Sr. Electrical Engineer

Overview

Aerospace is at a turning point — costs are rising, supply chains are strained, and old ways of building can’t keep up. At Neon Aero, we’re breaking that mold. We move fast, think big, and combine start-up agility with aerospace expertise to design, build, and scale aircraft in ways the industry has never seen. Our team leverages automation, AI-driven tools, and a fully connected digital backbone to accelerate innovation and reduce barriers to production.

Here, you won’t just take a job — you’ll help reinvent how the world flies. If you’re ready to solve complex problems, push technology further, and work alongside some of the brightest minds in aerospace, this is your chance to make a real impact.

You’ll lead the design and integration of complex electrical and electromechanical systems that power next-generation products—spanning actuator drives, power electronics, avionics communication, energy management, and other high-performance technologies.

This is a hands-on, highly collaborative role for an engineer who thrives at the intersection of architecture and execution—someone who can translate requirements into robust, manufacturable, certifiable hardware and drive it from concept to production release and shipment. Your work will support demanding systems across aerospace, transportation, robotics, and advanced mobility.

Why This Role Matters: You’ll be a technical anchor for production-intent electrical hardware—helping teams move faster without sacrificing reliability, safety, or manufacturability.

Key contributions include:

• Lead system architecture and integration across complex, multi-domain programs.
• Own electrical subsystems end-to-end—from concept, through validation, to production release.
• Design and develop power electronics, embedded digital, and mixed-signal hardware using industry-standard ECAD tools (Altium, Cadence, or equivalent).
• Drive DFM/DFT/DFC/DFA/Cost decisions early, ensuring designs scale cleanly into manufacturing.
• Create robust schematics and guide PCB layout, with strong signal integrity and EMI/EMC discipline, and produce production-ready documentation.
• Architect and implement communication bus physical layers (CAN and other aviation buses) for fault-tolerant, certifiable avionics data communication.
• Partner with suppliers and contract manufacturers to support prototype builds, first-article inspections, and production ramp.
• Define validation and test strategy, including ICT, boundary scan, functional test coverage, ESS, and production yield metrics.
• Support lab bring-up and integration, troubleshooting issues, running root-cause investigations, and iterating designs quickly.
• Perform electrical analysis (SPICE simulation, power-stage evaluation, signal integrity, thermal interaction with mechanical systems, EMI mitigation).
• Participate in design reviews to ensure system-level performance, safety, reliability, manufacturability, and cost targets are met.
• Get hands-on during board bring-up, system integration, and hardware testing.

• Minimum of 8 years of experience in developing and shipping complex electronic hardware.
• Bachelor’s or Master’s Degree in Electrical Engineering or a related field preferred; relevant professional experience may be accepted in lieu of a degree
• Strong proficiency with Altium (or comparable ECAD tools).
• Deep understanding of schematic capture, PCB layout practices, stack-up definition, grounding strategy, EMI/EMC mitigation, and production-level release documentation.
• Demonstrated experience taking electronic assemblies into production and shipping hardware.
• Experience across multiple hardware domains, such as:
  • Power electronics and motor drives
  • Embedded digital and microcontroller-based systems
  • Sensor interfacing and mixed-signal design
  • Communication bus physical layers (CAN, RS-485, ARINC, or similar)
• Experience working directly with suppliers/CMs to industrialize boards and resolve yield, test coverage, tolerance, and quality issues.
• Solid understanding of manufacturing test strategies (ICT, functional test development, fixture design, environmental qualification, SPC).
• Strong cross-functional communication and…