Knowledge Center

Power Electronics Solutions

Design, test, and validate digital controls for electric motors, power converters, and battery management systems.

Hardware-in-the-Loop Simulation

Effectively Test Controls with Real-Time Digital Twins and Automated Testing.

Developing and Testing Motors and Drives for Vehicles and Robots

Prototype motor control designs, and test motor drives using a fully connected model-based environment and digital twin simulation.

Hardware-in-the-Loop Testing for Electric Motor Control

Learn about full-scale testing and validation of new controller algorithms under all conditions, including edge cases, using Simulink and Speedgoat test systems.

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

This webinar will show you how to develop and test complete battery management systems (BMS) using Simulink^®, Simscape Battery™, and Speedgoat Test Systems.

Validating Motor Control Algorithms with Hardware-In-The-Loop Testing

Learn how to develop and test motor control algorithms. See how you can validate the embedded software by performing hardware-in-the-loop (HIL) testing of the control algorithms

Hardware in the Loop Testing for Power Electronics

Learn about hardware-in-the-loop (HIL) testing for power electronics applications, such as testing embedded controllers and power converters (leveraging Power-HIL).

Full-switching Electric Drive FPGA-based Hardware-in-the-Loop Simulation

Learn how to perform hardware-in-the-loop testing of power electronics controllers, without leaving the MATLAB and Simulink environment.

Speedgoat FPGA I/O modules are used to execute electric drive models with the required resolution and fidelity for simulating high frequency switching dynamics such as current ripple and spatial harmonics. 

Fuel Cell Integration for Electrified Propulsion

Explore real-time testing & prototyping solutions for multi-stack fuel cells & battery propulsion systems.

Automated and Continuous Hardware-in-the-Loop Testing

Learn about hardware-in-the-loop (HIL) testing and how to efficiently test controls using Speedgoat and MathWorks’ unified HIL solution.

Accelerate Development of Electric Vehicles with Real-time Testing

This webinar presents how real-time testing accelerates innovation of automotive electrification, from electric powertrains and power management systems to high-voltage DC battery chargers. It shows how HIL testing is crucial to de-risk integration testing of electric propulsion and battery management systems.

Developing and Testing Control Systems with MATLAB and Simulink

The webinar explains you an engaging learning experience by exposing you to a broad set of real-life testing scenarios, including real-time interactions with digital twin simulators and physical systems, such as motion sensors, electric motors, and robot manipulators.

Virtual Commissioning

Test and automate testing of large-scale industrial plants and networks with hundreds or thousands of nodes leveraging real protocol interconnects, provided by hardware chips that are used in millions of embedded devices.

Computer Vision

Rapidly build, run, and test video acquisition and control applications with a Speedgoat real-time target machine. There is a wide range of applications from the design of phone cameras to autonomous vehicle systems.

Audio

Highly controlled manipulations are required e.g. for hearing aids, noise cancelling headphones, or car acoustics. Speedgoat real-time systems provide high performance, high-resolution analog and digital I/O, together with MATLAB & Simulink.

Power Hardware-in-the-Loop

Speedgoat provides a wide range of real-time P-HIL solutions to test and verify power electronics and power system components. Utilize complex physical models designed with MathWorks tools on multi-core CPUs and FPGAs with the highest level of performance.

Accelerate Development of Electric Vehicles with Real-Time Testing

Real-time testing accelerates innovation of automotive electrification, from electric powertrains and power management systems to high-voltage DC battery chargers.

Addressing Challenges Involved in Developing Battery Management Systems Using Simulink

Learn how to model battery cell models as a function of battery charge, temperature and scale the cell model up to a battery pack. Monitor cell voltage and temperature, estimate state-of-charge (SOC) and state-of-health (SOH) across the pack. Use simulations to model feedback and supervisory control algorithms. Generate production-quality C/C++ code for target embedded processors. Perform Hardware-In-Loop testing using Speedgoat real-time test system.

HIL of Battery Management Systems

Verify, validate, and test battery management system (BMS) controllers and hardware components using hardware-in-the-loop testing (HIL) and battery cell emulators.

HIL Testing of Electric Motor Controls

Test, and validate embedded controllers for electric motors and drives using Simulink and Speedgoat hardware. Emulate electric motors, inverters, resolvers, among other components.

HIL Testing of Power Electronics

Accelerate the development of power electronic converters such as DC/DC, AC/DC, or MMC  using hardware-in-the-loop testing.

Electric Vehicle Powertrains

Develop powertrains and fast chargers for electric vehicles including electric motors, inverters, transmissions, and power management systems.

Power Hardware-in-the-Loop

HIL testing of power components like battery chargers using AC or DC power interfaces. Speedgoat supports power amplifiers from EGSTON Power, Cinergia, and Puissance Plus.

HIL of Grid-Side Inverter Controllers

Advance control development using HIL testing. Reuse models from desktop simulation and include switching dynamics up to 5 kHz using CPUs or 100 kHz with FPGAs.

HIL Testing of BMS using Simulink Real-Time and Speedgoat target hardware

This webinar will demonstrate how engineers can perform hardware-in-the-loop (HIL) testing to validate and test their Battery Management Systems design using Simulink Real-Time^TM and Speedgoat Target hardware.