Thesis Work: High Frequency rotor excitation system: modelling and design
Thesis Worker at Volvo Cars
Welcome to explore the world of Volvo Cars by writing your thesis with us! As a thesis worker in our organization, you are supported by a supervisor who follows you during your project. All thesis projects are arranged in business-critical areas and therefore you will be able to contribute to our company purpose – providing freedom to move in a safe, sustainable, and personal way – from day one!
About this opportunity – Background
The Electric Drive department 97700 at Volvo Cars is proud of being responsible for designing and delivering system solutions and functionality for the inverters, electric machine, and transmission, in our electrified vehicles.
Our vision is to become “Leading in electrification” and we are aiming to contribute to world class energy efficiency, E-machine functionality, sustainability, customer satisfaction and best performance and drivability, to all our future products.
Scope of the thesis work
This assignment focuses on the design and development of a high-frequency rotor excitation system for electrically excited synchronous machines (EESMs). The work will involve in-depth analysis and modeling of excitation systems, with particular emphasis on optimizing the frequency and efficiency of the rotor excitation process. One will explore advanced design techniques to enhance the dynamic performance, minimize losses, and improve the reliability of the system under varying operational conditions. The work offers the opportunity to gain practical experience in power electronics, electromagnetic field analysis, and control systems, while contributing to cutting-edge research in the field of EESM technology.
This thesis intends to investigate design topology for the rotatory transformer, which brings the excitation power from the stator side to the rotor side, alongside finding the optimal operating frequency for the same. Further, the design of a DC-DC converter with loss estimation of the power electronic components and considering the system safety during faults scenarios. The conclusion of the assignment should include proposal of complete high frequency excitation system for operation of EESMs.
Activities we foresee that should be done during this thesis work are:
1. Literature study.
2. Work content as described above.
3. Production of a final report and presentation.
What you´ll bring
You are studying M.Sc. Electrical Power engineering, or similar. Understanding in Electric machines, Power electronics, finite element modelling, knowledge on materials, hands on MATLAB are highly valuable.
Duration
• The duration of this thesis work is approx. 4-5 months (full time).
• Starting date is in January 2025, exact date to be discussed.
• 30 ECTS
• This thesis work will be conducted at Volvo Cars Gothenburg.
• This thesis work is to be conducted by 1 or 2 students.
• Office, computer and software will be organized by Volvo Cars, in close co-operation with your university.
Be part of the change – apply today!
Selection will be ongoing during the application period, so do not hesitate to send in your application. Attach your resume and cover letter and copies of grades. You can provide a reference if you like.
Please note that due to GDPR, applications by email will not be accepted.
If you have any additional questions regarding the position, you are welcome to contact us.
Supervisor: Rishabh Raj rishabh.raj@volvocars.com and
Shayan Halder shalder@volvocars.com
Hiring manager: Anders Thulin, anders.thulin@volvocars.com
We want your application at the latest by 17 November 2024.
Volvo Cars - Driving change together
Volvo Cars’ success is the result of a collaborative, diverse, and inclusive working environment. Today, we are one of the most well-known and respected car brands, with around 43,000 employees across the globe. At Volvo Cars, your career is designed around your skills and aspirations, allowing you to reach your fullest potential.
Gothenburg, SE, 40531