Hardware-in-the-Loop Testing of Battery Management Systems Expedite testing of Battery Management Systems (BMS) with hardware-in-the-loop (HIL) simulation and battery cell emulation Reference Applications Hardware-in-the-Loop
Controller HIL Testing for Three-Phase PMSM with Two-Level Inverter Accelerate testing of embedded motor controllers by simulating a three-phase PMSM drive as hardware-in-the-loop Reference Applications Hardware-in-the-Loop
Hardware-in-the-Loop Testing of Microgrid Energy Management System This reference application demonstrates how to perform model-in-the-loop (MIL) and hardware-in-the-loop (HIL) simulation of a grid-connected/islanded microgrid. Reference Applications Hardware-in-the-Loop
Real-Time Simulation and Testing with Simulink Real-Time and Speedgoat Hardware Speedgoat real-time solutions and Simulink® are expressly designed to work together for creating real-time systems for desktop, lab, and field environments. Workflow Introductions Hardware-in-the-Loop Rapid Control Prototyping
Hardware-in-the-Loop Simulation Effectively Test Controls with Real-Time Digital Twins and Automated Testing. Workflow Introductions Hardware-in-the-Loop Industry Use Cases
Rapid Control Prototyping Accelerate Control Design Innovation With Model-Based Design Ready Solutions for a Worry-Free Test and Simulation Experience. Workflow Introductions Rapid Control Prototyping Industry Use Cases
Introduction to Speedgoat FPGA Technology Learn about the Simulink-integrated workflows to configure and program FPGA I/O modules easily and directly from your model. Workflow Introductions Hardware-in-the-Loop Rapid Control Prototyping
Hardware-in-the-Loop Testing of More Electric Aircraft Energy Management System This reference application demonstrates how to perform model-in-the-loop (MIL) and hardware-in-the-loop (HIL) testing of an energy magement system (EMS) design for a More Electric Aircraft (MEA). Reference Applications Hardware-in-the-Loop
Hardware-in-the-Loop Simulation of a Shipboard Power System This reference application demonstrates how to perform model-in-the-loop (MIL) and hardware-in-the-loop (HIL) simulation of a two-zone medium voltage direct current (MVDC) shipboard power system. Reference Applications Hardware-in-the-Loop
Electric Motor Control Reference Application Design, prototype, and test your brushless DC motor controls using Simulink and Speedgoat hardware Reference Applications Rapid Control Prototyping Hardware-in-the-Loop
Simscape Vehicle Templates Run custom Simscape Vehicle Models in Real-Time Reference Applications Hardware-in-the-Loop
Lane Detection on FPGA Reference Application Learn how to perform hardware-accelerated vision processing for driver assistance and automated driving systems by implementing real-time lane detection. Reference Applications Hardware-in-the-Loop
Real-Time Lane Keeping Assist Prove and test your model predictive lane following controller using real-time virtual vehicle simulation with raw synthetic camera data. Reference Applications Rapid Control Prototyping
Hardware-in-the-Loop Testing of Control Algorithms for Modular Multi-Level Converters Learn how to Test Embedded Controllers for Complex Modular Multi-Level Converters Hardware-in-the-Loop Reference Applications
FPGA-Based HIL Testing of Grid-Side Converters Use an integrated workflow to test grid-side converters safely without requiring physical prototypes. 03 Oct 2020 Reference Applications Hardware-in-the-Loop
Real-Time Simulation and Control of High-Performance All-Electric Autonomous Racing Cars Discover the full autonomous software stack from Technical University of Munich’s Roborace team. Designed with Simulink and ready to run on Speedgoat. Reference Applications Hardware-in-the-Loop Rapid Control Prototyping
Real-Time Driver-in-the-Loop Reference Application Learn how to create and run real-time virtual vehicles and Driver-in-the-Loop simulators to safely test and validate your new designs. Reference Applications Hardware-in-the-Loop Rapid Control Prototyping
Timing and Synchronization Connect distributed systems with multiple nodes and create deterministic real-time applications with Speedgoat timing and synchronization solutions. How To
Update Target Operating System to R2020b and Later Simulink Real-Time R2020b and later releases ship with a QNX-based 64-bit real-time operating system (RTOS). Learn how to update the software of your existing Speedgoat real-time target machine running on R2020a or earlier. How To
Part 1: System Configuration of Host PC (R2020b and later) Learn how to set up the host computer for smooth operation, test the host-target communication and troubleshoot basic installation issues. How To
Part 2: Configuration of Target Machine (R2020b and later) Understand the operating principles of real-time target machines, learn how to configure your target machine and create and transfer a Simulink Real-Time™ kernel. How To
Part 3: Running Real-Time Applications (R2020b and later) Understand the main principles of real-time simulation. Configure and prepare Simulink® models for real-time execution. Deploy Simulink® models as real-time applications onto Speedgoat target machines. How To
Part 4: Data Logging (R2020b and later) Monitor, visualize, and log signals using the Simulation Data. Inspector (SDI) on the development computer. Write data to the disk of the target machine using “File Scope” blocks. How To
Part 5: Control and Instrumentation (R2020b and later) Learn how to use a Simulink® model as a direct user interface to the real-time application. Tune parameters using MATLAB command lines to control the execution of the real-time application. Create custom user interfaces using MATLAB App Designer. How To
Part 1: System Configuration of Host PC (R2020a and earlier) Learn how to set up the host computer for smooth operation, test the host-target communication and troubleshoot basic installation issues. How To