Lead Principal System Engineer for High-Speed Communication Interfaces (LPD at Infineon Technologies AG Australia

Cork, Munster, Ireland -

Full Time

Start Date

Immediate

Expiry Date

12 Feb, 26

Salary

0.0

Posted On

14 Nov, 25

Experience

10 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

Skills

Electrical Engineering, System Engineering, Microcontroller, SoC, LPDDR Interface, High-Speed Interfaces, Automotive Applications, Consumer Applications, Networking Applications, Clock Implementation, Power Supply, Floorplan Constraints, Peripheral Integration, Automotive Microcontroller Architecture, Market Trends, Problem-Solving, Team Collaboration

Industry

Semiconductor Manufacturing

Description

Contribute to the IO configuration concept, support pad multiplexing strategies, and drive alignment across system-level peripheral integration Ensure the right sourcing strategy of high-speed communication interfaces based on our application assumptions together with the platform architects Supporting interactions with internal IP providers and pad-frame development teams You are a team player who communicates flexibly and proactively within cross-functional teams. With strong problem-solving skills and solid technical expertise, you are ready to drive innovation and contribute to meaningful solutions. A Degree in Electrical Engineering or a similar field At least 8 years of experience as a concept, design, and system engineer for microcontroller or SoC based products Experience in the definition and integration of LPDDR interface Key expertise with different high-speed interfaces in Automotive, Consumer and Networking applications Expertise with implementing high-speed clock and power supply and as well floorplan & physical constraints Solid knowledge of microcontroller system architectures and peripheral integration Familiarity with automotive microcontroller architecture and open eyes & ears for market trends Automotive (ATV) shapes the future of mobility with microelectronics enabling clean, safe, and smart cars - Our semiconductors are essential for supporting the automotive megatrends: electromobility, automated driving, connectivity, and advanced security. They link the real and the digital world, driving the ever-advancing pace of automotive digitalization. Infineon ATV is the number one semiconductor partner in the fast-changing automotive world, based on our system knowledge and our passion for innovation and quality. Click here for more information about working at ATV with interesting employee and management insights and an overview with more #ATVDreamJobs. Automotive Microcontroller: We make green mobility smart As a leading automotive microcontroller vendor, the Infineon business line Automotive Microcontroller (ATV MC) offers the industry's most comprehensive microcontroller and software portfolio. The three major product families, AURIX™, TRAVEO™ and PSoC™, provide the newest innovation in performance, connectivity, power consumption, safety and security. We enable the latest advancements in the dynamic automotive market, such as vehicle electrification, automated driving and driver information & interaction. Being at the core of transformation, we pave the way for new technologies, such as artificial intelligence and dependable computing, as well as higher levels of connectivity, security and user experience. So, join us to create a better future together. AutomotiveMicrocontroller We are on a journey to create the best Infineon for everyone. This means we embrace diversity and inclusion and welcome everyone for who they are. At Infineon, we offer a working environment characterized by trust, openness, respect and tolerance and are committed to give all applicants and employees equal opportunities. We base our recruiting decisions on the applicant´s experience and skills.

How To Apply:

Incase you would like to apply to this job directly from the source, please click here

Responsibilities

Contribute to the IO configuration concept and support pad multiplexing strategies. Drive alignment across system-level peripheral integration and ensure the right sourcing strategy of high-speed communication interfaces.