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Read about the latest news on real-time simulation and testing being used around the world in cutting-edge applications
Reference Example | Controller Hardware-in-the-Loop Testing for NPC Solar Inverters

Reference Example | Controller Hardware-in-the-Loop Testing for NPC Solar Inverters

Accelerate integration of renewables into existing grids with this reference example featuring a photovoltaic system with a three-phase NPC inverter. Run a digital twin of your grid on a Speedgoat test system to test algorithms such as maximum power point tracking running on the actual controller.

Testing Synthetic Inertia Controllers for Wind Turbine Power Generators

Testing Synthetic Inertia Controllers for Wind Turbine Power Generators

Test synthetic inertia controllers to maintain the stability of the overall grid when adding renewable energy sources such as wind turbine power generators.

Partner Solution Integration | Test Motor Drives at Power Levels up to Hundreds of kW

Partner Solution Integration | Test Motor Drives at Power Levels up to Hundreds of kW

Test your inverters and motor drives at power levels up to hundreds of kilowatts by connecting the power amplifiers from the AVL testbed to Speedgoat test systems. This test setup allows you to safely and quickly test by emulating electric motors and batteries.

Hardware-in-the-Loop Testing for Electric Powertrains

Hardware-in-the-Loop Testing for Electric Powertrains

Advance EV powertrain testing: real-time digital twin simulation, modular hardware-in-the-loop test benches, end-to-end automation. 

Real-Time Performance Testing of PID and MPC Controllers for Autonomous Vehicle Steering

Real-Time Performance Testing of PID and MPC Controllers for Autonomous Vehicle Steering

Researchers at the Vellore Institute of Technology and Bringhamton University are using real-time HIL testing to compare traditional PD and PID controllers with a modern Model Predictive Control (MPC) controller for autonomous steering.

Success Story | Improving Electric Vehicle Sustainability

Success Story | Improving Electric Vehicle Sustainability

Motors without rare earth magnets are more affordable and sustainable, but they have one caveat: they are harder to control. INSA-Strasbourg and ICube Laboratory use Speddgoat test systems to test their innovative control designs as prototype controllers. 

Webinar | Hardware-in-the-Loop Testing of Battery Management Systems

Webinar | Hardware-in-the-Loop Testing of Battery Management Systems

Learn how to test and validate battery management systems (BMS) using a Simulink® workflow from desktop simulation to hardware-in-the-loop (HIL) testing.

Solution | Unified Development Platform for Your Motor Controllers and Drives

Solution | Unified Development Platform for Your Motor Controllers and Drives

Develop your motor controllers and drives using modular and scalable Speedgoat test systems, fully integrated with the model-based design workflow from Simulink®. This allows you to test your motor controllers end-to-end, from requirements to validation, within a single environment.

Validation of e-Bike Brake Controllers Using Hardware-in-the-Loop Testing

Validation of e-Bike Brake Controllers Using Hardware-in-the-Loop Testing

Validate the anti-lock braking system (ABS) controller of an electric bicycle (e-bike) using a hardware-in-the-loop testbench. Test the overall system — e-bike and ABS — over a complete parameter space that includes the mass of the rider, load distribution, and tire characteristics.

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