CN114664237B - Display device and driving method thereof - Google Patents

Abstract

The invention discloses a display device and a driving method thereof, belonging to the technical field of display, wherein the display device comprises a display panel and a wireless charging assembly, and the display panel comprises a driving circuit and a plurality of display units; the driving circuit comprises a display driving circuit and a wireless charging driving circuit, the display driving circuit is electrically connected with the display unit, and the wireless charging driving circuit is electrically connected with the wireless charging assembly; in a first period, the display driving circuit provides a display driving signal to the display unit; in a second time period, the wireless charging driving circuit provides a charging signal to the wireless charging assembly; the first time period does not overlap with the second time period. The driving method is used for driving the display device to work. The invention can avoid the interference of the wireless charging assembly to the display effect of the display panel during working, avoid the abnormal display phenomenon of water ripple of the display picture and effectively improve the display quality of the display device.

Description

Translated fromChinese

显示装置及其驱动方法Display device and driving method thereof

技术领域technical field

本发明涉及显示技术领域，更具体地，涉及一种显示装置及其驱动方法。The present invention relates to the field of display technology, and more particularly, to a display device and a driving method thereof.

背景技术Background technique

无线充电技术源于无线电力输送技术。无线充电又称作感应充电、非接触式感应充电，是利用近场感应也就是电感耦合，由供电设备(例如充电器)将能量传送至用电装置(例如手机、电脑等具有显示功能的电子设备)，以便用电装置使用接收到的能量对电池充电，同时供其本身运作之用。由于供电设备与用电装置之间以电感耦合的方式传送能量，两者之间不用电线连接，所以无线充电技术一方面提高了充电安全，另一方面可以使得用电装置不受有形的电线的束缚，从而提高用户使用的便利性。目前，无线充电技术已经越来越广泛的应用于各种电子显示设备(例如手机、电脑等)中。Wireless charging technology is derived from wireless power transmission technology. Wireless charging is also called inductive charging and non-contact inductive charging. It uses near-field induction, that is, inductive coupling, to transmit energy from power supply equipment (such as chargers) to power-consuming devices (such as mobile phones, computers, etc.). equipment) so that the electrical device uses the received energy to charge the battery and also for its own operation. Since the energy is transmitted between the power supply equipment and the electric device in the form of inductive coupling, and there is no wire connection between the two, the wireless charging technology improves the charging safety on the one hand, and on the other hand, it can make the electric device free from the influence of physical wires. Confinement, thereby improving the convenience of users. At present, the wireless charging technology has been more and more widely used in various electronic display devices (such as mobile phones, computers, etc.).

然而，在某些情况下，来自电子设备内的无线充电结构会在显示设备的操作期间干扰显示，导致不期望的显示失真，例如无线充电结构在工作时，干扰信号会与数据线产生耦合，使得数据线上传输的数据电压出现波动，导致显示屏出现水波纹状的显示异常。相关技术中一般采用的改善方法是增强数据线的驱动能力，使得无线充电信号的干扰变弱，但此种改善方法会带来功耗增加的问题。相关技术中也会采用在显示设备内增设屏蔽结构，以将无线充电时对显示的干扰信号尽可能屏蔽，此种改善方法不仅会使得显示设备结构增加，不利于模组轻薄化，而且屏蔽效果也并不理想，无线充电时产生的干扰信号仍然会对显示有一定程度的影响。However, in some cases, the wireless charging structure in the electronic device will interfere with the display during the operation of the display device, resulting in undesired display distortion. For example, when the wireless charging structure is working, the interference signal will be coupled with the data line. The voltage of the data transmitted on the data line fluctuates, resulting in an abnormal display in the form of water ripples on the display screen. The improvement method generally adopted in the related art is to enhance the driving capability of the data line, so as to weaken the interference of the wireless charging signal, but this improvement method will bring about the problem of increased power consumption. In related technologies, a shielding structure will also be added in the display device to shield the interference signal displayed during wireless charging as much as possible. This improvement method will not only increase the structure of the display device, which is not conducive to the thinning of the module, but also the shielding effect It is not ideal either, as the interference signal generated during wireless charging will still have a certain degree of impact on the display.

