Senior Power Electronics Control Engineer

Amperesand • Singapore • 3h ago

Role Summary

As our Senior Power Electronics Control Engineer you will focus on control and system behavior of advanced power converters, including AC-DC and DC-DC topologies, used across low-voltage and medium-voltage power conversion systems. The role emphasizes multilevel power converter architectures and resonant power conversions used in solid-state transformers (SST). You will work hands-on across control design, modeling, analysis, laboratory debugging, and validation, and collaborate closely with hardware, firmware, and system engineers to bring robust power electronics solutions from concept through validation.

Responsibilities:

Design and implement digital control algorithms for advanced AC-DC and DC-DC power converters across low- and medium-voltage applications.
Develop small-signal and large-signal models to support stability analysis, loop compensation, and transient optimization.
Support development of control strategies for advanced power conversion stages, including multilevel or resonant topologies and AC-DC / DC-DC stage interactions.
Implement real-time control algorithms on DSP/MCU/SoC platforms.
Lead hands-on debugging and root-cause analysis across simulation, firmware integration, hardware bring-up, and lab testing.
Collaborate with hardware and firmware teams to optimize sensing, protection, and control-loop performance.
Support validation activities including loop stability measurement, transient response testing, and fault handling verification.
Own complex control subsystems and contribute to system-level design under technical leadership.

Qualifications:

Technical degree or equivalent industry experience in Electrical Engineering or a closely related field, with a strong focus on power electronics and control systems.
3+ years of experience designing and deploying digital control for power converters, with demonstrated ability to own and execute complex technical tasks.
Strong understanding of resonant power conversion principles and their control implications across isolated and non-isolated power converter architectures.
Solid foundation in control theory, including loop compensation, stability margins, frequency-domain and time-domain analysis, and nonlinear system behavior.
Proven experience implementing real-time control algorithms on embedded platforms.
Hands-on laboratory experience debugging power converters.
Ability to translate theoretical control concepts into practical, robust implementations.
Strong problem-solving and analytical skills, with the ability to work through technically ambiguous challenges.
Familiarity with modeling and simulation tools such as MATLAB/Simulink and PLECS.
Proficiency in embedded C for real-time control implementation and debugging.