Staff Motion Controls Software Engineer

What You'll Do:

• Join the Robotics and Controls function within the Platform Engineering team and guide the architecture of the HW and SW systems for a new manufacturing platform.
• Lead the design and implementation of motor control systems for Atomic Machines' advanced manufacturing platform, focusing on precision motion control for micron-scale manufacturing processes.
• Develop and optimize control algorithms for custom motion controllers, ensuring compatibility with BLDC and stepper motors across various manufacturing applications.
• Design controller architectures from the ground up, including system modeling, transfer function analysis, and comprehensive gain tuning for optimal performance and stability.
• Build automated motor bring-up tools and software interfaces that enable non-software engineers to bring up new motors, including automated system identification, gain tuning, and performance validation.
• Develop user-friendly calibration and diagnostic tools that streamline the motor integration process and reduce time-to-deployment for new manufacturing systems.
• Implement real-time control software in embedded environments, with emphasis on deterministic behavior and low-latency response for precision manufacturing requirements.
• Collaborate with hardware teams to specify motor and drive requirements, conduct system identification, and validate control performance through testing and analysis.
• Support the development of the Matter Compiler's motion systems, ensuring seamless integration of multiple motor control subsystems within the broader manufacturing platform.
• Establish control system standards, documentation, and best practices for scalable motor control implementations.

What You'll Need:

• A first-principles mindset — you question assumptions, reframe problems from the ground up, and approach challenges with a foundational understanding rather than relying solely on precedent.
• 10+ years of hands-on experience designing and implementing motor control systems, with demonstrated expertise in BLDC and stepper motor control.
• MS or PhD in Electrical, Mechanical, Mechatronic Engineering, or related field with focus on controls/motor systems, or equivalent work experience.
• Deep knowledge of classical and modern control theory, including PID tuning, feedforward control, observer design, and system identification techniques.
• Proven experience with motor control hardware and their associated software interfaces.
• Strong background in control system modeling, including transfer functions, state-space representation, and frequency domain analysis.
• Experience developing automated system identification algorithms and auto-tuning methodologies for motor control systems
• Proven track record of building user-friendly engineering tools and interfaces for non-software users, with focus on motor bring-up and diagnostics.
• Proficiency in real-time embedded programming (C/C++) for motor control applications, with understanding of deterministic systems and timing constraints.
• Experience with motor control development tools, oscilloscopes, and test equipment for controller validation and debugging.
• Solid understanding of power electronics, motor physics (permanent magnet synchronous, stepper), and sensor feedback systems (encoders, resolvers, Hall sensors).
• Experience with motion planning and trajectory generation for precision positioning applications
• Excellent problem-solving skills and ability to work independently on complex technical challenges.