Rivian is on a mission to keep the world adventurous forever. This goes for the emissions-free Electric Adventure Vehicles we build, and the curious, courageous souls we seek to attract.
As a company, we constantly challenge what’s possible, never simply accepting what has always been done. We reframe old problems, seek new solutions and operate comfortably in areas that are unknown. Our backgrounds are diverse, but our team shares a love of the outdoors and a desire to protect it for future generations.
We operate development centers in Plymouth, Michigan; Southern California (Irvine, Carson & LA); Silicon Valley (San Jose and Palo Alto); Vancouver, British Columbia; and Surrey, England; as well as a manufacturing facility in Normal, Illinois.
Reliability is at the core of Electric Adventure Vehicles. We are looking for engineers who have experience in bringing products from the early concept stages to production by working closely with design, validation and manufacturing teams on solving technical problems along the way to make the most robust products. If some of the first things that come to your mind when looking at a complex design is “what are the way this thing can fail and how can I make it better?” then, we are looking for you!
- As a Design-for-Reliability Engineer focusing on low voltage electronics, you will play a key role in designing reliability into the Rivian’s vehicle control, connected car, and self-driving products from concept to production phases.
- You will get to work with a world-class team of design and validation engineers to come up with creative solutions to some of the most challenging engineering problems by thinking outside the box.
- Be the resident reliability development expert to the hardware design and architecture teams.
- Set and communicate Reliability requirements and targets for components, subsystems, and assemblies.
- Analyze usage and environmental conditions in order to improve requirement setting and testing methods.
- Facilitate Design FMEA sessions in order to drive reliable design choices and improve validation test planning.
- Participate in design reviews and facilitate the reliability section of the design review.
- Develop reliability design guidelines and apply reliability lessons learned to enable continuous improvement.
- Devise accelerated test methods to explore design margins and grow reliability efficiently.
- Partner with the simulation teams to assess problem areas before physical parts are available for testing.
- Specify reliability validation plans for components and subsystems using a physics of failure approach.
- Provide guidance on sample size requirements and duration for reliability testing by utilizing reliability statistics.
- Facilitate failure analysis to understand root cause and drive resolution for failures originating in testing.
- Assess and clearly communicate risk at each phase of the reliability program.
- Research failure mechanisms of new technologies and applications. Create designed experiments (DOE) to explore alternative choices on materials, processes, and designs.
- Influence supplier selection for higher reliability and provide clear guidance on reliability requirements and demonstration to suppliers.
- Collaborate with the Sustaining Reliability Team to develop Ongoing Reliability Testing strategies.
- Be the gatekeeper of reliability risk throughout product development and drive activities to successfully burn-down risk before SOP.
- Partner with Field Reliability and Failure Analysis to assure reliability lessons learned are incorporated into future products.
- Electrical Engineering fundamentals specifically related to electronic hardware in general.
- Physics of failure knowledge for PCBAs and assemblies
- Understanding of degradation models of active and passive electronic components
- Understanding of Highly Accelerated Testing methods and governing equations for different types of failure mechanisms.
- Experience with deploying reliability testing guidelines and inventing new ways of testing.
- Good understanding of reliability statistics including Weibull Analysis.
- Expertise in accelerated-life-test development methods for electronics
- Working knowledge of failure analysis techniques such as optical microscopy, SEM, CT, X-Ray, EDS.
- Familiarity with mechatronic systems including knowledge of communication protocols (CAN, LIN, Ethernet), motor controllers, and microcontrollers/FPGAs.
- Working knowledge of a coding language, preferably Python.
- Working knowledge of an Electronics Design Analysis software, such as Ansys Sherlock
Rivian is an equal opportunity employer and complies with all applicable federal, state, and local fair employment practices laws. All qualified applicants will receive consideration for employment without regard to race, color, religion, national origin, ancestry, sex, sexual orientation, gender, gender expression, gender identity, genetic information or characteristics, physical or mental disability, marital/domestic partner status, age, military/veteran status, medical condition, or any other characteristic protected by law.
Rivian is committed to ensuring that our hiring process is accessible for persons with disabilities. If you have a disability or limitation, such as those covered by the Americans with Disabilities Act, that requires accommodations to assist you in the search and application process, please email us at email@example.com.
We take your privacy seriously. For details please see our Candidate Privacy Notice.