Design and develop High Frequency High Voltage Generators used in X-ray generation applications.
Collaborate with hardware and software engineering teams to develop electrical designs for X-ray Generators and Power Distribution Units.
Understand product requirements and perform analysis, calculations, simulations, and design evaluations for power electronics solutions.
Independently develop and deliver electrical designs, while leading design enhancements, engineering changes, and value engineering initiatives for X-ray generators.
Own assigned projects and work closely with cross-functional teams to deliver program milestones while complying with the GE HealthCare Quality Management System.
Support system integration, verification, testing, validation, and design transfer activities for new products and engineering changes.
Contribute to Advanced Technology Development, New Product Introduction (NPI), Design Transfer, Design Improvements, Value Engineering, and Reliability projects.
Execute assignments aligned with business priorities while collaborating effectively across cross-functional teams.
ME/MTech in Electrical Engineering or Power Electronics.
3+ years of relevant industry experience.
Hands-on experience in circuit design for power electronics applications, including AC/DC converters, DC/DC converters, power supplies, and inverters.
Experience with circuit simulation using PLECS, PSpice, or equivalent simulation tools.
Experience in verification and validation of circuits and products, including functional, performance, thermal, and EMC testing.
Strong understanding of power converter topologies, including Buck, Boost, Buck-Boost, Flyback, Forward, resonant converters/inverters, high-voltage multiplier/voltage doubler circuits, and analog power amplifiers. Knowledge of Static Compensators and Active Filters is an added advantage.
Good understanding of small-signal and large-signal analysis for AC/DC and DC/AC converters, including Power Factor Correction (PFC) circuits.
Strong fundamentals of EMI/EMC and filter design.
Working knowledge of electronics design and simulation tools such as Saber, MATLAB, PSpice, OrCAD, and Cadence.
Knowledge of power converter control techniques, including Bode plot and Nyquist plot analysis. Experience with analog and digital controllers, DSPs, embedded systems, mixed-signal PCB design, and fault debugging is an added advantage.
Knowledge of PWA design principles and component selection guidelines is an added advantage.
GE HealthCare is an Equal Opportunity Employer where inclusion matters. Employment decisions are made without regard to race, color, religion, national or ethnic origin, sex, sexual orientation, gender identity or expression, age, disability, protected veteran status or other characteristics protected by law.
We expect all employees to live and breathe our behaviors: to act with humility and build trust; lead with transparency; deliver with focus, and drive ownership – always with unyielding integrity.
Our total rewards are designed to unlock your ambition by giving you the boost and flexibility you need to turn your ideas into world-changing realities. Our salary and benefits are everything you’d expect from an organization with global strength and scale, and you’ll be surrounded by career opportunities in a culture that fosters care, collaboration and support.
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Relocation Assistance Provided: Yes