Many people who see Find X for the first time will be amazed by its visually striking screen. To some extent, the future of Find X itself has a lot to do with this screen. Find X is the first time. It has increased the screen-to-screen ratio to 93.8%, which is still unacceptable in the industry, but what many people may not know is that it can achieve almost the proportion of the screen with an exaggerated screen, and the COP used. Flexible screen packaging technology is inseparable.
OPPO Find X uses an exclusive customized Samsung OLED flexible screen. In addition to its slim panel and low power consumption, its biggest feature is flexible and flexible. Based on this feature, OPPO Find X is the first in Android phones. COP flexible screen packaging technology, and increased the screen ratio to 93.8%.
Unlike ordinary screen panels, Find X bends the OLED flexible screen substrate below the display area of the screen, and then encapsulates the IC on the bent substrate. This package solves the chin problem that was difficult to solve in the conventional full-screen mobile phone. OPPO Find X also became the most Android phone with a very narrow 3.4mm border.
However, with the increasing screen share, the internal structure of the fuselage is also quietly changing. Antenna performance is one of them. With the rise of full-screen products, the fuselage antenna design faces three difficulties. The first is the antenna. Small headroom, resulting in relatively low radiation, because the antenna radiation requires a certain amount of radiation space. Second, the omnidirectionality of the antenna will be worse, because the full screen will squeeze the clearing area of the antenna. The third is the difference in the design of the fuselage structure. The full screen design will keep the light sensor and structural component components close to the antenna, leaving the clearance area of the antenna smaller.
Find X's antenna design only uses some of the limit space required by the full screen process as the antenna clearance, fully integrates this special fuselage structure, thus achieving an eight-antenna dual-core intelligent switching scheme based on the full screen form, and related solutions. Has applied for 83 antenna related patents.
At the same time, on the double-track periscope module of Find X, OPPO realized the sliding smart antenna for the first time. For the hidden and raised two different states, OPPO has carried out targeted tests on the antenna performance, and the overall performance is even better. Conventional structural design products.
In order to pursue the future of the product brought by the ultimate comprehensive screen, Find X realizes the first COP flexible screen packaging solution in the Android field, even if it will bring the difficulty of antenna design increase, but in fact, ultimately Find X achieves good enough performance in both screen ratio and antenna performance, ensuring the user experience and breaking the industry screen share record. This is also the best interpretation of the OPPO Find series.
Many people who see Find X for the first time will be amazed by its visually striking screen. To some extent, the future of Find X itself has a lot to do with this screen. Find X is the first time. It has increased the screen-to-screen ratio to 93.8%, which is still unacceptable in the industry, but what many people may not know is that it can achieve almost the proportion of the screen with an exaggerated screen, and the COP used. Flexible screen packaging technology is inseparable.
OPPO Find X uses an exclusive customized Samsung OLED flexible screen. In addition to its slim panel and low power consumption, its biggest feature is flexible and flexible. Based on this feature, OPPO Find X is the first in Android phones. COP flexible screen packaging technology, and increased the screen ratio to 93.8%.
Unlike ordinary screen panels, Find X bends the OLED flexible screen substrate below the display area of the screen, and then encapsulates the IC on the bent substrate. This package solves the chin problem that was difficult to solve in the conventional full-screen mobile phone. OPPO Find X also became the most Android phone with a very narrow 3.4mm border.
However, with the increasing screen share, the internal structure of the fuselage is also quietly changing. Antenna performance is one of them. With the rise of full-screen products, the fuselage antenna design faces three difficulties. The first is the antenna. Small headroom, resulting in relatively low radiation, because the antenna radiation requires a certain amount of radiation space. Second, the omnidirectionality of the antenna will be worse, because the full screen will squeeze the clearing area of the antenna. The third is the difference in the design of the fuselage structure. The full screen design will keep the light sensor and structural component components close to the antenna, leaving the clearance area of the antenna smaller.
Find X's antenna design only uses some of the limit space required by the full screen process as the antenna clearance, fully integrates this special fuselage structure, thus achieving an eight-antenna dual-core intelligent switching scheme based on the full screen form, and related solutions. Has applied for 83 antenna related patents.
At the same time, on the double-track periscope module of Find X, OPPO realized the sliding smart antenna for the first time. For the hidden and raised two different states, OPPO has carried out targeted tests on the antenna performance, and the overall performance is even better. Conventional structural design products.
In order to pursue the future of the product brought by the ultimate comprehensive screen, Find X realizes the first COP flexible screen packaging solution in the Android field, even if it will bring the difficulty of antenna design increase, but in fact, ultimately Find X achieves good enough performance in both screen ratio and antenna performance, ensuring the user experience and breaking the industry screen share record. This is also the best interpretation of the OPPO Find series.
