Dutch Startup IO snaps $ 15 million to sharp to the future of IO Imaging

Granny night shots and heavy camera boiled to boil – Indhoven Io The machines want to change the world how to look for. Imaging startup has collected $ 15 million of the seed fund to bring its nanophotonic sensor technology to market.

Their goal is to dramatically enhance the size of the camera, increase the quality of the image, resolution and short-lived performance.

The round was under the co-organizer of IMEC.Expand and Invest-NL and included the participation of the QBIC Fund, Hi-Tech Granderfunds (HTGF), and the Brabant Development Agency (BOM). The development of fresh capital IO evaluation kites, will support scale-up plan for its first sensor product and commercial partnerships.

Jeroin HotteIO CEO: “IO is fundamentally defining image sensing Several decades to eliminate old restrictions. All arriving light and severely captured Improving resolution simply – This technology fully widespread paths New applications in imaging from Ultra-Comctue Sensor to Extended Low-Light Performance, high resolution and the quality of the maximum image. We are not right Improve existing systems; We’re creating a new value for the future Imaging.

Established in 2021, the IO mission is to tackle the light-capturing restrictions, to define image sensing, which has limited camera technology for decades.

Dition is applied to pixels depending on red, green and blue filters, which are applied to pixels, which is a method that cancel up to 70% of the coming light. The innovation of the IO is in the nanophotonic collar-divided technology, which replaces these filters with vertical wavegides that guide the light directly to suitable pixels.

It not only eliminates light damage but also improves the solution and loyalty of the image.

The IO claims that it can achieve sub-0.5-Micron Pixel, enables the top level performance with a super-communicat sensor. These can be especially effective in mobile devices, robotics and XR gear, where power skills, size and quality quality are very important.

Furthermore, it is reported that the Subfetware provides the entire color data directly-the IO sensors are twice the resolution and the sensitivity of the three times conventional alternatives rather than relying on interpolation. The technology is also compatible with the existing CMOS platforms.

On smartphones, manufacturers are simply increasing the sensor size and compensating for weak lower-halka performances, resulting in bulkia camera modules. The IO method, which improves the performance without increasing the size of the sensor, provides an especially interesting solution to the OMS to keep the devices slim and visually applying.

Out of the smartphone, its potential calculating photography, machine visition and spatial computing – expands to industries where accuracy and image precision is important.

IO plans to release the evaluated kites to selected customers within the next two years using funds to refine its sensor architecture and scale the production process.



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