DUTIES AND RESPONSIBILITIES
Define electrical power system architecture, and derive power subsystem requirements
Design DC-DC power converters, power conditioning, power management and control circuits from concept to production release
Perform detailed design for low to high complexity analog and power electronics circuits ranging from single DC-DC power converters to multi-output power supply modules
Perform modeling and analysis of analog and power electronics designs including worst-case circuit analysis (WCA), stress analysis, small signal modeling analysis, failure modes and effects analysis (FMEA), reliability analysis, and power integrity analysis
Develop design verification test plans, requirement compliance matrices, system integration and qualification test plans, and production acceptance test plans for power converters and power supply designs
Lead board bring-up and design verification testing of power electronics circuits and modules
Lead system integration, qualification campaigns, and release of analog and power electronics designs into production
Mentor younger engineers and foster knowledge sharing
Perform research and monitor power electronics industry trends to drive innovation and generate intellectual property in this area
REQUIREMENTS AND MINIMUM QUALIFICATIONS
Bachelor of Science (BS) degree or higher in Electrical Engineering (or related) from an accredited university
Minimum of 6 years of experience designing analog and power electronics
Experience working with electrical power systems and subsystems, including developing power architecture and power requirements, performing trade studies for size, weight, power, and cost optimization (SWAP-C), selecting power converter topologies, and defining power management and control blocks
Experience with power stage design of common DC-DC power converter topologies (e.g. discrete linear regulators, Buck, Boost, Buck-boost, Flyback, Forward)
Experience with voltage mode control and peak current mode control modeling and characterization for DC-DC converters
Knowledge of control theory and stability of power electronics, including experience characterizing control loops and impedances in the laboratory
Experience designing power filters for low noise outputs and for power line electromagnetic compatibility (EMC)
Experience developing design verification test plans, requirement compliance matrices, system integration and qualification test plans, and production acceptance test plans
Experience performing worst-case circuit analysis (WCA), stress analysis, failure modes and effects analysis (FMEA), and reliability analysis for power supplies
Extensive hands-on experience with testing and troubleshooting electronics and power converters using laboratory instruments such as oscilloscopes, impedance analyzers, spectrum analyzers, electronic loads, and signal generators
Experience with electronics schematic capture and printed circuit board (PCB) layout tools such as Altium, OrCAD, Allegro or Xpedition
Experience with analysis and simulation tools such as SPICE, LTSPICE, SIMetrix/SIMPLIS, PLECS, Simulink, MATLAB, MathCAD, ANSYS Q3D and SiWave, or HyperLynx
Excellent written and verbal communication skills
PREFERRED EXPERIENCE
Master of Science or PhD in Electrical Engineering with research focus in power electronics
Experience designing high-reliability analog and power electronics for automotive, space or defense applications
Knowledge of space radiation environments and radiation effects in electronics
Experience in power electronics applications utilizing GaN or SiC wide bandgap power semiconductor devices
Experience running board-level power integrity simulation using tools such as Ansys SiWave, or HyperLynx
Experience designing custom signal and power magnetics, and power filters for low noise and electromagnetic compatibility (EMC)
Knowledge of soft switching and resonant power converter topologies (e.g. LLC, CLLC, series resonant, phase shifted full bridge, dual active bridge, etc.)
Knowledge of power stage design for inverters and motor drives
Knowledge of modeling and control of inverters and motor drives
Experience with advanced control schemes for DC-DC power converters (e.g. voltage mode with feedforward control, constant on-time control, V2 constant on-time control, phase shift modulation, average current mode control)
Experience with isolation and grounding, failure mode effects analysis and fault tolerant design, and thermal management of power electronics
Programming skills to support hardware test and data processing (Python, MATLAB, etc.)
Skills Required
- Bachelor of Science in Electrical Engineering or related
- Minimum of 6 years experience designing analog and power electronics
- Experience developing power architecture and requirements, and performing SWAP-C trade studies
- Experience with power stage design of DC-DC converter topologies (linear regulators, Buck, Boost, Buck-boost, Flyback, Forward)
- Experience with voltage mode control and peak current mode control modeling and characterization for DC-DC converters
- Knowledge of control theory and stability; characterizing control loops and impedances in the laboratory
- Experience designing power filters for low noise outputs and power line EMC
- Experience developing design verification test plans, requirement compliance matrices, system integration and qualification test plans, and production acceptance test plans
- Experience performing worst-case circuit analysis (WCA), stress analysis, FMEA, and reliability analysis for power supplies
- Extensive hands-on experience with testing and troubleshooting using oscilloscopes, impedance analyzers, spectrum analyzers, electronic loads, and signal generators
- Experience with schematic capture and PCB layout tools such as Altium, OrCAD, Allegro or Xpedition
- Experience with analysis and simulation tools such as SPICE, LTSpice, SIMetrix/SIMPLIS, PLECS, Simulink, MATLAB, MathCAD, ANSYS Q3D/SiWave, or HyperLynx
- Excellent written and verbal communication skills
- Master of Science or PhD in Electrical Engineering with power electronics research focus
- Experience designing high-reliability analog and power electronics for automotive, space, or defense applications
- Knowledge of space radiation environments and radiation effects in electronics
- Experience with GaN or SiC wide bandgap power semiconductor devices
- Experience running board-level power integrity simulation using Ansys SiWave or HyperLynx
- Experience designing custom signal and power magnetics and power filters for low noise and EMC
- Knowledge of soft switching and resonant converter topologies (LLC, CLLC, series resonant, phase-shifted full bridge, dual active bridge)
- Knowledge of power stage design, modeling, and control for inverters and motor drives
- Experience with advanced control schemes for DC-DC converters (feedforward, constant on-time, phase shift, average current mode, etc.)
- Experience with isolation and grounding, fault tolerant design, failure mode effects analysis, and thermal management of power electronics
- Programming skills to support hardware test and data processing (Python, MATLAB, etc.)
CesiumAstro Compensation & Benefits Highlights
The following summarizes recurring compensation and benefits themes identified from responses generated by popular LLMs to common candidate questions about CesiumAstro and has not been reviewed or approved by CesiumAstro.
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Healthcare Strength — Health coverage includes medical, dental, vision, life and disability insurance, plus FSAs and mental health benefits. Feedback suggests the health package is comprehensive for a growth-stage aerospace firm.
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Retirement Support — Offerings include a 401(k) with company matching and other retirement-plan elements. Feedback suggests core retirement mechanisms are in place alongside standard financial benefits.
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Leave & Time Off Breadth — Generous PTO, paid holidays, paid sick days, and bereavement leave are included. Feedback suggests time-off options are broad on paper across multiple leave types.
CesiumAstro Insights
What We Do
We build high-throughput, plug-and-play phased array communication payloads for space and airborne platforms. CesiumAstro’s full-stack, multi-mission hardware and software products enable a diverse range of commercial and defense objectives. Full-system engineering design is at the heart of every CesiumAstro product. We deliver high-performance solutions under rapid development timelines.
Why Work With Us
At CesiumAstro, we’re a team. We’re passionate, respectful, and determined colleagues ready to help at a moment’s notice. We’re mentors excited to enable our peers with the knowledge they need to succeed. Together, we’re visionaries committing to building memories that will last a lifetime.
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