The teardown of Apple’s new iPhone 16 Pro model revealed significant changes to the device’s internal structure. As with every new iPhone model, the iPhone 16 Pro was disassembled and examined in detail by engineers as soon as it was released. These examinations reveal that Apple has introduced some innovations to improve the device’s thermal management.
In the teardown video shared by Rewa Technology on YouTube, the internal components were accessed after the device’s rear glass panel was heated and removed. The first thing that caught our attention was that the battery had a new metal casing. Previous models were made of plastic or similar materials, while the iPhone 16 Pro’s battery casing was covered in stainless steel. This change could help increase the device’s heat dissipation and improve battery performance in the long run.
Battery case and body innovations on iPhone 16 Pro
Another important point noted in the video was that the metal battery case was specific to the iPhone 16 Pro model only. This innovation shows that Apple has followed a different heat management strategy in this model than in other models. Improving heat management is considered an important step in preventing performance losses in long-term use of the device.
The teardown also revealed some changes to other components, such as the TrueDepth camera system. This system, which bears similarities to the iPhone 15 Pro, is housed in a smaller space due to the different arrangement of the cables. The rear camera module has also grown, an arrangement that appears to have been made to make room for the larger elements of the telephoto lens.
The motherboard is also smaller and more densely arranged than previous models. This allows for more efficient use of the empty space inside the device. The new model also has a protective cover that supports thermal management, which can help reduce the heat of the device and protect the internal components.
Another element that caught the eye during the teardown was the device’s screen. Although the iPhone 16 Pro’s screen is physically larger than previous models, its bezels are thinner and the screen frame is smaller. In addition, the new camera control button is laser-fixed to the case and cannot be removed.
Finally, changes have also been noticed in the body layout. The new structure uses a graphite-coated aluminum substructure. This substructure is thought to both increase the durability of the device and help dissipate heat more efficiently.
These design changes that Apple made to the iPhone 16 Pro model are aimed at increasing the performance of the device and improving its long-term durability. It can be said that these innovations are important steps towards reducing the heating problems of the device, especially in applications that require high performance.