Electromechanical Engineer | Mechatronics & Robotics Systems

You will be part of a culture that thrives on innovation and technical excellence. We are a team of dedicated engineers and designers committed to solving challenging problems and creating products that make a tangible impact. Our project-based environment encourages autonomy and direct ownership of your work, from initial concept through to final implementation. 

What You Will Do

- Architect and design complex electromechanical systems that masterfully integrate electrical hardware and mechanical components from concept to production.

- Spearhead the selection and integration of critical components—including brushless motors, advanced actuators, diverse sensors, and sophisticated power sources—for optimal system performance and reliability.

- Develop and implement sophisticated control systems for precision motion, leveraging your deep understanding of control theory and platforms like MATLAB/Simulink.

- Integrate custom and off-the-shelf printed circuit boards (PCBs) and intricate wiring harnesses into compact, environmentally sealed, and robust mechanical enclosures.

- Generate comprehensive system-level schematics, detailed assembly drawings (using GD&T), and all necessary manufacturing documentation for seamless production hand-off.

- Conduct rigorous tolerance analysis for complex mechanical and electromechanical assemblies to ensure high-yield manufacturability and long-term reliability.

- Lead the entire prototyping lifecycle; from initial concept and rapid prototyping (3D printing, CNC) to comprehensive system testing, validation, and iteration.

- Perform advanced thermal management analysis—using both simulation and empirical testing—to design solutions ensuring all electronics operate safely and reliably under demanding conditions.

- Serve as the crucial technical liaison between electrical, mechanical, and software engineering teams, fostering a collaborative and highly efficient development environment.

- Uphold the highest standards of system reliability and safety, incorporating methodologies like FMEA and other risk-mitigation strategies throughout the design process.

What You Bring

- A Bachelor’s or Master’s degree in Mechanical Engineering, Electrical Engineering, Mechatronics, or a closely related discipline.

- A minimum of 5 years of professional experience in electromechanical or mechatronics system design, preferably within the robotics, automation, automotive, or aerospace sectors.

- Exceptional proficiency in 3D CAD software for complex mechanical design, such as SolidWorks, Siemens NX, or Creo Parametric.

- Demonstrated experience with modern PCB design software—like Altium Designer or KiCad—and a strong understanding of integrating electronics into commercial products.

- Hands-on experience with control system modeling, simulation, and deployment using MATLAB/Simulink or similar professional environments.

- Practical knowledge of programming languages like C/C++ or Python for embedded systems, scripting, and test automation is highly advantageous.

- Familiarity with PLC programming (e.g., Siemens TIA Portal, Rockwell Studio 5000) for industrial automation systems is a significant plus.

- Proficiency in using Finite Element Analysis (FEA) tools (e.g., ANSYS, Abaqus) for structural, thermal, and vibration analysis.

- Experience with instrumentation and data acquisition tools, such as LabVIEW or Python-based alternatives, for system testing and validation.

- A holistic, systems-thinking approach to problem-solving, with the proven ability to manage technical trade-offs between different engineering disciplines.

- Superb communication skills, capable of articulating complex technical concepts and design decisions to diverse, cross-functional teams and stakeholders.