Knowledge Center

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.

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.

Testing Industrial Power Hardware with Power Hardware-in-the-Loop

This webinar shows you how electrical engineers can use power hardware-in-the-loop (Power HIL) testing with Simscape Electrical™ and Speedgoat real-time solutions to test electrical equipment.

Real-Time Simulation and Testing for Academic Research and Teaching

Researchers and scientists accelerate the designing process of novel control strategies, verify and validate existing embedded controllers or expand real-world systems with emulated digital twins. This webinar takes you one step further and shows how to close the gap between desktop simulation and controlling actual hardware.

Testing and Virtual Commissioning of PLCs using Digital Twins

This recorded webinar will highlight how you can transform your plant into a digital twin using Simulink, how you can test PLC applications in the lab, and make your test execution efficient and reproducible.

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.

Rapid Control Prototyping for Power Electronics Control Design

This recorded webinar shows how power electronics control engineers can use rapid control prototyping (RCP) with Simulink Real-Time™ and Speedgoat real-time target machines to validate Simulink^® algorithms against electric motor and power converter prototype systems.

Hardware-in-the-Loop Testing of Control Algorithms for Modular Multi-Level Converters

Learn how to use Simulink^®, Simscape Electrical™, and Model-Based Design to develop and test the embedded software that controls a multi-level power converter and improve your knowledge of simulating power electronics control systems or wants an introduction to code generation from Simulink models.

Accelerate Development of Power Systems with Real-Time Testing

This webinar will present how real-time solutions are being used to accelerate electric power generation, renewable energy integration, and onboard systems development. It highlights how Speedgoat real-time solutions enable electrical and control engineers to develop, test, and validate their innovations with hardware prototypes.

HIL and Automated Testing Applications for Aerospace

This recorded webinar presents how hardware-in-the-loop (HIL) testing is used to develop, test, and validate new aircraft components or systems such as controllers for aileron actuators. 

Advancing Electrification with Real-Time Testing

This recorded webinar presents how you can leverage real-time solutions to accelerate renewable energy integration and electric vehicle developments.

Developing and Testing Next Generation Control Systems

Learn how Speedgoat enables you to prototype and test complex control algorithms using full-vehicle simulation. By building a virtual environment for safe and realistic testing and verification, you can reduce prototype testing costs.

Hardware-in-the-Loop (HIL) Testing of an Electric Motor Controller

This webinar demonstrates Hardware-in-the-Loop (HIL) testing of a controller for a 3-phase inverter and permanent magnetic synchronous motor (PMSM). Learn how to run a motor and inverter model in real-time using Simulink Real-Time and a Speedgoat Real-Time Target Machine. Learn how to configure your model for real-time testing, control your HIL application from within Simulink, create and manage test scenarios, verify and validate functional requirements, generate test reports, and automate your regression tests in the context of Continuous Integration.

Using Simulink to Develop Grid-Tied Solar Inverter Controls

Learn how you can design, implement, and test the controller code for a 3-phase grid-tied solar inverter using Simulink.  Learn how you can develop a controller that can adhere to grid codes and maintain inverter grid connection during upset conditions.

Current Control and FPGA-Based Real-Time Simulation of Grid-Tied Inverters

Learn how to synthesize a controller for a grid-side converter using observer-based linear quadratic regulator (LQR) and how to perform hardware-in-the-loop testing of grid-tied inverter using Simulink and Speedgoat hardware.

Real-Time Simulation and Testing: Hardware-in-the-Loop

Hardware-in-the-Loop (HIL) Simulation and Testing with Simulink Real-Time^TM and Speedgoat target computers.

Continental: Accelerated Development Using Rapid Control Prototyping

This project shows a solution whereby engineers can quickly move from SIL to HIL using a Speedgoat system with programmable FPGA technology instead of an original ECU. 

CPU, FPGA, and I/O Solutions for Real-Time Simulation and Testing with Simulink

In this webinar, MathWorks together with Speedgoat will showcase how to perform real-time simulation and testing, enabling you to rapidly and continuously test and prove your designs, from desktop simulation to testing your designs in real time on hardware platforms.

Model-Based Design for Predictive Maintenance, Code Generation and Real-Time Testing

This video shows how to automatically generate C code from classification models. First, you’ll see how to validate your algorithm on the desktop. Then, once it is validated, the video will show how to generate code. Next, the video walks through how to use Simulink® to deploy the classification model onto a B&R PLC, and then test it on a real-time representation of the system using a Speedgoat machine.

Hardware-in-the-Loop (HIL) Testing of Battery Management System (BMS) using Simulink Real-Time and Speedgoat target hardware

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

It showcases the modeling of a battery pack and battery management algorithms such as SOC estimation and cell balancing using Simulink. The webinar also shows how to perform HIL simulation by running the battery pack plant model in real time on Speedgoat test system, to find errors before deploying the actual hardware in the field

A Real-Time Simulation Environment for Autonomous Vehicles in Highly Dynamic Driving Scenarios

In May 2018, a group of researchers from the Technical University of Munich (TUM) won the first Roborace Human + Machine Challenge. TUM's autonomous driving software stack manages environment perception, autonomous navigation, and trajectory tracking.

Building Real-Time Driver-in-the-Loop Simulators

Learn how to use Vehicle Dynamics Blockset™ and the Unreal Engine interface to visualize driving scenarios. Use Speedgoat test system with Simulink Real-Time to create a real-time simulator. Set up a driving simulator with pedal and steering wheel hardware to perform driver-in-the loop testing

Rapid Control Prototyping for Permanent Magnet Synchronous Motor (PMSM) Control

Power Electronics and Motor Control Prototyping on CPU/FPGA Target Hardware with Simulink Real-Time^TM.