Abstract: The present disclosure discloses a thin film photovoltaic cell, a cell pack and a method for fabricating the thin film photovoltaic cell, a film layer structure of the thin film photovoltaic cell is arranged in sequential attachment by: a transparent substrate, a transparent electrode, a thin film photovoltaic layer, a first metal electrode layer, an insulating layer, a second metal electrode layer, and a protective layer; the thin film photovoltaic cell includes a power generation region, a positive electrode and a negative electrode, the positive electrode and the negative electrode are respectively arranged at both ends of the power generation region; a plurality of first via structure patterns are arranged in the power generation region of the thin film photovoltaic cell, and in the power generation region of the thin film photovoltaic cell, the transparent electrode is connected to the second metal electrode layer with the first via structure patterns.

Abstract: The present disclosure discloses a thin film photovoltaic cell, a cell pack and a method for fabricating the thin film photovoltaic cell, a film layer structure of the thin film photovoltaic cell is arranged in sequential attachment by: a transparent substrate, a transparent electrode, a thin film photovoltaic layer, a first metal electrode layer, an insulating layer, a second metal electrode layer, and a protective layer; the thin film photovoltaic cell includes a power generation region, a positive electrode and a negative electrode, the positive electrode and the negative electrode are respectively arranged at both ends of the power generation region; a plurality of first via structure patterns are arranged in the power generation region of the thin film photovoltaic cell, and in the power generation region of the thin film photovoltaic cell, the transparent electrode is connected to the second metal electrode layer with the first via structure patterns.

Abstract: An organic electroluminescent display device having integrated an NFC antenna (9). The NFC antenna is arranged on a display screen of the organic electroluminescent display device, where the NFC interface is equipped with an output line of the display screen and is connected to a control mainboard of the display screen. This combines the display screen and the NFC antenna (9) into one, and has the NFC antenna (9) provided directly on the organic electroluminescent display device, thus preventing the problem of signal quality deterioration and reception failure due to wearing of the NFC antenna (9) interface and inaccurate alignment. In addition, provided is a solution to facilitate reception of an NFC signal from a display panel of the display device or for when the NFC signal must be received from the display panel of the display device.

Abstract: A thin-film transistor display device having integrated an NFC antenna (3). The NFC antenna (3) is arranged on a display screen (S) of the thin-film transistor display device, where the NFC interface is equipped with an output circuit of the display screen (S) and is connected to a control mainboard of the display screen (S). The thin-film transistor display device combines the display screen (S) and NFC antenna (3) features, and has the NFC antenna (3) provided directly on the thin-film transistor display device, thus preventing the problem of signal quality deterioration and reception failure due to wearing of the NFC antenna interface and inaccurate alignment, while facilitating reception and transmission of signals by the antenna, thus ensuring the smoothness of communication.

Abstract: An organic light-emitting diode displayer integrated with a near field communication antenna is provided. The organic light-emitting diode displayer is a TP on-cell or in-cell organic light-emitting diode displayer, the near field communication antenna is disposed on a display screen of the organic light-emitting diode displayer, and a near field communication interface is built on an output circuit of the display screen and is connected to a control mainboard of the display screen.

Abstract: The present invention relates to near field communication technology. Specifically, disclosed is an electrophoretic display device having integrated an NFC antenna. The NFC antenna is arranged on a display screen of the electrophoretic display device, where the NFC interface is equipped with an output circuit of the display screen and is connected to a control mainboard of the display screen. The present invention combines the display screen and NFC antenna features into one, and has the NFC antenna provided directly on the electrophoretic display device, thus preventing the problem of signal quality deterioration and reception failure due to wearing of the NFC antenna interface and inaccurate alignment. In addition, a solution is provided for facilitating reception of an NFC signal from a display panel of the display device or for when the NFC signal must be received from the display panel of the display device.

Abstract: Disclosed are a wide-viewing-angle liquid crystal display and a display method thereof, so as to improve the color cast problem generated during displaying by the wide-viewing-angle liquid crystal display. ITO slots of two or more directions are provided on a public electrode corresponding to a pixel electrode in a hollowed-out mode, so that liquid crystal molecules can be displayed in a multi-domain mode and are compensated from different viewing angles, and the fluctuation of liquid crystal molecules for the light refraction under an oblique angle is reduced, thereby improving the displaying effect of the wide-viewing-angle liquid crystal display.

Abstract: An organic electroluminescent display device having integrated an NFC antenna (9). The NFC antenna is arranged on a display screen of the organic electroluminescent display device, where the NFC interface is equipped with an output line of the display screen and is connected to a control mainboard of the display screen. This combines the display screen and the NFC antenna (9) into one, and has the NFC antenna (9) provided directly on the organic electroluminescent display device, thus preventing the problem of signal quality deterioration and reception failure due to wearing of the NFC antenna (9) interface and inaccurate alignment. In addition, provided is a solution to facilitate reception of an NFC signal from a display panel of the display device or for when the NFC signal must be received from the display panel of the display device.