Electromechanical product development at the intersection of mechanical engineering and embedded systems.
I am a mechanical engineer specializing in electromechanical systems, embedded control hardware, and integrated product development.
My work focuses on designing machines and hardware systems where mechanics, electronics, and control software must operate as a cohesive whole. I work across mechanical design, embedded electronics, sensors, and motion systems to develop products that function reliably in the physical world.
Vincent Leman
Mechanical Engineer // Electromechanical Systems // Product Development
Engineering Focus
My work often spans several overlapping areas of electromechanical product development, where mechanical structures, electronics, sensors, and software must function together as a single system.
Product Development
Electromechanical product design
Hardware prototyping
Early-stage product development
Control & Embedded Systems
Embedded control hardware
Human–machine interfaces and control inputs
Sensor integration and feedback control
System Design
Motion systems and actuators
Electromechanical system architecture
System integration
How I Approach Engineering
I approach engineering from a systems perspective.
Individual components can function perfectly in isolation and still fail when integrated into a real machine. The real engineering work happens at the interfaces — where mechanical constraints, electrical behavior, control logic, and human interaction intersect.
Because of this, I tend to work close to the hardware. I prefer an iterative process of designing, prototyping, measuring, and refining until a system behaves predictably and reliably.
Much of my work involves turning early concepts into practical machines — systems where mechanical design, electronics, sensing, and control all come together into a clear and dependable product.
Leadership & Product Development
In addition to hands-on engineering work, I drive development of electromechanical product lines and guide complex systems from early concepts to working hardware.
My work often involves coordinating across customers, vendors, and internal engineering teams to move products forward. I regularly collaborate with peers across disciplines, work directly with external partners, and help guide junior engineers as systems take shape.
Much of this effort focuses on turning complex electromechanical systems into clear, reliable products — ensuring that mechanical design, sensing, control electronics, and user interfaces come together into a cohesive machine.
This work often includes:
• Driving development of electromechanical product lines
• Defining system architecture and technical direction
• Working directly with customers and technical stakeholders
• Coordinating development across vendors and suppliers
• Collaborating with peers across mechanical and embedded engineering
• Mentoring and guiding junior engineers
Selected Work
Much of my work focuses on electromechanical systems where mechanical structures, sensing, control electronics, and user interfaces must operate together reliably.
Examples of systems I have worked on include:
Electromechanical Drive Systems
Development of integrated drive systems combining motors — including brushless DC (BLDC) motors — sensors, and mechanical power transmission. These systems require careful integration of mechanical design and sensing to produce reliable motion and predictable system behavior.
Embedded Motion Control Hardware
Design and development of embedded control hardware used to drive actuators and manage motion in electromechanical systems. This work includes integrating sensors, feedback control, and user control inputs to create responsive and dependable motion systems.
Human–Machine Control Interfaces
Development of operator control systems including throttles, levers, and membrane switch panels used to control electromechanical machines. This work bridges mechanical design, embedded electronics, and user interaction to create intuitive and reliable control interfaces.