因此，提供一种可以有效改善无线充电时显示屏受干扰，而出现水波纹的显示异常问题的同时，还可以避免影响显示设备本身的结构，避免增加设备功耗的显示装置及其驱动方法，是本领域技术人员亟待解决的技术问题。Therefore, to provide a display device and a driving method thereof that can effectively improve the problem of abnormal display of water ripples caused by interference of the display screen during wireless charging, and at the same time avoid affecting the structure of the display device itself and avoid increasing the power consumption of the device. It is a technical problem to be solved urgently by those skilled in the art.

发明内容Contents of the invention

有鉴于此，本发明提供了一种显示装置及其驱动方法，以在尽可能不增加显示设备本身结构和设备功耗的基础上，解决现有技术中的显示设备在无线充电时容易出现显示异常，显示效果不佳的问题。In view of this, the present invention provides a display device and its driving method to solve the problem that the display device in the prior art is prone to display problems during wireless charging without increasing the structure of the display device itself and the power consumption of the device as much as possible. Exception, a problem with poor display.

本发明公开了一种显示装置，包括：显示面板和无线充电组件，显示面板包括驱动电路和多个显示单元；驱动电路包括显示驱动电路和无线充电驱动电路，显示驱动电路与显示单元电连接，无线充电驱动电路与无线充电组件电连接；在第一时间段，显示驱动电路向显示单元提供显示驱动信号；在第二时间段，无线充电驱动电路向无线充电组件提供充电信号；第一时间段与第二时间段不交叠。The invention discloses a display device, comprising: a display panel and a wireless charging assembly, the display panel includes a driving circuit and a plurality of display units; the driving circuit includes a display driving circuit and a wireless charging driving circuit, the display driving circuit is electrically connected to the display unit, The wireless charging driving circuit is electrically connected to the wireless charging component; in the first time period, the display driving circuit provides a display driving signal to the display unit; in the second time period, the wireless charging driving circuit provides a charging signal to the wireless charging component; in the first time period Does not overlap with the second time period.

基于同一发明构思，本发明还公开了一种显示装置的驱动方法，该驱动方法用于驱动上述显示装置工作；该驱动方法中，显示装置的工作阶段至少包括第一时间段和第二时间段；在第一时间段，显示驱动电路向显示单元提供显示驱动信号，使得显示装置显示画面；在第二时间段，无线充电驱动电路向无线充电组件提供充电信号，使得显示装置充电；第一时间段与第二时间段不交叠。Based on the same inventive concept, the present invention also discloses a driving method of a display device, the driving method is used to drive the display device to work; in the driving method, the working phase of the display device includes at least a first time period and a second time period ; In the first time period, the display drive circuit provides a display drive signal to the display unit, so that the display device displays a picture; in the second time period, the wireless charging drive circuit provides a charging signal to the wireless charging component, so that the display device is charged; the first time period does not overlap with the second time period.

与现有技术相比，本发明提供的显示装置及其驱动方法，至少实现了如下的有益效果：Compared with the prior art, the display device and its driving method provided by the present invention at least achieve the following beneficial effects:

