- Science and Research
- United Kingdom - Malmesbury Office
At Dyson we are encouraged to think differently, challenge convention and be unafraid to make mistakes. We’re creative, collaborative, practical and enthusiastic, but most of all we’re hugely passionate about what we do. We are looking for individuals who wish to invent, design and develop leading products for the global market. By working in our world class Research, Design and Development (RDD) centre, these individuals have the opportunity to work alongside other leading technical specialists and highly motivated creative people, to develop products which fulfil our ambition of being truly different and better than our competitors. Dyson monitors the market to ensure competitive salaries and pension contributions. Beyond that, you’ll also enjoy a profit-related bonus, generous leave and life insurance. However, financial benefits are only the start of a Dyson career. Rapid professional growth, leadership development and new opportunities abound.
Part of Dyson’s Strategy & Research Group, the Motors and Power Systems (M&PS) Research Team is responsible for the research, design and prototyping of the next generation of Dyson Digital Motors powering innovative products in existing and new product categories. The multidisciplinary technical expertise of the team encompasses design, mechanical, thermal, aerodynamic, acoustic, electromagnetic and motor control engineering.
The work often involves design-cycles of 1-2 years targeting specific products, alongside short-term research and scoping studies. Technologies transfer to the downstream development teams once they reach suitable maturity.
About the role:
An exciting opportunity has arisen for a Senior Motor Drives Engineer to join the highly successful Motors and Power Systems Research Team. The successful applicant will be working on the electromagnetic and/or motor control design of the next generation of advanced, high performance Dyson Digital Motors (DDMs) for low cost / high volume domestic / commercial applications; based in Malmesbury, Wiltshire, U.K.
Understanding and knowledge on both electromagnetic theory of electrical machines and motor control theory (including dynamic system simulation) are desired with sufficient experience in at least one of the two fields.
Participate in the design process of project specific single- and multi-phase electromagnetic and/or motor control solutions to meet requirements
Understand the overall product concept and contribute to the design of the product through the use of advanced knowledge of the latest technologies and methods in the industry
Design and develop novel high performance, single- and multi-phase electric motor topologies and construction methods and/or motor control solutions that meet target specifications such as cost, size, weight and efficiency
Use of 2D/3D static and transient electromagnetic Finite Element Analysis (FEA) to model detailed aspects of brushless motor designs
Use and participate in the development of dynamic power system simulation tools in MATLAB/Simulink environment to:
Accurately model motor and drive performance
Develop motor controls and control strategies to meet the target performance
Optimise the motor and system design to meet product specific requirements, i.e. lowest cost, size and most efficient solution
Test & verify new motor drive designs
Participate in generating innovative and novel solutions with strong / high value IP for Dyson products while considering freedom to operate
Collaborate effectively with other Dyson motor drives, electronics, software, mechanical, thermal and aero-acoustics engineers from Malmesbury and Newcastle to ensure that the product performance, reliability and cost expectations are met, all within the planned timeline of the project
Communicate clearly and effectively the results and project status to a broad spectrum of associated project members and senior management
Manage your own time using planning tools such as Microsoft Project
Support and help others within the wider team
Education and Experience
A minimum of a good first degree in electrical/electronic engineering or equivalent, preferably with a machines and drives bias, together with significant industrial experience (3+ years) in a relevant field. Alternatively, you should have graduated from a relevant post-doctoral degree with a mix of high level of practical as well as theoretical knowledge.
Essential technical skills
Advanced knowledge of electromagnetic machine design theory coupled with extensive experience in the use of 2D/3D static and transient electromagnetic FEA, preferably using Simcenter MAGNET
Advanced knowledge of the system level dynamic simulation of motor drives (including electronics and software aspects of the drive), preferably using MATLAB/Simulink and its use in the development and optimisation of electromagnetic motor design and the motor controls
Experience in the design of permanent magnet motors, including knowledge of soft and hard magnetic materials and their use in electrical machines
Appreciation of various motor control techniques for low and high speed, single-phase and multi-phase permanent magnet and switched reluctance motors
Extensive experience in testing and verification of electric motors, primarily permanent magnet and switched reluctance type
Appreciation of mechanical, aero-acoustic and thermal aspects of electrical motor design
Appreciation of design-for-manufacture mentality and be able to consider the limitations of manufacturability early on in the design process
Be creative to put advanced knowledge in the field into tangible highly novel end products with strong performance improvements and Intellectual Property (IP) benefits
Be able to demonstrate sound theoretical knowledge, reasoning and problem solving skills in engineering
Be able to clearly report progress in regular update meetings together with a high standard of documentation
Desirable technical skills
Advanced knowledge and experience of the coupled design of full motor-drive systems including electromagnetics, power electronic drives and their control.
Ability to switch technical disciplines between electromagnetic analysis of a motor and design of its control system to optimise performance based on project type and stage of development.
Knowledge of End-of-Line testing and tuning processes
Knowledge of power electronics and energy storage solutions
Knowledge of embedded electronics and SW in relation to motor control applications
An appreciation of other engineering disciplines such aerodynamics, aero-acoustics and thermodynamics
Experience using MathWorks Simscape and Stateflow to model physical systems and control logic
Experience using Siemens Teamcenter to manage design and documentation workflows
Understanding of materials science and manufacturing processes
Essential behavioural skills
Excellent team working skills
The ability to work independently with limited direction, whilst maintaining a collaborative, supportive relationship with fellow team members
Excellent time management skills and ability to prioritise tasks
To be able to multi-task and plan effectively when working with a variety of project teams in an often high-pressure, competitive environment in an organised manner
Ability to adapt or generate imaginative and innovative ideas, in line with core Dyson values
Ability to communicate appropriate, concise and accurate information in written and verbal format
Good analytical ability and attention to detail
27 days holiday plus eight statutory bank holidays
Performance related bonus
Free on-site parking
Subsidised café and restaurants
Discounts on Dyson machines
At Dyson, it's about more than our machines. We recognise that our success comes from our inventive people. We believe in including everybody and supporting you on your journey with us
We are following the government guidelines regarding COVID19. At this time all interviews will be conducted via video or telephone. We’re taking these precautionary measures to protect both our employee and candidate wellbeing. Our Talent Acquisition team will work with you and provide further information as appropriate.