This portfolio highlights a selection of engineering projects demonstrating expertise in opto-mechanical, electro-mechanical, and precision mechanical system design. Each project reflects a problem-driven approach focused on performance, reliability, and manufacturability for complex technical systems.
Precision XYZ Stage – Opto-Mechanical System Design
This project involved the design and development of a high-precision XYZ positioning stage for an opto-mechanical application requiring accurate alignment, mechanical stability, and repeatable motion. The system was developed to support precision instrumentation where positional accuracy and structural integrity are critical to performance.
Designed a high-precision XYZ positioning stage for an opto-mechanical application requiring sub-micron repeatability and thermal stability. Work included mechanical architecture, tolerance analysis, CAD design, and integration considerations for optical alignment.
Engineering Scope and Responsibilities
Opto-mechanical system architecture
Precision mechanical design and CAD modeling
Tolerance analysis and alignment considerations
Integration with motion and optical components
Design for manufacturability considerations
Key Engineering Challenges
Achieving mechanical stiffness while maintaining compact form factor
Managing tolerance stack-up for precision alignment
Ensuring repeatable motion under operational loads
