MATLAB and Simulink for Electrical Technology Development
Explore how MATLAB and Simulink enable electrical engineers to design, simulate, and optimize advanced systems efficiently, ensuring reliability and innovation.
Posts
9 result found
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The Business Benefits of Modeling and Simulation
The product development landscape has undergone a significant shift, driven by new technologies, advanced materials, and complex manufacturing methods. These changes have created unprecedented demands on engineering teams. As a response, simulation has become an indispensable tool for successfully navigating through such challenges.
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SEMILAB Optimizes Microwave Transfer: How Virtual Testing Refined a Mode-Transforming Mirror
Designing microwave components can be tricky. SEMILAB used COMSOL Multiphysics to virtually test a mode-transforming mirror, optimizing its shape for efficient microwave transfer between waveguides. This simulation saved time-, manufacturing-, and testing costs.
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Structural Optimization with COMSOL Multiphysics
Explore COMSOL’s Optimization Module for enhanced engineering designs. This video provides a quick overview of COMSOL Multiphysics, spotlighting mechanical modeling and optimization tools. The presentation includes a live demonstration of a straightforward stress/strain optimization of a mechanical component subject to static loading and more.
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Battery Pack Design in COMSOL Multiphysics
Discover COMSOL Multiphysics’ capabilities for monitoring the temperature distribution of a battery pack. See how you can optimize battery design in the development cycle using the Battery Design Module.
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AI: Driving the Industry Towards Greater Success
Artificial intelligence (AI) is seen as a promising technology that can help leading OEMs to maintain their position as market leaders. In this post, read about how AI is changing the manufacturing sector, as well as its potential advantages and potential drawbacks.
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Motor Control Design with Simulink
Learn how to reduce motor control development time by using simulation models to design and verify control algorithms and deploy those algorithms to hardware using automatic code generation.
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10 Ways to Speed Up Power Conversion Control Design with Simulink
Discover the top 10 strategies to supercharge your power conversion control design process using Simulink’s system-level simulations. Learn how to balance cost and performance, automate tasks, and generate production-ready algorithm code with these powerful techniques.
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Battery Management Systems Development with Simulink and Model-Based Design
Gain deep insights into battery pack dynamics, optimize operational cases, and elevate software architectures. Learn how to conduct early hardware testing, all while ensuring safer, more efficient, and longer-lasting battery pack performance.