01. Software technologies
Core Optics brings together experienced software development personnel and a wealth of accumulated expertise to craft software solutions for precise and rapid camera module inspection across various domains, including image processing software, embedded software, and application program software. Additionally, Core Optics excels in creating user-centered and intuitive GUIs (graphic user interfaces), leveraging our extensive field experience to enhance user interaction and satisfaction.
02. Circuit design technology
Core Optics possesses advanced electrical circuit design technology, on par with semiconductor systems, and high-speed signal processing circuit design capabilities. These strengths empower Core Optics to develop integrated products compatible with the latest high-speed camera sensors. With a deep understanding of high-performance circuit design, we meet and exceed customer expectations. Our integration of optimized firmware technology further streamlines efficient product development, ensuring that Core Optics remains at the cutting edge of optical innovation.
03. Mechanical design technology
Core Optics leverages state-of-the-art design methodologies, including 3D CAD, dynamic analysis, and animation action analysis, to create optimal CCM testers and assembly systems characterized by low cost, compact size, and high units per hour (UPH) efficiency. Our extensive experience in equipment development, prioritizing the movement of personnel and field layout, equips us with the design expertise to craft the ideal equipment tailored to customer needs. This approach ensures that Core Optics' solutions not only meet but exceed customer expectations by integrating innovative design techniques with practical, field-tested insights.
04. Optical application technology
Core Optics validates the assembly suitability of optical components through simulations using optical modeling. We design and implement optical modules to enhance the efficiency of camera module inspection, manufacturing equipment, and other vision inspection systems. Our approach ensures that each component operates optimally within these complex assemblies, leveraging advanced optical simulation techniques for superior performance and reliability.