Leaks about Samsung’s Galaxy S26 series are becoming more evident every day. This time the focus is not on the processor part of the hardware, but on wireless connectivity capabilities. The company seems to be working on a new component in connectivity technologies. In this context, a new chip called Exynos S6568 has emerged.
Exynos S6568 stands out as a connectivity component listed in the Bluetooth SIG database and developed to work directly with Exynos processors. It is clearly shared that the chip supports Bluetooth 6.1. In addition, it appears that there is an auxiliary chip that also manages Wi-Fi connections. Such components directly affect the connection stability of the devices. Especially for mobile device users, connection continuity and range have always been a priority. Therefore, the presence of this new chip may bring an innovation in the connection performance of the Galaxy S26 series.
Wireless experience may be reshaped in the Galaxy S26 series
It is estimated that Samsung will offer this new connection chip with the Exynos 2600 processor. Moreover, this structure points to a more flexible architecture, thanks to the separation of connection units from the processor. Positioning the Exynos S6568 as a separate component can add flexibility to both production and maintenance processes. This flexibility also makes it easier for the manufacturer to fix certain connectivity issues with software updates. Of course, it will be seen over time how much these details will reflect on the consumer. But in general, the connection experience is now as important as the camera or screen.
The Galaxy S26 series is expected to differ in its hardware not only with the connection chip but also with the main processor. While Exynos 2600 is used in most of the devices, Snapdragon 8 Gen 5 for Galaxy version will be preferred in some regions. This difference may create variation in user experience in terms of performance and power consumption. It is claimed that models with Snapdragon processors will be exclusive to markets such as the USA and China. Samsung may be planning to support this model with some software improvements by offering it with the “Elite” label. However, it is a mystery for now how the performance differences will be felt in daily use.
The launch date, marked as March 2026, indicates a delay of approximately two months compared to the previous Galaxy S series. It is not clear whether this situation is related to the supply chain or hardware tests. Despite this, the date change is consistently mentioned by leak sources. These types of schedule shifts come to the fore especially when the testing process of new components is prolonged. It can be said that Samsung is proceeding more carefully in order not to risk this process. Whatever happens, the March launch has already become a talked about date for the Galaxy S26.
The fact that Exynos S6568 has Bluetooth 6.1 technology is especially important for applications that require low latency. These types of connection technologies are decisive in many areas such as wireless headphones, wearable devices and vehicle connections. The further reduction in power consumption with Bluetooth 6.1 can directly affect battery performance. This allows users to use their devices uninterrupted for longer periods of time. However, the extent to which these advantages will be felt is directly related to software optimizations. Considering Samsung’s previous experiences in this regard, serious improvements are also possible on the software side.
The performance of connection chips is measured not only by technical values, but also by their response under real use conditions. Maintaining connection quality, especially in dense network environments, reveals the success of the hardware. If the Exynos S6568 passes the test in this sense, the competitiveness of the Galaxy S26 series may increase. While such utility chips often work like unsung heroes, their impact is huge on daily experience. So just because a chip is small does not reduce its importance. On the contrary, it is becoming one of the main determinants of in-device efficiency.
This change, which comes with the new connection architecture of the Galaxy S26, shows that Samsung is trying to establish a more integrated but also more controlled structure within the hardware. An optimized auxiliary chip with Exynos processors can offer more stable operation throughout the system. This is felt in many areas, from application transitions to connection quality. By investing in such details, Samsung shows that it focuses on holistic performance, not just processor power. This strategy could be critical to staying one step ahead in the increasingly competitive Android flagship market.