Driving Innovation in Product Development
A few years ago, product engineering required Multi-Disciplinary Optimization, for example, thermal stresses, Fluid-Structure Interaction, and Conjugate Heat Transfer (CHT). Today, amidst the evolving automation landscape, companies must develop products that blend various engineering disciplines simultaneously.
In Electric Vehicles (EVs) alterations in the current within the battery system precipitate consequential thermal fluctuations. These thermal variances necessitate distinct cooling parameters, governed by the embedded electronics within the Battery Management Systems (BMS). Moreover, these fluctuations in current have a significant influence on the electromagnetic characteristics of the motor, inciting fluctuations in losses, torque, and transmission. Remarkably, those current shifts transpire within the blink of an eye, which is within milliseconds.
At Equilibrium Solutions Pvt. Ltd. (ESPL), we’ve adopted an "Integrated Engineering" approach to support customers and address the full scope of their development needs. It combines mechanical, electrical, embedded, and software engineering into a cohesive process, ensuring every product is engineered reliably.
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Challenges Associated with Integrated Engineering Approach
Integrated Engineering is a complex and strategic approach. It involves numerous complexities, requiring companies to partner with experts like ESPL to overcome them and reap optimal value from it. As seasoned Integrated Engineering experts, we’ve identified the following challenges that companies worldwide commonly confront.
System Complexity
Integrating diverse components requires a solid understanding of each element's behavior and interactions, making the process complex
Cross-Disciplinary Collaboration
Effective integration demands close collaboration among mechanical, electrical, embedded, and software engineers, each offering unique expertise and inputs
Virtual Validations
Advanced simulations demand significant computational resources and technical skills to ensure reliable virtual testing
Data Mapping
Detailed engineering requires connecting tools seamlessly, with data from one tool feeding into the next. Engineers must have data mapping skills to link these tools effectively through programming or scripting
Advantages of ESPL’s Offerings
At ESPL, we help our clients address each challenge mentioned above with our abundant expertise, experience, resources, and client-centric approach. Here’s why partnering with ESPL proves advantageous, particularly while leveraging the Integrated Engineering approach.
Competence & System Know- how
At ESPL, we have developed good expertise using Multi-Physics/ Multi-disciplinary methods. Such expertise form the basis of “Integrated Engineering” Approach.
Tools & Data Mapping
ESPL has a range of different engineering tools in FEA, CFD, 1D, CAD from Ansys, Dassault Systems, Siemens and many more Software OEMs. Our expertise in scripting/ engineering programming for mapping of results between different tools is an advantage.
Want to discover how our Integrated Engineering services can work for your business? Feel free to email us at info@eqmsol.com.