Galaxy S26 Camera Lens Modules Expected to Feature ‘Inkjet Printing’ Technology for Thinner Design, Including Samsung’s ‘Edge’ Models

Samsung is reportedly embarking on an innovative journey with its upcoming Galaxy S26 series, particularly in the realm of camera technology. The highlighted advancements include the introduction of a variable aperture lens for the Galaxy S26 Ultra and the development of a modular lens system that can be affixed magnetically or via RFID tags. However, one of the most intriguing developments is Samsung’s shift towards a method known as ‘inkjet printing’ to minimize the thickness of lens modules, as detailed in recent reports. Let’s explore the implications of these innovations.

Revolutionizing Camera Modules: The Role of Matte Ink

Samsung’s Electro-Mechanics division is set to implement matte ink in the smartphone camera lens modules of the Galaxy S26 series. According to a report from The Elec, current designs utilize films that aim to mitigate flare and ghosting, but switching to matte ink could lead to a reduction in size for these components. Specifically, the inkjet printing technique is expected to be used on the rib surface, which serves as the interface between the lens and the internal assembly of the lens module.

The rib’s function is critical, as it stabilizes the lens while allowing light from different angles to pass through. During this process, some light is reflected off the rib, which can contribute to undesirable image effects like flare and ghosting. To counteract these issues, the rib is fitted with a light-blocking feature. By applying matte ink through inkjet printing, Samsung aims to create an effective barrier on the rib surface that not only enhances image quality but also allows for a slimmer lens module.

Samsung Patent for Thinner Camera Lens Module

This innovative technique is part of a patent filed by Samsung back in 2018, suggesting that this enhancement will likely be integrated into the upcoming Galaxy S26 series. Preliminary observations indicate that this update may become a standard feature, although details surrounding the cost implications of this process remain unclear. Fortunately, this approach could thin down the lens modules without compromising battery capacity—a concern that arose with the Galaxy S25 Edge.

By adopting this new technique, the Galaxy S26 Edge might be able to maintain its slim profile while accommodating a larger battery, which is certainly an exciting development to contemplate. However, while these advancements hold promise, we advise readers to consider this information with cautious optimism as we await further updates on Samsung’s progress.

For more information, check out the original source: The Elec.

Additionally, you can find images and insights on this topic at Wccftech.