本发明提供的显示装置包括显示面板和无线充电组件，无线充电组件可以用于为显示面板提供充电续航功能，显示面板包括驱动电路和多个显示单元，驱动电路至少可以包括显示驱动电路和无线充电驱动电路，显示驱动电路与显示单元电连接，无线充电驱动电路与无线充电组件电连接，显示装置的工作阶段至少可以包括第一时间段和第二时间段，第一时间段可以理解为显示面板实现显示功能的驱动阶段，第二时间段可以理解为显示面板实现无线充电功能的充电阶段。本发明设置显示驱动电路向显示单元提供显示驱动信号的时间段与无线充电驱动电路向无线充电组件提供充电信号的时间段两者不交叠，从而可以避免无线充电组件在工作时对显示面板的显示效果产生干扰，进而能够避免发生无线充电脉冲信号与传输至数据线上的数据电压信号产生耦合，使得写入至数据线的数据电压信号出现波动的情况，且无需在显示装置中增设任意其他屏蔽结构，也无需增加设备功耗，仅仅通过驱动电路中显示驱动电路和无线充电驱动电路的简单的时序控制，即可避免显示画面出现水波纹的显示异常现象，可以有效提高显示装置的显示品质。The display device provided by the present invention includes a display panel and a wireless charging component. The wireless charging component can be used to provide a charging endurance function for the display panel. The display panel includes a driving circuit and a plurality of display units. The driving circuit can at least include a display driving circuit and wireless charging. The driving circuit, the display driving circuit is electrically connected to the display unit, the wireless charging driving circuit is electrically connected to the wireless charging component, and the working phase of the display device can include at least a first time period and a second time period. The first time period can be understood as a display panel In the driving stage for realizing the display function, the second time period can be understood as the charging stage for the display panel to realize the wireless charging function. In the present invention, the time period during which the display drive circuit provides the display drive signal to the display unit and the time period during which the wireless charging drive circuit provides the charging signal to the wireless charging component do not overlap, thereby avoiding damage to the display panel by the wireless charging component during operation. The display effect produces interference, thereby avoiding the coupling between the wireless charging pulse signal and the data voltage signal transmitted to the data line, so that the data voltage signal written to the data line fluctuates, and there is no need to add any other devices to the display device. The shielding structure does not need to increase the power consumption of the device. Only through the simple timing control of the display drive circuit and the wireless charging drive circuit in the drive circuit, the abnormal display phenomenon of water ripples on the display screen can be avoided, and the display quality of the display device can be effectively improved. .

当然，实施本发明的任一产品不必特定需要同时达到以上所述的所有技术效果。Of course, any product implementing the present invention does not necessarily need to achieve all the above-mentioned technical effects at the same time.

通过以下参照附图对本发明的示例性实施例的详细描述，本发明的其它特征及其优点将会变得清楚。Other features of the present invention and advantages thereof will become apparent from the following detailed description of exemplary embodiments of the present invention with reference to the accompanying drawings.

附图说明Description of drawings

被结合在说明书中并构成说明书的一部分的附图示出了本发明的实施例，并且连同其说明一起用于解释本发明的原理。The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention.

图1是本发明实施例提供的显示装置的一种平面结构示意图；FIG. 1 is a schematic plan view of a display device provided by an embodiment of the present invention;

图2是图1中的显示装置工作时的时序示意图；FIG. 2 is a schematic diagram of timing when the display device in FIG. 1 is working;

图3是本发明实施例提供的显示装置的另一种平面结构示意图；FIG. 3 is a schematic diagram of another planar structure of a display device provided by an embodiment of the present invention;

图4是图1中的显示装置工作时的另一种时序示意图；FIG. 4 is another schematic diagram of timing when the display device in FIG. 1 is working;

图5是本发明实施例提供的显示装置的另一种平面结构示意图；FIG. 5 is a schematic diagram of another planar structure of a display device provided by an embodiment of the present invention;

图6是图5中的显示装置工作时的时序示意图；FIG. 6 is a schematic diagram of timing when the display device in FIG. 5 is working;

图7是本发明实施例提供的显示装置的另一种平面结构示意图；FIG. 7 is a schematic diagram of another planar structure of a display device provided by an embodiment of the present invention;

图8是本发明实施例提供的显示装置的另一种平面结构示意图；FIG. 8 is a schematic diagram of another planar structure of a display device provided by an embodiment of the present invention;

图9是图8中A-A’向的剖面结构示意图；Fig. 9 is a schematic cross-sectional structure diagram of A-A' direction in Fig. 8;

图10是本发明实施例提供的显示装置的另一种平面结构示意图；FIG. 10 is a schematic diagram of another planar structure of a display device provided by an embodiment of the present invention;

