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Ansys Motor-CAD

by Ansys · Since 1970
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ActiveAvailable globallyCloud
Quick facts
VendorAnsys
Year launched1970
StatusActive
LocationSouthpointe 2600 Ansys Drive Canonsburg, PA 15317 USA
Countries servedGlobal
Languages10
Integrations
Free tier
Free trialYES
Contact salesYES

About Ansys Motor-CAD

Ansys Motor-CAD is a simulation software from Ansys that focuses on the design and analysis of electric motor systems. It provides thermal, mechanical, and electromagnetic simulation capabilities so engineers can evaluate motor performance and efficiency. This tool is specifically designed to support the entire motor design process, enabling users to identify design trade-offs early. Ansys Motor-CAD allows for easy integration with other Ansys tools and provides detailed reporting features to aid in decision-making. Key capabilities: thermal analysis electromagnetic analysis mechanical analysis improvement tools reporting features Best for: engineers and designers that need to develop and analyze electric motor systems efficiently.

Ansys Motor-CAD by Ansys is a specialized electric machine design tool that excels in multiphysics simulation for motor designs. Its primary purpose is to enable design engineers to evaluate motor topologies and concepts, optimizing for performance, efficiency, size, cost, and weight. Key features include built-in electromagnetic, thermal, and mechanical solvers, which automate the analysis process and allow for comprehensive evaluation of motor designs across the full torque-speed operating range. The user interface of Ansys Motor-CAD is designed with user-friendliness in mind. It features an intuitive layout that simplifies navigation, making it accessible even for those who may not be deeply familiar with CAD software. The interface includes clear menus and toolbars, which streamline the workflow and reduce the learning curve. Unique design elements, such as customizable workspaces and drag-and-drop functionality, enhance the overall user experience, allowing engineers to focus more on design and less on navigating the software. Ansys Motor-CAD stands out with its robust functionality and features. It offers high-fidelity 2D/3D analysis capabilities, enabling users to analyze end-effects, demagnetization, core loss, and other advanced electromagnetic phenomena.

Pros & Cons

What users like
  • +ANSYS Motor-CAD is a powerful software for designing and analyzing electrical motors, enabling users to optimize their designs for efficiency and performance.
  • +The software offers a comprehensive set of features, including 3D modeling and finite element analysis (FEA), making it suitable for a variety of applications and industries.
  • +For specific motor models, design iterations can be achieved easily, streamlining the design process and allowing for quick adjustments.
  • +ANSYS Motor-CAD allows users to analyze electromagnetics and mechanical interfaces either independently or together, providing flexibility in how designs are evaluated.
  • +The software is designed with a user-friendly interface, making it accessible to both new and experienced users.
What users flag
  • The 3D modeling features in ANSYS Motor-CAD are not as user-friendly as other aspects of the software, which may pose a challenge for users unfamiliar with complex modeling tools.
  • To fully utilize the finite element analysis (FEA) capabilities of the software, expensive and powerful hardware is required, which could be a barrier for some users.
  • The software can be slow when performing design iterations at specific temperatures, making comparative analysis more time-consuming and challenging.

