We are looking for a Motion Control Engineer to own the control algorithms of every joint in our humanoid - jointly with the embedded team, who implement your designs on the Motor Controller PCB. This is pure actuator control: FOC, loop design, estimation, and compensation. Whole-body behavior lives in learned policies; your job is to make every joint execute its commands perfectly.
Who you are
- A motor control specialist who can take a noisy, nonlinear physical joint and make it track like a servo catalog page
- Equally fluent in control theory and in what the silicon can actually compute in a 60 kHz loop
- Data-driven: you tune with measurements, plots, and system identification - not by feel alone
Responsibilities
- Define and validate the motor control methodology across the robot: FOC and commutation strategies for BLDC motors in quasi-direct-drive configurations with planetary reduction
- Design current, velocity, and position/torque control loops; define bandwidths, filtering, anti-windup, and saturation handling
- Develop torque estimation, friction and cogging compensation, and observers for joint state
- Define joint-level safety limits and fault-handling behavior together with embedded
- Guide and verify the embedded implementation of your algorithms on the Motor Controller PCB; co-own everything running on that board
- Design and execute structured characterization tests on the joint dyno: torque, speed, resolution, responsiveness, thermal behavior
- Deliver validated actuator models and control limitations to the Sim2Real and RL teams - your measured envelopes become their training constraints
- Drive improvements in actuation repeatability and responsiveness through precise measurement and feedback
Requirements
- B.Sc. or M.Sc. in Electrical, Mechanical, or Control Engineering (or equivalent experience)
- 8+ years in motor control systems or motion system integration
- Deep hands-on experience with FOC and current/velocity/position loop design for BLDC motors
- Familiarity with planetary gear systems and QDD architectures, and their impact on control and sensing
- Proven ability to define and lead performance test plans from lab setup to interpretation
- Comfortable using lab tools (oscilloscopes, encoders, current sensors) to evaluate dynamic behavior under load and in closed loop
- Impedance control and proprioceptive actuation experience
Advantages
- Experience in robotic or humanoid actuation or servo drive companies
- Familiarity with harmonic gear systems and their control implications
- Python for scripting, system identification, and data analysis
- Understanding of how sensor noise, latency, and actuation limits affect learned whole-body policies
- Comfortable communicating technical topics in English with international teams
Skills Required
- B.Sc. or M.Sc. in Electrical, Mechanical, or Control Engineering (or equivalent experience)
- 8+ years in motor control systems or motion system integration
- Deep hands-on experience with FOC and current/velocity/position loop design for BLDC motors
- Familiarity with planetary gear systems and QDD architectures and their impact on control and sensing
- Proven ability to define and lead performance test plans from lab setup to interpretation
- Comfortable using lab tools (oscilloscopes, encoders, current sensors) to evaluate dynamic behavior under load and in closed loop
- Impedance control and proprioceptive actuation experience
- Guide and verify embedded implementation of algorithms on Motor Controller PCB; co-own board-level behavior
- Experience in robotic or humanoid actuation or servo drive companies
- Familiarity with harmonic gear systems and their control implications
- Python for scripting, system identification, and data analysis
- Understanding of sensor noise, latency, and actuation limits and their effect on learned whole-body policies
- Comfortable communicating technical topics in English with international teams
What We Do
Mobileye is leading the mobility revolution with its autonomous-driving and driver-assistance technologies, harnessing world-renowned expertise in computer vision, machine learning, mapping, and data analysis. Founded in 1999, Mobileye has pioneered such groundbreaking technologies as REM™ crowdsourced mapping, True Redundancy™ sensing, and the RSS™ safety model. These technologies are driving the ADAS and AV fields towards the future of mobility – enabling self-driving vehicles and mobility solutions, powering industry-leading advanced driver-assistance systems and delivering valuable intelligence to optimize mobility infrastructure. Mobileye technology is used in over 170 million vehicles worldwide. In 2022, Mobileye became an independent company while still being majority-owned by Intel. Mobileye’s headquarters and R&D center are based in Jerusalem, with additional offices across Israel and around the world.
Why Work With Us
Our technology enables self-driving vehicles and mobility solutions, powers industry-leading advanced driver assistance systems, and delivers valuable intelligence to optimize mobility infrastructure.
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