Enphase Energy Careers

Description

Enphase Energy is a global energy technology company and leading provider of solar, battery, and electric vehicle charging products. Founded in 2006, Enphase transformed the solar industry with our revolutionary microinverter technology, which turns sunlight into a safe, reliable, resilient, and scalable source of energy to power our lives. Today, the Enphase Energy System helps people make, use, save, and sell their own power. Enphase is also one of the fastest growing and innovative clean energy companies in the world, with approximately 80 million products installed across more than 160 countries.  
 
We are building teams that are designing, developing, and manufacturing next-generation energy technologies and our work environment is fast-paced, fun and full of exciting new projects.  

Must be available to work on-site at our Bangalore office 5 days per week.

About the role:

As Principal Engineer, Inverter Systems - BESS, you will own end-to-end development of the inverter — hardware, firmware, and mechanical — for MW/MWh-scale utility Battery Energy Storage Systems (BESS) serving data centers, spanning outdoor cabinets and containerized platforms. You'll integrate closely with cooling systems, safety systems, and site controls.

This role requires deep, hands-on expertise in inverter system design, thermal management, advanced simulation, and BESS safety compliance. You will lead a team of power electronics, embedded firmware/controls, and mechanical engineers, working closely with global development teams across thermal, site controls, sensor/safety, and manufacturing to deliver products that meet performance, reliability, manufacturability, serviceability, and compliance targets — while optimizing BOM cost, CAPEX, and long-term OPEX. You will guide designs from concept through production deployment.

What will you do: 

• Own the full product lifecycle for power electronic converters, from concept through new products and variants.
• Partner with cross-functional teams across system integration, test automation, and thermal engineering.
• Specify, design, verify, and debug complex circuits across multiple inverter topologies.
• Generate high-value ideas and translate them into platform-level designs.
• Support system architecture decisions, cost-reduction proposals, and root-cause failure analysis.
• Engage with internal technical communities and contribute to cross-team knowledge sharing.
• Mentor and grow engineers on the team; provide technical guidance to PCB layout and compliance engineers.
• Lead efforts to meet grid code requirements and certifications (UL and IEC) for BESS applications supplying data centers.
• Define engineering requirements, develop test plans, and deliver proofs of concept (POCs).
• Champion technical excellence, rigorous documentation, and scientific discipline across the team.
• Serve as a subject matter expert for current and next-generation platforms.

Who You Are and What You Will Bring:

• B.E. in Electrical Engineering with 15+ years of relevant industry experience, or a Master's degree in Electrical Engineering with 13+ years of relevant industry experience.
• Proven track record taking high-power, high-voltage power electronics solutions from concept to market launch in commercial/industrial settings.
• Experience developing device models for IGBTs, MOSFETs, and diodes, with accurate loss estimation using simulation tools.
• Expertise in magnetic design and optimization, balancing cost and performance across product applications.
• Proficiency in tolerance analysis, worst-case analysis (WCA), DPPM, DFMEA/AFMEA, and root-cause analysis for field failures.
• Strong knowledge of circuit schematics, multi-layer PCB layout, EMI mitigation, and related simulation tools.
• Working knowledge of inverter standards such as UL1741 and IEC 62109.
• Hands-on experience with simulation tools such as LTspice, MATLAB/Simulink, and PLECS.
• Experience with product lifecycle management (PLM) tools such as Arena or Agile for ECO, DEV, and ECR releases and Bill of Materials (BOM) management.
• Demonstrated power electronics hardware design, troubleshooting, and problem-solving skills.
• Hands-on experience with Python and embedded software for inverter controls development, within a test automation environment.
• Strong system-level understanding of PCS architectures, battery rooms, DC- vs. AC-coupled systems, and thermal coordination with BMS, site energy management systems, and PCS derating logic.
• Demonstrated technical leadership: leading programs, influencing architecture decisions, and mentoring senior and staff-level engineers.
• Power electronics circuits, power supply, and inverter topologies.
• End-to-end electronics design and development for high-volume manufacturing.
• Field quality improvement and cost reduction through Value Analysis/Value Engineering (VAVE).
• Resonant converter topologies, control techniques, and GaN devices.