Features

Key features

Fast Multiphysics Simulation
Fast multiphysics simulation refers to the ability of software to quickly and accurately simulate multiple physical phenomena—such as thermal, structural, and fluid dynamics—within a single environment. This feature is crucial for engineers and scientists who need to analyze complex systems where different physical processes interact, enabling them to optimize designs and predict performance more efficiently.
Integrated Design Modules
Integrated design modules are specialized tools within a simulation platform that allow for seamless design and analysis workflows. These modules are often tailored for specific industries or applications, enabling users to easily transition from design to simulation without needing to switch between different software tools. This integration streamlines the design process, improves accuracy, and reduces development time.
Extensive Parametrized Templates
Extensive parametrized templates are pre-built models that can be customized through adjustable parameters to fit specific design needs. These templates save time by providing a starting point for simulations, allowing users to quickly explore different design variations. They are particularly useful in repetitive or standardized design processes, where minor adjustments are frequently required.
Advanced Cooling Methods
Advanced cooling methods refer to sophisticated techniques used in simulations to analyze and optimize cooling systems, such as those found in electronics, machinery, or automotive components. This feature allows engineers to model heat dissipation, evaluate different cooling strategies, and ensure that systems operate within safe temperature ranges, ultimately improving performance and reliability.
Enhanced Electromagnetic Analysis
Enhanced electromagnetic analysis involves the simulation and evaluation of electromagnetic fields and their effects on devices and systems. This feature is essential for designing and optimizing components like antennas, sensors, and circuits. It helps engineers understand how electromagnetic forces will interact with materials and structures, ensuring that designs meet performance standards and regulatory requirements.

Additional features

Full Operating Range Design
Full operating range design refers to the capability of a simulation or design tool to account for all possible operating conditions of a system. This ensures that the design will perform reliably and efficiently across its entire range of expected conditions, such as temperature, load, and speed variations. This feature is critical for creating robust designs that can withstand real-world scenarios.
Integrated Multiphysics Modules
Integrated multiphysics modules allow users to simulate multiple physical phenomena—such as thermal, structural, and electromagnetic behaviors—within a single platform. This integration ensures that interactions between different physical domains are accurately modeled, leading to more comprehensive and realistic simulations, which are crucial for complex system design.
Template-Based Magnetic Topologies
Template-based magnetic topologies provide pre-configured models for designing magnetic systems, such as motors or transformers. These templates can be easily adapted to specific requirements, enabling engineers to quickly develop and optimize magnetic designs. This feature saves time and ensures consistency in the design process.
Cooling Topologies and Thermal Analysis
Cooling topologies and thermal analysis refer to the study and optimization of cooling strategies within a design. This feature allows engineers to model how heat is dissipated and managed, ensuring that the system remains within safe operating temperatures. Effective cooling designs are critical for maintaining performance and longevity in systems prone to heat generation.
Efficiency and Loss Maps Calculations
Efficiency and loss maps calculations involve determining the efficiency of a system and identifying where energy losses occur under various operating conditions. This feature helps engineers optimize designs to minimize losses and maximize overall efficiency, which is particularly important in energy-sensitive applications like electric motors or power electronics.
Adaptive Templates and Customization
Adaptive templates and customization offer flexible, modifiable models that can be tailored to meet specific design needs. These templates adapt to different parameters, allowing users to explore various design options quickly. Customization ensures that the tool can be aligned with unique project requirements, enhancing productivity and precision.
Electromagnetic and Structural Analysis
Electromagnetic and structural analysis involves the study of how electromagnetic fields and mechanical forces interact with materials and structures. This feature is essential for ensuring that designs are both electrically and mechanically sound, helping to prevent failures and improve performance in applications like motors, transformers, and sensors.
New Cooling Methods
New cooling methods refer to the latest techniques and strategies for managing heat within a design. These methods are integrated into the simulation tool to allow engineers to explore innovative cooling solutions, improving the thermal management of devices and systems, which is crucial for enhancing performance and reliability.
Upgraded Workflows
Upgraded workflows provide streamlined, efficient processes within the simulation or design tool, making it easier for users to move through the various stages of design, analysis, and optimization. Enhanced workflows reduce time-to-market and improve the user experience by simplifying complex tasks and automating routine processes.
Accessibility and Compliance
Accessibility and compliance ensure that the design and simulation tool is easy to use and meets industry standards and regulations. This feature includes user-friendly interfaces, support for diverse user needs, and adherence to relevant compliance requirements, ensuring that the software is both practical and legally sound for professional use.

Pricing

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Countries & Languages

Global
Countries served
10
Interface languages
3
Billing currencies

Interface languages

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Billing currencies

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