Lead design and development of power electronics for EV chargers.
-Define technical roadmaps aligned with product strategy and evolving industry standards (e.g., ISO 15118, OCPP, CCS, CHAdeMO) -Evaluate and select key components such as power semiconductors (SiC, GaN), magnetics, and cooling systems -Support testing and debug as required -Lead design reviews and trade studies as needed -Ensure compliance with applicable regulatory and safety standards (e.g., UL, IEC, SAE) -Hire, coach, develop, and motivate direct reports to accomplish team goals -Lead and own the architecture, design, and development of power electronics systems for EV chargers, including AC-DC and DC-DC conversion stages -Oversee the full product development lifecycle – from concept through design, validation, and manufacturing -Collaborate with software, mechanical, and manufacturing teams to deliver high-quality, cost-effective, and reliable solutions to production -Develop partnerships with suppliers, contract manufacturers, and technology providers -Assist in developing factory test approaches for the power electronics components of our systems
-Experience developing hardware for power electronics, including topology selection, switching device selection, magnetics design and sensing network design -PhD in Electrical Engineering or related field -Proven track record in delivering commercial power electronics products – preferably in the EV charging, automotive, or renewable energy sectors -15+ years of experience in power electronics design and development, with at least 3 years in a leadership role -Strong project management, team building, and communication skills -Master’s degree in Electrical Engineering or related field -Experience with wide-bandgap semiconductors (SiC/GaN) and digital control (e.g., DSPs, FPGAs, or microcontrollers) -Familiarity with grid integration, bidirectional power flow, and energy management systems -Design experience in the automotive industry (OEM or Tier 1) -Experience with ECAD tools including schematic capture and PCB layout (Altium, Cadence, Mentor, Zuken) -Experience developing digital control systems for grid tied inverters, rectifiers, and DC/DC converters using microcontroller platforms -Familiar with coding/scripting language such as Python and C, or equivalent -Deep understanding of high-power topologies (e.g., resonant converters, interleaved PFC, LLC, multi-phase DC-DC) -Experience with problem solving processes used in automotive (e.g. 7-step, 8D, 5-why) -Demonstrated experience of applying advanced simulation techniques in developing power electronics and control loop design
-Began with a spark: smart home energy tools that empower homeowners to take control. -Grown into a full ecosystem—monitoring panels, controlling appliances, charging EVs and backing up power during outages. -Award-winning products include the Vue energy monitor, smart plugs, Level 2 EV chargers (Classic and Pro), and home batteries. -Powered by strategic partnerships (like Treehouse and ev.energy), they’ve streamlined EV charger installation and utility program access. -Typical projects range from helping homeowners slash bills and detect faulty meters to integrating solar and smart charging routines. -Consistently earn consumer trust, earning a spot among Newsweek’s top home and garden brands for smart energy devices.
Energy
Residential
Commercial
Utilities
Buildings
-new employees must successfully complete a background check.
