The Comprehensive Solution for Electric Machine Design
Rapidly analyze motor designs with analytical simulations. Simcenter SPEED helps you simulate most main electric machines classes along with their drives.
Simcenter SPEED is the advanced software program that provides a comprehensive solution for electrical machines design. With Simcenter SPEED, you can create and optimize the electromagnetic, thermal, and mechanical performance of electric machines. It is the perfect tool for designing axial and radial flux motors, generators, and alternators. The software program has several features which include pre-built templates that enable quick and easy design processes. It comes with virtual testing features such as adaptive transient finite element analysis, circuit coupling, and multi-level optimization. These features enable users to test designs under different conditions such as load changes, temperature variations, and even transients. The software program also has an extensive material database with over 600 magnetic materials to choose from.
One of the most significant advantages of using Simcenter SPEED is its accuracy in predicting the performance of electric machines. The software integrates a variety of physical phenomena, such as acoustic noise or structural behavior, in its simulations. This feature allows for more accurate predictions of the real-world performance of electric machines.
Simcenter SPEED provides a user-friendly interface for engineers in different fields such as mechanical, electrical, and manufacturing engineering. The advanced software program is packed with tools and features that enable users to design and optimize electric machines. Whether it is designing motor parts, analyzing thermal performance or calculating efficiency, Simcenter SPEED provides a complete solution. The software is also useful for companies that want to reduce the time and cost of designing electric machines. Since Simcenter SPEED offers virtual testing features, companies can eliminate the need for extensive physical testing. With the software, engineers can conduct design reviews and make improvements to the design before expensive prototyping is carried out.
In conclusion, Simcenter SPEED delivers a comprehensive solution for designing electric machines. With its easy-to-use interface, pre-built templates, and virtual testing features, engineers can create high-performance electric machines cost-effectively. The accuracy and efficiency of Simcenter SPEED make it the perfect solution for companies looking to streamline their electric machine development process.
Finite Element Analysis (FEA) is a mathematical method used to investigate and simulate the behavior of structures and materials when subjected to various external forces. Simcenter SPEED has a built-in FEA capability which enables users to perform accurate and reliable structural analysis on their designs. The FEA feature uses the latest numerical techniques to simulate 3D static and dynamic structural responses, which helps to identify areas of stress concentration and potential failure. This feature can also be used to optimize designs, improve product durability, and reduce costs by identifying potential problems at an early stage.
The thermal analysis capability of Simcenter SPEED allows users to simulate and analyze temperature and heat transfer phenomena in electrical machinery. This feature can predict the temperature distribution of the machine components and assist the user in the selection of the most suitable cooling system to maintain safe operating temperatures. Additionally, this feature can be used to calculate the thermal performance of different construction materials and determine their suitability for various applications.
The Magnetostatic and Electromagnetic analysis capability in Simcenter SPEED is used to simulate and analyze the distribution of magnetic fields and their effects on electrical machinery components. This feature can predict the performance of machines in terms of torque, power, and efficiency, and identify any electromagnetic losses that may occur due to eddy currents, hysteresis, or other factors. The results obtained from this analysis can be used to optimize the design of electrical machinery, ensure maximum efficiency, and minimize energy losses.
Simcenter SPEED includes advanced meshing and simulation capabilities that enable users to create and analyze complex 3D models with ease. This feature allows for the creation of refined meshes for high-fidelity simulations and can handle complex geometries, multiple materials, and non-linear behaviors. This advanced meshing and simulation capability can also be used to perform transient simulations that accurately predict the behavior of electrical machinery over time.
The design optimization and sensitivity analysis capability of Simcenter SPEED enable users to optimize the performance of electrical machinery by identifying the optimal combination of design parameters. This feature can be used to perform virtual experiments and simulations on different designs to find the one that meets the requirements of the application while minimizing costs. Additionally, this feature can be used to perform sensitivity analysis, which helps users to understand how changes in design parameters affect the behavior of the machine. By using the design optimization and sensitivity analysis capability of Simcenter SPEED, users can develop high-performing and cost-effective electrical machinery designs.
