Xprt Dev
Power Electronics Engineer – Canning Vale, WA
Join a fast-growing tech team developing cutting-edge software for smart manufacturing! Enjoy flexibility, innovation, and competitive rewards.
Role Overview You will need a strong foundation in power electronics engineering, with proven experience in high‑power electronics design. Proficiency in DFM/DFA/DFS principles, power electronics simulation tools, structured problem‑solving methodologies, experience in fast‑paced innovative environments, along with the ability to balance competing priorities, will set you apart.
Responsibilities
Investigate and resolve assigned power‑related production and field non‑conformances (NCR).
Solve complex power electronics problems using Failure Mode and Effects Analysis (FMEA) etc.
Lead continuous improvement methodologies (NSIS) to optimise power conversion efficiency and thermal management.
Design and develop advanced low and high‑voltage, high‑power electronic systems, including inverters, converters, and power control circuits (1kW – 1MW).
Implement, integrate, test, and debug complex power electronics components and systems.
Select and specify power semiconductors, magnetic devices, capacitors, and power drive circuits for optimal performance and reliability.
Utilise simulation tools such as MATLAB/Simulink, LTSpice, Simplorer, and Maxwell for power/frequency/integrity/thermal assessments.
Design for EMC compliance, ensuring designs meet regulatory standards and certification requirements.
Prototype and test high‑power systems, performing real‑time validation and field trials.
Integrate electrical and electronic commodities within mechanical structures/enclosures.
Experience Required
IGBTs, MOSFETs, rectifier circuits, barrier diodes, magnetics, and power conversion devices.
High‑power electronics, inverter/converter design, and power circuit topologies.
Power electronics simulation tools (MATLAB/Simulink, LTSpice, Simplorer, Maxwell).
DFM/DFA/DFS principles and high‑volume manufacturing.
Circuit design software (e.g., ALTIUM) and CAD tools (e.g. AutoCAD, SolidWorks).
EMC test equipment and firmware development for 32‑bit ARM micro‑controllers (with and without RTOS).
BMS platforms, CANbus communication, and control system integration.
Power systems related documentation for building and site installation of products.
Minimum 3‑5 years of experience in an electronics industry, especially in an R&D and manufacturing environment.
Key Skills
Excellent verbal and written communication skills.
Strong analytical problem‑solving and attention to detail.
Ability to work independently and across multiple disciplines.
Self‑motivated, adaptable, and able to work under pressure.
Qualifications Degree in Electrical & Electronics Engineering, Power Electronics Engineering or equivalent.
Location Canning Vale, WA
Compensation and Schedule A$140,000 – A$150,000 per annum.
Full‑time, On‑site.
How to Apply If you are interested in this role, please send in an updated CV by clicking the APPLY NOW button.
#J-18808-Ljbffr
Role Overview You will need a strong foundation in power electronics engineering, with proven experience in high‑power electronics design. Proficiency in DFM/DFA/DFS principles, power electronics simulation tools, structured problem‑solving methodologies, experience in fast‑paced innovative environments, along with the ability to balance competing priorities, will set you apart.
Responsibilities
Investigate and resolve assigned power‑related production and field non‑conformances (NCR).
Solve complex power electronics problems using Failure Mode and Effects Analysis (FMEA) etc.
Lead continuous improvement methodologies (NSIS) to optimise power conversion efficiency and thermal management.
Design and develop advanced low and high‑voltage, high‑power electronic systems, including inverters, converters, and power control circuits (1kW – 1MW).
Implement, integrate, test, and debug complex power electronics components and systems.
Select and specify power semiconductors, magnetic devices, capacitors, and power drive circuits for optimal performance and reliability.
Utilise simulation tools such as MATLAB/Simulink, LTSpice, Simplorer, and Maxwell for power/frequency/integrity/thermal assessments.
Design for EMC compliance, ensuring designs meet regulatory standards and certification requirements.
Prototype and test high‑power systems, performing real‑time validation and field trials.
Integrate electrical and electronic commodities within mechanical structures/enclosures.
Experience Required
IGBTs, MOSFETs, rectifier circuits, barrier diodes, magnetics, and power conversion devices.
High‑power electronics, inverter/converter design, and power circuit topologies.
Power electronics simulation tools (MATLAB/Simulink, LTSpice, Simplorer, Maxwell).
DFM/DFA/DFS principles and high‑volume manufacturing.
Circuit design software (e.g., ALTIUM) and CAD tools (e.g. AutoCAD, SolidWorks).
EMC test equipment and firmware development for 32‑bit ARM micro‑controllers (with and without RTOS).
BMS platforms, CANbus communication, and control system integration.
Power systems related documentation for building and site installation of products.
Minimum 3‑5 years of experience in an electronics industry, especially in an R&D and manufacturing environment.
Key Skills
Excellent verbal and written communication skills.
Strong analytical problem‑solving and attention to detail.
Ability to work independently and across multiple disciplines.
Self‑motivated, adaptable, and able to work under pressure.
Qualifications Degree in Electrical & Electronics Engineering, Power Electronics Engineering or equivalent.
Location Canning Vale, WA
Compensation and Schedule A$140,000 – A$150,000 per annum.
Full‑time, On‑site.
How to Apply If you are interested in this role, please send in an updated CV by clicking the APPLY NOW button.
#J-18808-Ljbffr