Power System Design and Integration Engineer at Apple

, California, United States -

Full Time

Start Date

Immediate

Expiry Date

10 Jun, 26

Salary

0.0

Posted On

12 Mar, 26

Experience

2 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

Skills

Power System Design, Integration, Wireless Charging, Inductive Technology, Analog Design, Digital Design, Power Electronics, Modeling, Data Analysis, Circuit Simulation, Requirement Writing, Test Plan Development, Failure Analysis, Algorithm Development, Cross Functional Teamwork, Prototyping

Industry

Computers and Electronics Manufacturing

Description

Imagine what you could do here. At Apple, new ideas have a way of becoming phenomenal products, services, and customer experiences very quickly. Bring passion and dedication to your job and there's no telling what you could accomplish. The success we are striving will be the result of very skilled people working in an environment which cultivates creativity, partnership, and thinking of old problems in new ways. We believe the future is Wireless! The mission of the Wireless Power Technology team - Create the world’s best Wireless Charging user- experience by inventing state-of-the-art technologies. We develop effortless and safe Wireless Charging designs that are central to Apple’s products – the iPad, iPhone, Apple Watch, AirPods and more! New challenges arise every day that require the sharp problem-solving skills of individuals. Are you in for the challenges? We are looking for a power design engineer that leads the integration of the inductive technology into products in the partnership with multiple discipline teams including but not limited to architecture, FW, system EE, silicon, noise and vibration, safety, thermal, reliability, operations, regulatory teams and more. Join us. Pioneer best-in-class Wireless charging, for a new Wireless world. DESCRIPTION You will be developing and designing wireless power systems. You will be expected to meet a high standard for analysis, and manufacturing discipline, and work with cross functional teams to pass all specifications and requirements necessary to ship a product. Write requirements, specifications, and test plans for both hardware and FW. Define factory tests, test limits, and work with factory and peers to perform failure analysis and corrective actions. Guide the team in the development of necessary algorithms, state-transition diagrams/flowcharts and analysis for each regime of operation. Up to 10% travel required. MINIMUM QUALIFICATIONS Solid EE fundamentals in both analog and digital design with focus on Power Electronics. Solid fundamentals in modeling, data collection, data analysis, and statistical analysis tools (e.g., Python, JMP, Matlab). Circuit level simulation experience in EE simulation platforms like Cadence/ADS/LTspice etc. BS and a minimum of 3 years relevant industry experience. PREFERRED QUALIFICATIONS Comfortable with tackling new challenges with the critical thinking and problem-solving skills. Team player, great communication skills and ability to lead multiple-discipline team to make the design tradeoff based the information available in a timely manner Hands-on experience and proven track record in system definition, integration, architecture, prototyping, and validation. Knowledge and experience in direct wireless charging. Experience in high volume products from concept to end, and working with contract manufacturers. Experience with firmware definition and debugging. Experience working with cross functional firmware partners. Direct coding experience and algorithm design experience is a plus. Masters/PhD in relevant EE field.

Responsibilities

The engineer will be responsible for developing and designing wireless power systems, meeting high standards for analysis and manufacturing discipline while collaborating with cross-functional teams to meet all product specifications. Key tasks include writing hardware and firmware requirements, defining factory tests, performing failure analysis, and guiding the team in developing necessary operational algorithms.