英伟达Mechanical and Thermal Supply Base Engineer

Role The Sensing Hardware Team is responsible for architecting, designing, validating and integrating state-of-the-art sensing technologies for all Tesla vehicles. The sensors we develop support ADAS (Autopilot), safety, HVAC, chassis and other subsystems. As a Sensor Hardware Design Engineer, you will be responsible for overall performance of the sensing system and its features at any point in the product life cycle, serve as the owner of a given sensing system to address any issues discovered from development through deployment, understand and debug hardware and software interactions from prototyping through product launch, and manage priorities and support a host of projects simultaneously. Responsibilities Drive the design and execution of sensing subsystems through the following: Specification generation: distill sensor product requirements into constraints and actionable engineering systems design discussions Collaboration: lead cross-functional sensor design discussions with electrical, software, supply chain, manufacturing, thermal, and mechanical teams Architecture definition: translate sensor design discussions into design documents in the form of system block diagrams, functional and performance

Thermal Module Quality Engineers will be fearless leaders capable of working with multi-functional teams to identify risks, explore solutions, reach consensus and implement mitigations as quickly and efficiently as possible. You will evaluate dimensional, functional, and cosmetic challenges through statistical analyses to make data-driven decisions as well as: - Drive quality readiness at the factory for development builds and mass production. Drive all quality issues in development builds to timely closure. - Collaborate with design, engineering teams to set appropriate quality control/Inspection/metrology stations on the production line. Drive IQC, IPQC, OQC and ORT - Drive qualification efforts in a wide variety of areas such as metrology, function inspection, cosmetic during module assembly. - Perform failure analysis to understand thermal failure modes and implement preventive measures. - Lead quality related functions for a program and serve as a project manager to push efforts at supplier locations. - Write, assess, and audit validation tests both internally and at the vendors. - Drive vendor process performance improvements through objective measurements using yield gap analysis. - Drive inspection optimization

- Responsible for developing the quality plan, infrastructure and its implementation for new projects by working closely with Apple multi-functional teams and the suppliers. - Support for NPI build activities and also support in MP. - Applies quality and reliability concepts during our products development phase as well as in the mass production to put in place quality controls in the manufacturing process. - Thoroughly understands the design and manufacturing process as well as capabilities of various manufacturing processes used and designs appropriate testing/controls to guarantee output quality. - Works with equipment vendors to design metrology (measurement inspection) equipment, approves DFMs and applies metrology concepts in qualification and validation of equipment. - Uses statistical tools to make everyday decisions such as sample size calculations, distribution analysis, process capability, etc and move the program forward. - Closely collaborates with the multi-functional team in the product development phase to assess product risks and paths to mitigate them. - Participates in the development and implementation of Product Quality Plan (PQP). - Develops specific quality programs during development and qualification stages. - Reviews product design to ensure quality objectives are met. - Closely work with suppliers to meet the quality expectations. - Collaborate with the suppliers and Apple multi-functional team to help set up the IQC, IPQC, OQC and ORT processes for key parts. - Establishes discovery audit procedures and ensures performance to standards by Apple test personnel.

The Role Mechanical engineering within the Low Voltage Wire Harness Engineer in our team. RESPONSIBILITIES Engineering design responsibility for a wide variety of electrical wire harnesses in Tesla vehicles, both in production and in development. Engineering responsibility throughout all stages: concept, requirements definition (iterative), prototype, detailed CATIA (V6) model, 2D drawing synchronized with electrical circuitry provided by the Wire Harness Electrical Engineer, vendor selection (support to Supply Chain), design validation and optimization in Beta and RC phases, volume tooling and processes for Start of Production and production ramp-up. Life-cycle improvements and cost reductions as needed. Make design decisions, and provide leadership in resolving electrical/physical integration and optimization issues with other internal Tesla parties on a daily basis, namely for example: Body, Low Voltage Systems, Infotainment, Audio, PCBA Design, Chassis, Interiors, Seats, HVAC, Environmental/Vibe Testing, CATIA Integration, CAE Crash Analysis, Vehicle Durability and Crash Test, Manufacturing Engineering, etc. Design to significantly reduce mass and volume/space and to optimize wire bundle routing in the vehicle, minimize NVH (Noise, Vibration, Harshness), prevent possibility of moisture ingress/damage. Work with Suppliers for Design-for-Manufacturability to reduce assembly complexity, cost and lead time reduction. Design components for ease and efficiency of manufacture, as well as ease and efficiency of installation in vehicles. Work with manufacturing and assembly process engineers for successful implementation. Work with SIE (Supplier Industrial Engineer) to setup and review production lines at suppliers, including any associated mechanical components. Support RC (Release Candidate – pre-production) with quick-turn parts and make sure installation works properly as design-intended incl. supporting with a subassembly fixture design prior to full vehicle being available. Highlight design concerns (such as high insertion force on connectors, grommet installation and sealing issues) or reliability concerns on detailed design features and drive the solution progress to remove these concerns through weekly tests, follow ups, upper management deep-dive reviews and cross functional team reviews. Closely work with Reliability team to ensure proper testing on finished designs (vibe, corrosion, torque-to-failure, EMI/shielding, etc.).