Garrett Advancing Motion is the true pioneer of automotive powertrain technologies dating back more than 60 years. It continues today as the world's leader in technology solutions for passenger cars, commercial vehicles, and off- highway equipment. Garrett supplies technology to nearly all major automakers in addition to the global aftermarket under the Garrett brand name. As a result, unlike many other OEM or supplier organizations, Garrett Advancing Motion has visibility across a broad range of OEM's and Tier 1 suppliers.
We are looking for a "Mechanical Integration Engineer - Core" to join the team and work cross-functionally with electrical, mechanical, simulation, systems and other engineers to design, build and test prototypes. You will be responsible for end-to-end development of high powered inverters that will push the boundaries of what is possible - taking a design from the conceptual stage, to the model stage, to physical prototypes in the lab and ultimately on the customer's application. Come join our fast-paced and dynamic team!
Responsibilities Include:
Work in fast-paced environment with competing requirements and challenging deadlines. Work with Lead Designers to manage project milestones, scope changes & supplier issues affecting designs.
Teamwork
Work with team members locally and at Garrett's other global development centers. You will have the opportunity to travel to external labs or other facilities to oversee prototype component testing or assembly.
End-to-End ownership
You will own all aspects of the design including the 3D model, 2D drawings, Bill of Material, component stack-up analysis, validation results, assembly instructions, process controls, quality controls, etc.
Concept
Work cross-functionally with other engineering teams to understand the requirements, voice-of-the-customer, packaging restrictions and performance targets. Iteratively translating those into a conceptual design.
Design
Collaborate with Design Engineers to develop a 3D model from "clean sheet" to full production inverter using OnShape cloud based CAD. Convert the 3D model into 2D drawings and implement full GD&T in preparation for procurement.
Rapid Prototyping
Work with component suppliers to source proto hardware and solve quality and technical challenges.
Assembly
Collaborate with local and global resources to assemble fully functional units. This includes hands-on assembly, debugging, testing.
Simulations
Execute various mechanical and thermal simulations on your design, including collaborating with Materials & Structures team FEA and CFD/CHT experts to solve challenging engineering problems and tradeoffs.
Electronics
Work closely with Electrical Engineering Hardware team to package complex, high voltage, high power PCBA into sealed housings exposed to high temperatures and punishing vibrations.
Strong focus on built in quality. Design complex parts and assemblies while applying Design for Manufacturing (DFM), cost & reliability fundamentals.
Mechatronic mastery
Make design decisions based on engineering and cost tradeoffs on all components of an inverter including: Aluminum die casting parts, injection molding parts, 3D printing, sheet metal forming, welding, soldering, adhesives, liquid cooled systems, seals and gaskets, electrical contacts, busbars, insulating films etc. Justify those decisions with supporting evidence including calculations, simulations and empirical testing.
Basic Qualifications:
Additional Desired Qualifications:
Key Success Factors:
Pay Range
The salary range for this role is between $105,400 and $140,000.
In addition to the annual base salary this role offers the below:
Garrett is an equal opportunity employer. Qualified applicants will be considered without regard to age, race, creed, color, national origin, ancestry, marital status, affectional or sexual orientation, gender identity or expression, disability, nationality, sex, or veteran status.
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