Principal Power Electronics Engineer

Segensworth
3 weeks ago
Applications closed

Related Jobs

View all jobs

Principal Motor Controls Engineer (EV)

Principal Developer in Robotics

Principal Software Engineer

Principal Data Scientist

Principal Data Scientist

Principal Data Scientist

Introduction

Saab UK is part of Scandinavia's largest defence company, bringing together the best of Swedish and British innovation. Saab offers world-leading solutions and services in defence, aviation, space, and civil security to keep people and society safe. Our UK presence has been growing at pace, meaning we can offer a wide range of opportunities for personal fulfilment and career growth. We currently employ over 500 people across eight sites in the UK, and our specialisations include software engineering, underwater robotics, radars, AI, and armed forces training.

As part of the global entity Saab AB, Saab UK combines the innovative spirit of a start-up with the resources and expertise of a larger corporation. Globally, Saab employs over 22,000 people, with operations on every continent. Our partnerships with UK customers and industry mean we are able to deliver innovative solutions to complex challenges, anticipating the threats of tomorrow. We invest 23% of our annual revenue into research and development, collaborating with a range of partners including industry and academia.

Saab is a company that offers our employees plenty of opportunities for growth and advancement. We embrace diversity and are committed to providing a workplace where individuals can thrive professionally, paving the way for future progression. We also recognise the need for a healthy work-life balance to ensure our staff have the chance to live a fulfilling life beyond the workplace.

The Role

This is a very exciting opportunity for a motivated and experienced individual to thrive in a fast-paced and innovative environment. The engineer will be confident in their abilities to research and identify cutting-edge solutions for novel and challenging problems, whilst taking pride in their attention to detail and design integrity.

The role seeks an engineer with a good understanding of powertrain architectures, power distribution systems, and experience with the design and test of various power supply topologies. Familiarity in the field of wide-bandgap semiconductors like Silicon Carbide (SiC) and Gallium Nitride (GaN) is desired but not essential.

All of our engineers from time to time are required to manage projects, the successful candidate will therefore show an aptitude for directing and coordinating project activities and have strong communication/interpersonal skills for working across all departments within the organisation.

Essentials:

Create new electronics designs from first principle, through the development lifecycle to production release
Power supply design AD-DC, DC-DC, Inversion
Experience with one or more of the following topologies: Phase-Shift Full-Bridge, Resonant LLC Half/Full-Bridge, Flyback, Buck/Boost, 3-Phase Inverter (up to 100kW)
General knowledge of power switching devices - MOSFETs, Si-IGBT (Wide-Bandgap desired)
Experience with the design and optimisation of gate-drive circuitry
High Frequency Transformer and Magnetics design
A good understanding of thermal management techniques for through-hole and surface mount devices
The ability to use modelling and simulation to facilitate design and prototyping
Good knowledge in both digital and analogue design concepts
Design for LVD/EMC Compliance
Development of requirements specifications and test procedures
System level integration and testing
Experience of filter design and implementationDesirables:

High Voltage Experience up to 5kV
Thermal modelling experience
Motor design and control (BLDC, PMSM, Induction, Axial/Radial Flux)
Embedded, FPGA, CPLD
Serial Comms Protocol: Ethernet, SPI, I2C, CAN, CAN-FD

General accountabilities and responsibilities:

To use personal judgement and initiative to develop effective and constructive solutions to challenges and obstacles in day to day activities and procedures within the specified role.
To maintain personal ability in, and appropriate use of, all relevant IT (Information & Technology) and other systems required to adequately perform the role.
To act ethically, with integrity and in the best interest of the business at all times.
To maintain a professional and supportive relationship with team members and other departments in order to deliver business and delivery objectives or deadlines.
To carry out any other duties as detailed by your Supervisor or Manager from time to time.
To keep good time management to minimise any wasted time and maximise productivity and effectiveness.

Quality, health, safety and environment (QHSE)

Cooperate with the company to achieve a healthy, safe and sustainable working environment.
Work in ways that ensure your own safety and that of others; "Do the right thing even when no one is looking."
Report any incidents, near misses or other health, safety and environmental concerns.
Deliver all products and services in line with Saab Seaeye quality standards to ensure we meet our customer requirements and highlight any quality concerns or potential improvements

Get the latest insights and jobs direct. Sign up for our newsletter.

