Technology
optics
Optical system design and evaluation technology enabling both outstanding optical performance and mass production
Even very complicated optical systems can be smoothly mass-produced by accurately predicting mass production performance from the design stage.
Glass-resin hybrid lens molding technology
Realizing new optical systems by using dual-function lenses
Free-form surface processing technology for optical elements
Space-saving, high-resolution next-generation optical elements realized by free-form surfaces
Small glass lens molding technology based on the droplet method
Producing complicated and high-accuracy small-diameter glass lenses based on unique technology
Vapor deposition coating technology that controls the optical characteristics of lenses
Optical performance is improved by forming a thin layer depending on the required function.
Robot technology that changes manufacturing operations
Creation of new manufacturing operations to meet diversifying needs
Printing paper automatic determination technology
Automating optimum printing settings for a wide variety of paper types
High-speed high-image-quality electrophotographic technology and high-speed paper feeding technology
Helping customers who require mass customization capabilities to succeed based on industry-leading productivity and expressivity thanks to outstanding image quality
Mold fine shape processing and transfer technology
Various functions can be appended to products by microfabrication on molds.
Cutting-edge technologies for next-generation MFPs equipped with the latest SoC (System on Chip)
Konica Minolta provides strong support for digitizing office operations and reforming workstyles through state-of-the-art technologies
Inkjet dyeing technology that eliminates wastewater disposal
Konica Minolta has created an eco-friendly dyeing technology that reduces wastewater and its disposal.
Real-time printed image analysis technology
Konica Minolta’s technology performs the image adjustment process and the printed material inspection process, both of which require the “hands” and “eyes” of the operator, thus reliably maintaining the quality of printed matter.
High-accuracy far-infrared glass lens technology
Earth- and user-friendly high-accuracy FIR glass lenses
Nondestructive inspection technology using X-ray Talbot-Lau interferometry
Aiming to contribute to a sustainable society by using more resins in vehicles
Automatic inspection technology for automotive production lines
Our unique vision system enables customers to resolve problems with automatic inspections.
Hyperspectral imaging technology (HSI)
Contributing to safety, security, and environmental science through component inspection
Photometric and colorimetric technologies
“Visualizing” light and colors and promoting digital quality control between supply chains
Solution casting technology for optical films
Polymeric optical film-casting methods and transform from TAC to SANUQI
Infrared image analysis technology
Contributing to safety and security by visualizing gases and reducing greenhouse gases
Share