MT 8060 Simulator MT 8060 Simulator
Hardware | HIL
MT 8060 Simulator
Flagship Platform
  • CPU
    CPU
    16 Cores @ 3.6 GHz
  • FPGA
    FPGA
    1451K Logic Cells, 75.9 Mb Memory Resources
  • Customized I/O
    Customized I/O
    96 Channels DI, 32 Channels 5 MSPS AO
  • Fiber Optic Expansion
    Fiber Optic Expansion
    16-Channel SFP+
MT 8060 Simulator
MT 8060 Simulator

Against the backdrop of rising global awareness of sustainable development and environmental protection, grid-connected new energy demand has witnessed explosive growth. Meanwhile, to boost energy conversion efficiency and grid stability, higher switching frequency requirements are imposed on power electronic equipment, bringing stricter challenges to relevant testing technologies and facilities.
To address these complex and urgent testing requirements, ModelingTech Energy Technology, drawing on its profound expertise and innovative strengths in new energy testing, has launched the all-new MT 8060 Real-Time Simulator. Tailored to tackle testing challenges of modern power systems including large-scale new energy power stations and high-frequency power electronic switches, this product delivers efficient, precise and reliable testing solutions for users.

Detailed Highlights
  • Ultra-powerful CPU, 16 Cores @ 3.6 GHz

    Supports multi-core parallel simulation, enabling customers to model a large number of new energy converter devices within new energy power stations.

  • High-performance FPGA

    Abundant logic resources support microsecond-level real-time simulation of standalone equipment such as photovoltaic and wind power units, faithfully reproducing actual equipment operating conditions.

  • Ultra-high-speed I/O, 5 MSPS Analog Output (AO)

    Configurable high-speed digital inputs and 5 MSPS analog outputs, ideal for power electronic simulation under high switching frequencies.

  • Support for 16-channel SFP+ fiber expansion

    Enables high-speed parallel computing between simulators to meet hardware-in-the-loop (HIL) testing requirements for physical controllers of PV, SVG and other equipment deployed in new energy power stations.

Ultra-powerful CPU, 16 Cores @ 3.6 GHz
High-performance FPGA
Ultra-high-speed I/O, 5 MSPS Analog Output (AO)
Support for 16-channel SFP+ fiber expansion
Technical Parameters
Model
  • Model
    MT 8060
  • Processor
    16-core, 3.6 GHz base frequency
  • Memory
    32 GB DDR4 SDRAM
  • FPGA
    1451K logic cells, 75.9 Mb memory resources
  • Analog Output
    up to 64 channels total — 32 channels @ 5 MSPS
  • Analog Input
    up to 16 channels, 16-bit resolution, 4 MSPS, ±10 V
  • Digital Input
    up to 96 channels
  • Digital Output
    up to 32 channels total
  • Communication
    Modbus, Ethernet, CAN/CAN-FD, GOOSE, IEC 104, EtherCAT
  • Fiber Interfaces
    16 × SFP+
  • Dimensions
    480 mm (L) × 533 mm (W) × 267 mm (H)
Application Scenarios
New Energy Converters Simulation
New Energy Converters Simulation

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

New Energy Converters Simulation
New Energy Converters Simulation

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

Energy Storage System Simulation
Energy Storage System Simulation

PCS simulation for energy storage
HV direct-connected energy storage 
Pumped storage power simulation

Energy Storage System Simulation
Energy Storage System Simulation

PCS simulation for energy storage
HV direct-connected energy storage 
Pumped storage power simulation

New Energy Power Station Simulation
New Energy Power Station Simulation

Power station coordination controller 
Simultaneous multi-controller HIL
Real-time full-scene digital twin reproduction of new energy power stations

New Energy Power Station Simulation
New Energy Power Station Simulation

Power station coordination controller 
Simultaneous multi-controller HIL
Real-time full-scene digital twin reproduction of new energy power stations

New-type Power Systems (Microgrids)
New-type Power Systems (Microgrids)

Integrated microgrid source-load-storage systems
PHIL
Green hydrogen microgrids

New-type Power Systems (Microgrids)
New-type Power Systems (Microgrids)

Integrated microgrid source-load-storage systems
PHIL
Green hydrogen microgrids

Electrified Transportation Simulation
Electrified Transportation Simulation

Automotive electric drive controller
Traction drive system simulation

Electrified Transportation Simulation
Electrified Transportation Simulation

Automotive electric drive controller
Traction drive system simulation

Multi-level Device HIL
Multi-level Device HIL

Cascaded SVG simulation
HV direct-connected energy storage 
HV frequency converter simulation
MMC

Multi-level Device HIL
Multi-level Device HIL

Cascaded SVG simulation
HV direct-connected energy storage 
HV frequency converter simulation
MMC

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