Principal Systems Engineer

About The Position

Requirements

• Bachelor’s degree (or foreign equivalent) in Bioengineering, Mechanical Engineering, Electrical Engineering, Software Engineering, or related technical field and 5 years of experience in systems engineering, system architecture design and control system design, and/or related field, preferably in medical devices or MS degree (or foreign equivalent) in Bioengineering, Mechanical Engineering, Electrical Engineering, Software Engineering, or related technical field and 2 years of experience in systems engineering, system architecture design and control system design, and/or related field, preferably in medical devices.
• Expert knowledge on medical device regulations and standards, including FDA QSR, ISO 13485, ISO 60601, ISO 14971, providing guidance on interpretation and implementation to ensure compliance.
• Proven experience and mastery in conducting thorough analysis and evaluation of technical requirements, feasibility, and risks; and developing comprehensive engineering solutions and mitigation strategies for new product development.
• Experience reviewing FDA regulatory submissions for medical devices
• Proficiency in one or multiple scripting languages (such as MATLAB, Fortran, C++, Python, etc.)
• Hands-on experience with testing with embedded systems, sensors, actuators, and hardware-software integration (including but not limited to flow and pressure sensors, pumps, motors, valves, etc.)
• Proficiency in using test equipment such as oscilloscopes, multimeters, spectrum analyzers, and logic analyzers.
• Working knowledge of various communication protocols: I2C, SPI, UART, CANBUS, and Ethernet.
• Proficiency in control system development tools such as MATLAB, Simulink, or LabVIEW, or similar for automated testing environment design
• Proficiency in algorithm development for control systems and alarms
• Experience in performing system and subsystem-level characterization of electro-mechanical systems for designing control algorithms to meet system-level requirements.
• Experience with risk management processes and developing risk management documentation (such as DFMEAs, System Hazard Analysis, etc.)
• Exceptional problem-solving skills and the ability to conceptualize and develop innovative engineering solutions to investigate and solve complex technical challenges and mitigate system risks.

Responsibilities

• Responsible for coordinating with functional and cross functional team members to ensure project milestones are achieved.
• Lead the development of control algorithms, signal processing, and system modeling for medical devices, ensuring precise, reliable, and safe operation.
• Develop control systems for key device functions (PID controllers) to ensure system stability and performance.
• Responsible for leading integrated control systems with embedded hardware and software, ensuring seamless interaction between electronic components, sensors, and actuators.
• Responsible for strategizing and development of integration test plans to ensure product requirements specifications are met. Coordinate integration testing activities with internal teams and external partners to ensure V&V testing deliverables are met.
• Oversee and conduct a wide range of tests, including functional, performance, reliability, and environmental tests on complex medical device systems (e.g. 60601-1, 60601-1-2, HALT).
• Lead investigations into complex technical issues or failures related to hardware/software sub-components. Apply advanced problem-solving techniques, such as root cause analysis (RCA) and failure mode and effects analysis (FMEA), to identify underlying causes and implement robust corrective actions.
• Diagnose and troubleshoot complex hardware issues, working collaboratively with cross-functional teams to implement solutions.
• Utilize tools such as MATLAB, Simulink, or LabVIEW to model and optimize control systems, verifying algorithms before deployment in physical systems.
• Share knowledge, best practices, and lessons learned from previous experiences to cultivate a culture of learning and excellence within the engineering team.