Job Summary
We are seeking a highly skilled and motivated Mechatronics Engineer with a strong background in designing and building complex electromechanical systems. The ideal candidate will have hands-on experience integrating mechanical, electrical, and software components into cohesive, high-performance systems. Bonus points for expertise in precision motion systems and industrial control systems.
Key Responsibilities
1. Design, develop, and test complex electromechanical systems from concept through to production.
2. Integrate mechanical structures with sensors, actuators, embedded systems, and control logic.
3. Collaborate with cross-functional teams including mechanical, electrical, and software engineers.
4. Develop detailed design documentation including schematics, wiring diagrams, and BOMs.
5. Optimize system performance, reliability, and manufacturability.
6. Implement and debug industrial automation systems, including PLCs and HMI interfaces.
7. Develop and tune precision motion systems using servo motors, linear stages, encoders, and motion controllers.
8. Support prototype assembly, testing, and iteration in the lab.
9. Conduct root-cause analysis and troubleshoot system-level issues.
10. Ensure compliance with relevant safety, regulatory, and industry standards.
Required Qualifications
1. Bachelor's or Master's degree in Mechatronics, Mechanical Engineering, Electrical Engineering, or related field.
2. 3+ years of experience in designing and building integrated electromechanical systems.
3. Strong understanding of mechanical design, electrical systems, and embedded control.
4. Proficiency in CAD tools (e.g., SolidWorks, Fusion 360) and circuit design software (e.g., Altium, Eagle).
5. Familiarity with motion control systems, including servo/stepper motors and motion controllers.
6. Experience with PLC programming, industrial communication protocols (e.g., Modbus, EtherCAT).
7. Strong problem-solving and prototyping skills.
Preferred Qualifications (Bonus Points)
1. Experience with precision automation, robotics, or CNC systems.
2. Hands-on knowledge of system dynamics, control theory, and tuning PID loops.
3. Exposure to MATLAB/Simulink or other modeling tools.
4. Experience in high-reliability or regulated industries (e.g., medical, aerospace, semiconductor).
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