- Take responsibility for the complete electronic design lifecycle, including schematic design, PCB layout, prototyping, verification, and transfer to manufacturing
- Integrate AC/DC and DC/DC power supplies into larger electronic systems, ensuring correct functionality, performance, and compliance
- Define power architectures, including distribution, protection, grounding, and system interfacing
- Integrate and validate analogue control and monitoring signals, including voltage and current setpoints, feedback loops, sensing circuits, and signal conditioning
- Interface with digital control and communication systems for power management, monitoring, and coordination
- Implement and support communication via industry-standard protocols such as PMBus, CANopen, MODbus, and SCPI
- Perform system-level analysis, including efficiency, stability, thermal performance, and fault conditions
- Design schematics and support PCB layout activities, including reviews for signal integrity, EMC, thermal performance, and manufacturability
- Conduct prototype bring-up, system integration, and debugging, including fault finding down to component level
- Plan and support Electromagnetic Compatibility (EMC) testing, including pre-compliance validation and mitigation of issues
- Apply thermal design principles to ensure reliable system operation across operating conditions
- Produce and maintain technical documentation including system specifications, interface definitions, design records, and test procedures
- Support manufacturing introduction, including design for manufacture (DFM), test, and production issue resolution
- Support field issue resolution, including root cause analysis and corrective actions
- Work collaboratively with multidisciplinary teams including mechanical, firmware, systems, and manufacturing engineers
- Quality Management – look for ways to improve and promote quality; demonstrate accuracy and thoroughness.
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