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Mechatronic Simulation with Simscape Electrical using MATLAB

Overview Explore
how to design mechatronic systems with Simscape Electrical. - Download Mechatronics Design Examples: http://bit.ly/2EcIJix An electromechanical actuator is used to show some of the modeling, simulation, and deployment capabilities of Simscape Electrical™. Electrical networks are defined within the Simulink® environment using Simscape™ physical connections. The electrical network is integrated with realistic loads modeled as 3D mechanical systems in Simscape Multibody™. Simulation tasks such as optimizing the design, tuning parameters, and hardware-in-the-loop testing are also shown. Highlights With Simscape Electrical you can: Model mechatronic systems with components such as motors, semiconductors, op-amps, and sensors Configure component models to have the right amount of detail for your simulation task Create custom components with Simscape language Automatically tune parameters of components to meet system requirements Run simulations in real-time for HIL testing Mechatronic systems include a wide range of components, including motors, op-amps, and shaft encoders. Simulating these components together with mechanical and control systems is critical to optimizing system performance. To ensure that testing is efficient, Simscape Electrical offers many ways to easily balance the tradeoff of model fidelity and simulation speed. The ability to generate C code from the model enables engineers to use Model-Based Design for the entire system (plant and
controller).

OverviewExplore how to design mechatronic systems with Simscape Electrical. - Download Mechatronics Design Examples: http://bit.ly/2EcIJix
An electromechanical actuator is used to show some of the modeling, simulation, and deployment capabilities of Simscape Electrical™. Electrical networks are defined within the Simulink® environment using Simscape™ physical connections. The electrical network is integrated with realistic loads modeled as 3D mechanical systems in Simscape Multibody™. Simulation tasks such as optimizing the design, tuning parameters, and hardware-in-the-loop testing are also shown. Highlights With Simscape Electrical you can: Model mechatronic systems with components such as motors, semiconductors, op-amps, and sensors Configure component models to have the right amount of detail for your simulation task Create custom components with Simscape language Automatically tune parameters of components to meet system requirements Run simulations in real-time for HIL testing Mechatronic systems include a wide range of components, including motors, op-amps, and shaft encoders. Simulating these components together with mechanical and control systems is critical to optimizing system performance. To ensure that testing is efficient, Simscape Electrical offers many ways to easily balance the tradeoff of model fidelity and simulation speed. The ability to generate C code from the model enables engineers to use Model-Based Design for the entire system (plant and controller).


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