Tesla
Mechanical Engineer, Actuator Integration, Optimus
Tesla, Palo Alto, California, United States, 94306
Overview
Tesla’s actuator team designs and builds actuators for humanoid bi-pedal robots (Optimus). The team joins mechanical, electrical, and electromagnetic engineering disciplines in a highly collaborative environment. This position is critical to the development of the high-performance electromechanical rotary and linear actuator systems for humanoid bi-pedal robots (Optimus). Tesla actuators need to deliver high performance, efficiency, and torque (force) density. You will join the team of electromagnetic motor design engineers to develop the most torque and force dense rotary and linear electromechanical actuator systems in the world. As part of the design team, you will be responsible for design of actuator gear systems. You will also support industrialization and production activities. What You'll Do
Design and integration of rotary and linear speed reduction systems for high performance motion control actuator application Collaboration with electromagnetic motor design engineers to develop the most torque dense and efficient electromechanical actuator systems in the world Continuously evaluate new technologies and design improvements to develop the most power dense, efficient, low cost, and reliable electromechanical gear systems and actuators Design and build motor, gear, and actuator prototypes for the validation of mechanical and electromechanical performance Basic fabrication, machining, wiring, general electronics, debugging, and parts chasing Collaboration with supply chain, vendor, and manufacturing engineers What You'll Bring
Degree in Mechanical Engineering or a related field, or equivalent experience 3+ years experience with design of rotary and linear gear systems for electromechanical actuators used in motion control applications Demonstrated successful experience in mechanical engineering in a product design and manufacturing environment Excellent experience with design and analysis of geared actuator systems with rotary and linear gear reduction mechanisms Experience in design and analysis of planetary, strain wave (Harmonics Drives), cycloidal, ball screws, belt drives, lead screws, magnetic gear, speed reduction systems with high specific torque (force), efficiency, and reliability Experience with torque and force sensing technologies and instrumentation Experience with thermal analysis and design for passive (natural convection) and active cooling Hands-on experience, previous project experience and/or internship is preferred Familiarity with various electric motor, electric drive, and motion control technologies Compensation and Benefits
Expected Compensation $88,000 - $228,000/annual salary + cash and stock awards + benefits Pay offered may vary depending on multiple individualized factors, including market location, job-related knowledge, skills, and experience. The total compensation package for this position may also include other elements dependent on the position offered. Details of participation in these benefit plans will be provided if an employee receives an offer of employment. Employment details
Senioriry level: Mid-Senior level Employment type: Full-time Job function: Engineering and Information Technology Industries: Motor Vehicle Manufacturing, Renewable Energy Semiconductor Manufacturing, and Utilities
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Tesla’s actuator team designs and builds actuators for humanoid bi-pedal robots (Optimus). The team joins mechanical, electrical, and electromagnetic engineering disciplines in a highly collaborative environment. This position is critical to the development of the high-performance electromechanical rotary and linear actuator systems for humanoid bi-pedal robots (Optimus). Tesla actuators need to deliver high performance, efficiency, and torque (force) density. You will join the team of electromagnetic motor design engineers to develop the most torque and force dense rotary and linear electromechanical actuator systems in the world. As part of the design team, you will be responsible for design of actuator gear systems. You will also support industrialization and production activities. What You'll Do
Design and integration of rotary and linear speed reduction systems for high performance motion control actuator application Collaboration with electromagnetic motor design engineers to develop the most torque dense and efficient electromechanical actuator systems in the world Continuously evaluate new technologies and design improvements to develop the most power dense, efficient, low cost, and reliable electromechanical gear systems and actuators Design and build motor, gear, and actuator prototypes for the validation of mechanical and electromechanical performance Basic fabrication, machining, wiring, general electronics, debugging, and parts chasing Collaboration with supply chain, vendor, and manufacturing engineers What You'll Bring
Degree in Mechanical Engineering or a related field, or equivalent experience 3+ years experience with design of rotary and linear gear systems for electromechanical actuators used in motion control applications Demonstrated successful experience in mechanical engineering in a product design and manufacturing environment Excellent experience with design and analysis of geared actuator systems with rotary and linear gear reduction mechanisms Experience in design and analysis of planetary, strain wave (Harmonics Drives), cycloidal, ball screws, belt drives, lead screws, magnetic gear, speed reduction systems with high specific torque (force), efficiency, and reliability Experience with torque and force sensing technologies and instrumentation Experience with thermal analysis and design for passive (natural convection) and active cooling Hands-on experience, previous project experience and/or internship is preferred Familiarity with various electric motor, electric drive, and motion control technologies Compensation and Benefits
Expected Compensation $88,000 - $228,000/annual salary + cash and stock awards + benefits Pay offered may vary depending on multiple individualized factors, including market location, job-related knowledge, skills, and experience. The total compensation package for this position may also include other elements dependent on the position offered. Details of participation in these benefit plans will be provided if an employee receives an offer of employment. Employment details
Senioriry level: Mid-Senior level Employment type: Full-time Job function: Engineering and Information Technology Industries: Motor Vehicle Manufacturing, Renewable Energy Semiconductor Manufacturing, and Utilities
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