltages
Digital Output

32 channels，0-5 V TTL
Communication

Modbus, Ethernet, Serial, CAN/CAN-FD, GOOSE, IEC 104, EtherCAT
Fiber Interfaces

8 × SFP+
Dimension

480mm*533mm*267mm(L*W*H)

Application Scenarios

Simulation & Testing of New Energy Converters

Wind power converter simulation
PV inverter simulation
Multi-inverter parallel testing

Simulation & Testing of New Energy Converters

Wind power converter simulation
PV inverter simulation
Multi-inverter parallel testing

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Energy Storage System Simulation & Testing

Power Conversion System (PCS) simulation for energy storage
High-voltage direct-connected energy storage system testing
Pumped storage power simulation

Energy Storage System Simulation & Testing

Power Conversion System (PCS) simulation for energy storage
High-voltage direct-connected energy storage system testing
Pumped storage power simulation

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New Energy Power Station Simulation

Power station power coordination controller simulation
Simultaneous multi-controller hardware-in-the-loop testing for power stations
Real-time full-scene digital twin reproduction of new energy power stations

New Energy Power Station Simulation

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New-type Power Systems (Microgrids)

Source-Grid-Load-Storage Integrated Microgrid
Power hardware-in-the-loop simulation
Real-time simulation system for green hydrogen microgrids

New-type Power Systems (Microgrids)

Source-Grid-Load-Storage Integrated Microgrid
Power hardware-in-the-loop simulation
Real-time simulation system for green hydrogen microgrids

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Hardware-in-the-Loop Simulation of Multilevel Devices

Cascaded Static Var Generator (SVG) simulation
High-voltage direct-connected energy storage testing
High-voltage frequency converter simulation
Modular Multilevel Converter (MMC) for Flexible HVDC Transmission