About the Role
We are looking for a skilled Power Electronics Engineer to join our hardware development team with a focus on the design, prototyping, and validation of high-efficiency battery charger systems. You will be responsible for architecting robust power conversion topologies, selecting components, and ensuring regulatory compliance for chargers integrated into our next-generation battery-powered products.
You will work closely with embedded firmware developers, battery management system engineers, and product teams to deliver reliable and scalable charger solutions for mass production.
Responsibilities:
- Design, simulate, and validate AC-DC and DC-DC power conversion topologies (e.g., flyback, LLC, buck, boost, PFC).
- Develop and optimize battery charging circuits for lithium-based chemistries and across various voltage and current ranges.
- Select power components (MOSFETs, IGBTs, magnetics, capacitors, gate drivers) based on efficiency, thermal performance, and cost trade-offs.
- Demonstrated experience with GaN or SiC power semiconductors in charger or power supply development.
- Lead schematic design, PCB layout reviews, and component derating for charger hardware.
- Collaborate with firmware engineers on real-time control loops , current limiting, fault detection, and thermal management strategies.
- Conduct laboratory validation, stress testing, and design-for-manufacturability (DFM) reviews.
- Ensure compliance with EMI/EMC, safety , and regulatory standards (UL, IEC, ISO).
- Support integration of charging systems with Battery Management Systems (BMS) and overall product architecture.
Must-Haves:
- Bachelor’s or Master’s degree in Electrical Engineering or a related field.
- 3+ years of experience in power electronics design , with a focus on battery charger , power supply development or inverter design
- Strong proficiency in simulation tools (e.g., LTspice, PLECS, MATLAB/Simulink ).
- Hands-on experience with switch-mode power supplies (SMPS) and digital/analog control of converters.
- Familiarity with thermal design , PCB layout best practices , and power stage protection circuits .
- Experience with lab equipment including oscilloscopes, power analyzers, electronic loads, and thermal chambers.
Nice-to-Haves:
- Experience in systems over 60V and multi-kW charger design.
- Background in EV charging , robotics , drones , or industrial energy systems .
- Knowledge of functional safety , isolation requirements , and fail-safe system design .
- Exposure to firmware-controlled digital power systems (DSPs, microcontrollers, FPGAs).
- Experience with design for EMC and compliance testing .
We encourage you to apply even if you do not meet every single qualification.
Location Policy
We believe the best work is done when collaborating and therefore require in-person presence in our office locations.
We're excited to get to know you and the prospects of having you on board!