We can create complex system designs for a wide range of applications and requirements. Because of the breadth of our internal capabilities, we are driven to consider all aspects of system design including manufacturability, integration, reliability, and more.
- Specification development services, such as sample testing and comparison experiments
- Optical, structural, and coating design
- Tolerance analysis and process optimization to determine final product image quality
- Support of formal design reviews with customers
- Mechanical part fabrication and assembly services
- Stray light analysis based on optical design form, optical and mechanical part coatings and finishes, and mechanical interfaces
- Thermal Analysis of systems
- Finite Element Analysis of systems
- Application-specific design of non-standard optical elements such as aspheres, cylinders, off-axis parabolas, and diffractive elements
- Design of optical assemblies across the spectrum from UV to IR
- Design and execution of active alignment during assembly to compensate for machining tolerances and provide optimized system image quality performance
- Development of customized test equipment
- Semiconductor testing equipment
- AOI opto-mechanical system
- Medical PCR optomechanical system
- Optomechanical system for medical gene sequencing
- Lens systems for aerospace applications
- Autonomous vehicle cameras
- Optomechanical ophthalmic inspection systems
- Zemax
- Code V
- Light Tools
- ASAP
- Fred
- Sequential optical design of elements, lens assemblies, and systems
- Non-sequential stray light and uniformity analysis
We provide professional engineering design and Finite Element Analysis (FEA) simulation services including:
- Static and dynamic structural stress analysis
- Thermal stress analysis and heat transfer including convection and conduction
- Material, geometric, and structural nonlinear stress analysis
- Mode shapes, buckling, harmonic response, and spectral analysis
- Seismic and random vibration analysis
- Optimization (size, shape, topology, materials) for new and existing designs
- Drop tests and multibody dynamics
- Fatigue analysis, multiphysics analysis, and composite material analysis