Vit Ulinskas

Med device R&D, design engineering and project management. Develop specifications, electromechanical and optomechanical systems, hardware architecture, interfaces and associated consumable devices. Design engineering of components, assemblies, simulation, data analysis, and verification. Manage technical projects.

Instruments R&D. Designed and tested hardware for a body-worn non-invasive vital signs monitoring device consisting of electrical PCBA, mechanical and pneumatic/acoustical sub-modules and sensors. Engineered and tested mechanical acoustic filters for reduction of high frequency noise. Engineered advanced connector contacts, performed FEA simulations, developed and tested prototypes. Designed chassis, housings, and packaged and miniaturized electronics to achieve smallest possible form factor.

Platform Engineering. Redesigned FDA-cleared testing platform sub-systems and consumables interfaces, conducted reliability studies, DOEs, and supported engineering teams and manufacturing. Performed tolerance analyses on hardware mechanisms to improve reagent dispensations within complex multiplex molecular testing instrument (ePlex) and consumable assays. Established GD&T on all mechanical drawings, performed verification tests on new designs, and released to manufacturing. Provided direction to engineering and support staff.

Med device R&D, design and project engineering. Conceptualized and designed mechanical, electromechanical, and optomechanical assemblies and consumable devices. Conceptualized novel compact medication & nutrition filling device. Developed conceptual proposals for manual and semi-automatic pneumatic filling devices. Designed and redesigned motorized optical beam folding mirrors and precision components used in deep UV light source optical systems.

Vitreoretinal Surgical Instrumentation R&D. Led multi-year micro-surgical illumination module design and development effort as a Lead Mechanical Engineer - FEA analysts, mechanical engineers and designers, electrical engineers, and technicians. Developed system specifications and architecture for new Endoillumination module, designed and developed critical components for the Optics sub-module. Designed and developed Cooling sub-module, including initial simulations and management of the CFD efforts. Sized and integrated motors, drives, fans, and designed precision optomechanical components and assemblies. Co-invented closed loop optical feedback and positioning system design, PMON optical sensor design, and numerous other motion control mechanisms to improve free-space optical beam coupling into optical fiber. Miniaturized and packaged electromechanical and optomechanical components and mechanisms, performed tolerance analyses, and tested prototypes. Performed reliability and risk analyses and assessments and led design reviews. Key contact between departments, external suppliers and contract firms, and an overseas technology development partner.

Researched and reviewed relevant patents, patent claims, and opportunities for new proprietary designs. Conceptualized, proposed, and prototyped new designs for the intrathecal drug pump assemblies. Performed multiple failure analyses. Startup company dissolved in 12/2009.

Project and Team Lead for global Continence Care projects. Patent research and analysis, conceptual design of novel incontinence catheters and accessories, focus groups, product design and development through gate-stage development process. Recognized for innovation with two R&D Invention Awards.