Power Electronics Engineer - Senior

Harmattan Ai
Lausanne, Lausanne

Who this role is best for

Best suited to senior power electronics engineers with hands-on R&D experience in motor drives and high-power-density power electronics, working in defense or UAS platforms.

Best fit for

  • Senior engineers who have shipped motor-controller PCBAs from prototype to production.
    — “Proven ownership of at least one motor-controller PCBA shipped from prototype through production
  • Candidates with deep expertise in MOSFET commutation and gate-drive design.
    — “Deep working mastery of MOSFET commutation design
  • Engineers comfortable with end-to-end ownership and rapid iteration.
    — “Comfort with scale-up iteration speed and end-to-end ownership

Things to consider

  • This is a builder role requiring hands-on hardware shipping.
    — “This is a builder role, not a research seat
  • Must be fluent in English; French is optional.
    — “English fluent (working language); French is a nice-to-have

How to stand out

  • Highlight specific examples of EMI/EMC design and debug in past projects.
    — “Strong, hard-earned intuition for EMI / EMC design and debug
  • Showcase experience with GaN/SiC or safety-critical design if applicable.
    — “Bonus points for: GaN / SiC experience, safety-critical design exposure
  • Demonstrate lab-bench discipline and reconciliation with simulation.
    — “Lab-bench discipline: you've personally debugged what simulation missed
Pace · Fast PacedCollaboration · HighAutonomy · HighDecision Impact · TeamLevel · Senior

Derived from job-description analysis by Serendipath's career intelligence engine.

What success looks like

  • design and validate power electronics
  • mentor junior engineers
Typical background
MSc or PhD in Electrical Engineeringhands-on R&D experience

Skills & requirements

Required

Power ElectronicsMotor ControllersDc-dc StagesEmi/emc EngineeringPCB Design

Preferred

Gan/sic ExperienceSafety-critical DesignApplied Control Theory

Stack & domain

Mosfet Commutation DesignGate-driver SelectionDead-time TuningSwitching TransitionsLoss BudgetsSimulation (ltspice, Plecs, Or Simulink)Pcb Design (altium)Emi / Emc Design And DebugLab-bench DisciplineScale-up Iteration SpeedEnd-to-end OwnershipDefenseAutonomous SystemsPower Electronics

About the role

Original posting from Harmattan Ai via Ashby

ABOUT US

Harmattan AI is a next-generation defense prime building autonomous and scalable defense systems. Following the close of a $200M Series B, valuing the company at $1.4 billion, we are expanding our teams and capabilities to deliver mission-critical systems to allied forces.

Our work is guided by clear values: building technologies with real-world impact, pursuing excellence in everything we do, setting ambitious goals, and taking on the hardest technical challenges. We operate in a demanding environment where rigor, ownership, and execution are expected.

About the Role

Power electronics are the bottleneck on every next-generation UAS airframe we build: motor controllers, gate drivers, and DC-DC stages are what define flight time, payload, thermal envelope, and field reliability. We're looking for a senior IC to own the analog power chain end-to-end across our UXV platforms: from MOSFET commutation simulation through PCB layout to lab validation. You will be the technical reference on power electronics inside our Lausanne engineering hub, unblocking propulsion, airframe, and embedded teams in parallel as we scale from prototype cadence to multi-platform deployment.

This is a builder role, not a research seat. You ship hardware.

Responsibilities

  • Power Stage Architecture: Lead motor-controller and DC-DC topology across fixed-wing, multicopter, and hybrid UXV platforms. Translate mission constraints into power-chain specification.
  • MOSFET Commutation & Gate-Drive Design: Own the analog switching design: dead-time tuning, gate shaping, switching-loss vs EMI vs thermal trade-offs.
  • Multi-fidelity Simulation: Deploy the full stack: analytical loss budgeting, transient SPICE (LTspice), system-level modelling in PLECS or Simulink.
  • BLDC Drive Stages: Design three-phase inverters with integrated current sensing, protection, Trapezoidal and FOC-aware hardware interfaces.
  • High-Power-Density PCBA: Lead schematic and layout in Altium or KiCad with thermal, parasitics, and EMC engineered in from the first revision.
  • EMI / EMC Engineering: Drive pre-compliance, filter design, and root-cause debug under flight-representative loads.
  • Prototype-to-Production: Take motor-controller PCBAs through revision discipline, DFM, and qualification - closing the loop on field returns.
  • Lab Validation: Execute bench characterization (power analysers, oscilloscopes, thermal imaging, double-pulse testing) and reconcile against simulation.
  • Firmware & Controls Interface: Partner with embedded and propulsion on FOC tuning, current-sense calibration, and the hardware/firmware compensation boundary.
  • Design Authority & Mentorship: Set the bar via design-decision records and reference designs. Mentor 1–2 junior engineers.

Candidate Requirements

  • MSc or PhD in Electrical Engineering, Power Electronics, or equivalent.
  • 5+ years of hands-on R&D experience on motor drives, BLDC/PMSM controllers, or high-power-density power electronics.
  • Deep working mastery of MOSFET commutation design: gate-driver selection, dead-time tuning, switching transitions, loss budgets.
  • Proven ownership of at least one motor-controller PCBA shipped from prototype through production (or pre-production qualification): ideally on drone, robotics, eVTOL, or automotive platforms.
  • Fluency in simulation (LTspice, PLECS, or Simulink) and PCB design (Altium).
  • Strong, hard-earned intuition for EMI / EMC design and debug.
  • Lab-bench discipline: you've personally debugged what simulation missed.
  • Comfort with scale-up iteration speed and end-to-end ownership.
  • English fluent (working language); French is a nice-to-have, not a requirement.

Bonus points for: GaN / SiC experience, safety-critical design exposure , applied control theory implemented in hardware, exposure to defense, aerospace, or UAS programmes.

We look forward to hearing how you can help shape the future of autonomous defense systems at Harmattan AI.

Source: Harmattan Ai careers (Ashby)

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