By subscribing you agree to our privacy policy and terms of service.

Industry Insights

Discover insightful articles, industry insights, expert tips, and curated resources.

Rural-Remote Robotics Jobs: Innovating Beyond the City Limits

A Fresh Outlook for Robotics Professionals When people think of robotics, they often picture cutting-edge labs in large tech hubs, vast manufacturing floors near industrial centres, or start-ups clustered around major cities. However, the rapid evolution of remote and distributed work—in tandem with advancements like edge computing, cloud-based simulation tools, and improved connectivity—means that more and more robotics professionals are finding they can live outside the urban sprawl. At RoboticsJobs.co.uk, we’re witnessing a surge of jobseekers and employers embracing rural or coastal settings. Why the shift? Robotics projects, once inseparable from big-city infrastructure, now often rely on digital collaboration tools, cloud-based design simulations, and remotely accessed testing platforms. In other words, location constraints are loosening. This article delves into the rise of rural-remote robotics jobs, the advantages of leaving the metropolis behind, and how you can carve out a successful robotics career while enjoying the perks of countryside or coastal living. If you’ve ever typed “tech jobs by the sea” or “robotics remote countryside” into a search engine, you’re not alone—and this guide is for you.

Quantum-Enhanced AI in Robotics—Redefining Automation and Intelligence

Robots have already reshaped our world—performing tasks more accurately, handling dangerous environments, and boosting productivity across manufacturing, logistics, and beyond. However, as our expectations of robots escalate—think autonomous factories, surgical robots, and companion devices—existing computational methods can struggle with the complexity of real-world scenarios. Robots must navigate chaotic environments, interpret massive sensor data streams, and make split-second decisions, all while adapting to never-ending novelty. Enter quantum computing, a radical technology that leverages quantum mechanics to process information in ways classical computers cannot match. By pairing quantum hardware with Artificial Intelligence (AI)—particularly machine learning—engineers and scientists see vast potential for overcoming bottlenecks in robotics. This fusion, often termed quantum-enhanced AI, promises new approaches to real-time decision-making, advanced optimisation, and high-dimensional sensor fusion that could catapult robotics into uncharted territories of capability. In this article, we will: Examine current challenges in robotics—from sensor data overload to complex control loops—and why classical methods alone might fall short. Provide an accessible introduction to quantum computing, highlighting its unique principles and potential strengths. Explore how quantum-enhanced AI can elevate robotics applications—covering real-world use cases like autonomous vehicles, manufacturing, and humanoid robots. Discuss the main obstacles (like hardware maturity, cost, and integration complexities) and how the industry might overcome them. Highlight emerging career roles and skill sets you can develop to stay at the cutting edge of robotics jobs in a quantum world. Whether you’re a seasoned robotics engineer, a machine learning professional looking to expand your horizons, or simply curious about future tech, read on. Quantum computing could shift the boundaries of what robots can achieve, heralding a new era of intelligent machines capable of tackling tasks we can only dream of today.

Robotics Jobs at Newly Funded UK Start-ups: Q3 2025 Investment Tracker

Robotics is swiftly transforming global industries—from manufacturing and agriculture to healthcare and logistics—by enhancing productivity, precision, and safety. In the United Kingdom, a long-standing engineering tradition, robust research ecosystem, and vibrant start-up culture have propelled robotics innovations to the forefront of tech development. This Q3 2025 Investment Tracker delves into newly funded robotics start-ups in the UK, spotlighting their missions, recent investments, and the roles they’re opening up for robotics professionals. We’ll also demonstrate how job seekers can leverage these developments to secure high-impact roles via RoboticsJobs.co.uk, a dedicated platform for robotics professionals. Whether you’re a mechanical engineer, a software developer, a control systems expert, or an operations manager with a passion for robotics, read on to uncover the latest trends and next-wave opportunities in the UK’s thriving robotics landscape.