图11是图10中的显示装置的剖面结构示意图；FIG. 11 is a schematic cross-sectional structural view of the display device in FIG. 10;

图12是本发明实施例提供的显示装置的另一种平面结构示意图；Fig. 12 is a schematic diagram of another planar structure of a display device provided by an embodiment of the present invention;

图13是图12中的显示装置的剖面结构示意图；FIG. 13 is a schematic cross-sectional structural view of the display device in FIG. 12;

图14是图1中的驱动电路分别时序控制单元和侦测单元的电连接结构示意图；14 is a schematic diagram of the electrical connection structure of the timing control unit and the detection unit of the driving circuit in FIG. 1;

图15是图14中选通开关的一种结构示意图；Fig. 15 is a kind of structural representation of strobe switch in Fig. 14;

图16是图14中选通开关的另一种结构示意图；Fig. 16 is another structural schematic view of the gating switch in Fig. 14;

图17是本发明实施例提供的显示装置的驱动方法的流程框图；FIG. 17 is a flowchart of a method for driving a display device according to an embodiment of the present invention;

图18是本发明实施例提供的显示装置的驱动方法的另一种流程框图。FIG. 18 is another flowchart of a driving method of a display device provided by an embodiment of the present invention.

具体实施方式Detailed ways

现在将参照附图来详细描述本发明的各种示例性实施例。应注意到：除非另外具体说明，否则在这些实施例中阐述的部件和步骤的相对布置、数字表达式和数值不限制本发明的范围。Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be noted that the relative arrangements of components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise.

以下对至少一个示例性实施例的描述实际上仅仅是说明性的，决不作为对本发明及其应用或使用的任何限制。The following description of at least one exemplary embodiment is merely illustrative in nature and in no way taken as limiting the invention, its application or uses.

对于相关领域普通技术人员已知的技术、方法和设备可能不作详细讨论，但在适当情况下，所述技术、方法和设备应当被视为说明书的一部分。Techniques, methods and devices known to those of ordinary skill in the relevant art may not be discussed in detail, but where appropriate, such techniques, methods and devices should be considered part of the description.

在这里示出和讨论的所有例子中，任何具体值应被解释为仅仅是示例性的，而不是作为限制。因此，示例性实施例的其它例子可以具有不同的值。In all examples shown and discussed herein, any specific values should be construed as exemplary only, and not as limitations. Therefore, other instances of the exemplary embodiment may have different values.

应注意到：相似的标号和字母在下面的附图中表示类似项，因此，一旦某一项在一个附图中被定义，则在随后的附图中不需要对其进行进一步讨论。It should be noted that like numerals and letters denote like items in the following figures, therefore, once an item is defined in one figure, it does not require further discussion in subsequent figures.

请参考图1和图2，图1是本发明实施例提供的显示装置的一种平面结构示意图，图2是图1中的显示装置工作时的时序示意图(可以理解的是，为了清楚示意本实施例中的无线充电组件的结构，图1进行了透明度填充)，本实施例提供的一种显示装置000，包括：显示面板00和无线充电组件20，显示面板00包括驱动电路30和多个显示单元10；Please refer to FIG. 1 and FIG. 2. FIG. 1 is a schematic plan view of a display device provided by an embodiment of the present invention, and FIG. 2 is a schematic diagram of the timing sequence of the display device in FIG. The structure of the wireless charging component in the embodiment, FIG. 1 is filled with transparency), adisplay device 000 provided in this embodiment includes: adisplay panel 00 and awireless charging component 20, and thedisplay panel 00 includes a drivingcircuit 30 and a plurality ofdisplay unit 10;

