What You'll Do- Lead Programs & Architecture: Oversee power electronics and power conversion programs from concept through production. You will guide the development of motor controllers, DC-DC converters, AC-DC rectifiers, and smart power distribution systems for defense platforms.
- Project Management: Create, maintain, and communicate detailed product development schedules to ensure all assigned team members are aligned on tasks, hardware spins, and testing deadlines.
- System Design: Design high-reliability, efficient, power-dense, thermally optimized, and fault-tolerant power system architectures. Collaborate with cross-functional teams to define vehicle power requirements and write design verification test plans.
- HIL & System Verification: Verify power system performance, efficiency, thermal margins, transient responses, and protection features (over-voltage, over-current, short-circuit) on hardware-in-the-loop (HIL) setups or flight-representative systems.
- Hardware Evaluation: Utilize advanced evaluation methodologies, including automated efficiency mapping, thermal imaging, power quality testing, and dynamic load profiling.
- Full-Cycle PCB & LRU Design: Drive high-power PCB and Line Replaceable Unit (LRU) design. This includes requirements gathering, schematic design, component selection (wide-bandgap semiconductors like SiC/GaN, custom magnetics, bulk capacitors), gate driver design, layout supervision (optimizing for parasitic inductance and EMI), bring-up, and system integration.
- Cabling & Interconnects: Develop power distribution interconnect diagrams and define high-voltage/high-current cabling, shielding, connectors, and busbars connecting energy sources to power electronics and payloads.
- Supply Chain & Vendor Collaboration: Manage successful fabrication, assembly, and BOMs for power hardware, collaborating closely with custom magnetic, power semiconductor, connector, and thermal management vendors.
- Vendor Relations: Maintain familiarity with aerospace/automotive-grade power electronics component suppliers and manufacturers.
- Platform Integration: Integrate power electronics (e.g., electronic speed controllers, battery management systems, power conditioning units) into UAVs, UGVs, or maritime systems.
- Firmware Support: Support software and firmware teams in developing digital control loops (DSP/MCU-based converter control), state-machine logic, telemetry reporting, and power-up sequences.
- Trade-Off Studies: Represent the power subsystem in platform-level, cross-disciplinary trade-off studies (such as SWaP-C, voltage level selection, and thermal dissipation architectures) to optimize overall vehicle performance and range.
Required Qualifications- Education: Bachelor's Degree in Electrical Engineering, Power Electronics, or equivalent.
- Experience: 7+ years of experience designing, testing, and troubleshooting complex power electronics circuits, switching power supplies (buck, boost, flyback, resonant topologies), and motor drives in a high-reliability aerospace, defense, or electric vehicle (EV) context.
- Standards Expertise: Deep understanding of power quality and EMI standards, specifically MIL-STD-704 (aircraft electrical power characteristics) and MIL-STD-461 (requirements for the control of electromagnetic interference).
- Test Equipment Proficiency: Competence with high-power test equipment such as high-voltage power supplies, electronic loads, power analyzers, differential probes, thermal chambers, and test automation.
- EMI Mitigation: Practical experience in design for EMI mitigation, low-parasitic layouts, gate drive optimization, and high-frequency switching performance.
- Communication Interfaces: Familiarity with standard interfaces used in power systems (CAN, PMBus, I2C, SPI, RS-485).
- Digital Control: Familiarity with DSPs, microcontrollers, or FPGAs commonly used for digital control of power supplies (e.g., TI C2000, STM32).
- EDA Tools: Proficiency with Altium Designer or equivalent electronic design automation (EDA) design tools.
- Simulation Software: Experience with power simulation tools such as PLECS, LTspice, MATLAB/Simulink, or Simplis.
- Software/Coding: Knowledgeable in Python (for test automation) and C/C++ (for firmware understanding/debugging).
- Security Clearance: Must be able to obtain and hold a U.S. Top Secret security clearance.
Preferred Qualifications- Advanced Education: Master's or Ph.D. in Electrical Engineering with a concentration in Power Electronics.
- Advanced Tech & Safety: Experience with wide-bandgap (SiC, GaN) semiconductor technology, high-voltage safety design practices (touch-safe standards, creepage/clearance), and thermal management of high-power-density systems.
- Aerospace & Environmental Standards:
- Familiarity with DO-160 (specifically Section 16 for Power Input and Section 21 for RF Emissions).
- Familiarity with DO-254 and DO-311A (for rechargeable lithium battery systems).
- Familiarity with MIL-STD-810 (environmental engineering considerations).
US Salary Range
$191,000-$253,000 USD
The salary range for this role is an estimate based on a wide range of compensation factors, inclusive of base salary only. Actual salary offer may vary based on (but not limited to) work experience, education and/or training, critical skills, and/or business considerations. Highly competitive equity grants are included in the majority of full time offers; and are considered part of Anduril's total compensation package. Additionally, Anduril offers top-tier benefits for full-time employees, including:
BenefitsAt Anduril, we invest in our people. Our comprehensive, competitive benefits package (available at little to no cost to employees) ensures you're supported in health, recovery, and whatever comes next. For more information, Explore Our Benefits.