驱动电路30包括显示驱动电路301和无线充电驱动电路302，显示驱动电路301与显示单元10电连接，无线充电驱动电路302与无线充电组件20电连接；在第一时间段T1，显示驱动电路301向显示单元10提供显示驱动信号；在第二时间段T2，无线充电驱动电路302向无线充电组件20提供充电信号；The drivingcircuit 30 includes adisplay driving circuit 301 and a wireless chargingdriving circuit 302, thedisplay driving circuit 301 is electrically connected to thedisplay unit 10, and the wireless chargingdriving circuit 302 is electrically connected to thewireless charging component 20; in the first time period T1, thedisplay driving circuit 301 providing a display driving signal to thedisplay unit 10; in the second time period T2, the wireless chargingdriving circuit 302 provides a charging signal to thewireless charging component 20;

第一时间段T1与第二时间段T2不交叠。The first time period T1 does not overlap with the second time period T2.

具体而言，本实施例提供的显示装置000包括显示面板00和无线充电组件20，无线充电组件20可以用于为显示面板00提供充电续航功能，可选的，无线充电组件20可以为电感线圈的结构或者还可以为其他能够实现无线充电功能的结构，本实施例不作具体限定，无线充电组件20可以利用电感耦合效应，将能量传送至显示面板00，以便显示面板00使用接收到的能量供其本身使用，如利用无线充电组件20提供的电能进行显示。可选的，显示面板00可以为液晶显示面板、有机发光二极管显示面板或者微发光二极管显示面板等其他类型的显示面板，本实施例对于显示面板00的类型不作具体限定，具体实施时，可根据实际需求选择显示面板00的类型。可以理解的是，根据具体实施时选择的显示面板的类型，本实施例的显示面板00的具体结构可参考相关技术中相同类型的显示面板的结构进行理解，本实施例在此不作赘述。本实施例的显示面板00包括驱动电路30和多个显示单元10，可选的，驱动电路30的驱动信号可以均由驱动芯片或者柔性电路板(图中未示意)提供，通过将驱动芯片或者柔性电路板绑定于显示面板00上实现将驱动信号传输至驱动电路30，并通过驱动电路30与显示面板00的电连接、驱动电路30与无线充电组件20的电连接，将驱动芯片或者柔性电路板提供的驱动信号分别传输至显示面板00的显示单元10或者传输至无线充电组件20。本实施例提供的驱动电路30至少可以包括显示驱动电路301和无线充电驱动电路302，显示驱动电路301与显示单元10电连接，可选的，显示单元10可以理解为显示面板00的子像素，不同颜色的显示单元10(图中以不同填充图案填充)可以通过显示驱动电路301提供的驱动信号实现显示面板00所需显示的画面，可选的，本实施例的显示面板00可以为有机发光二极管显示面板，显示单元10可以包括电连接的像素电路和有机发光二极管(图1中以框图表示整个显示单元10，具体实施时，显示单元10的结构可以根据实际需求设置)，像素电路用于提供驱动电流驱动有机发光二极管发光，以实现显示装置000的显示效果。显示驱动电路301可以为扫描驱动电路或者数据驱动电路中的任一种，本实施例的图1中仅是以显示驱动电路301为数据驱动电路为例进行示例说明。显示驱动电路301可以通过数据线S实现与显示面板00中的显示单元10的电连接，通过显示驱动电路301可以为各个显示单元10提供数据电压信号。或者在其他实施例中，如图3所示，图3是本发明实施例提供的显示装置的另一种平面结构示意图(可以理解的是，为了清楚示意本实施例中的无线充电组件的结构，图3进行了透明度填充)，显示面板00可以包括多条扫描线G和多条数据线S，扫描线G和数据线S交叉绝缘限定出显示单元10所在区域；显示驱动电路301包括扫描驱动电路30A和数据驱动电路30B；扫描驱动电路30A通过扫描线G与显示单元10电连接，数据驱动电路30B通过数据线S与显示单元10电连接(图中未示意电连接关系，可以理解的是，扫描线G、数据线S与显示单元10可以通过薄膜晶体管实现电连接，具体可参考相关技术中显示面板的结构进行理解，本实施例在此不作赘述)。即显示驱动电路301还可以为扫描驱动电路30A，显示驱动电路301可以通过扫描线G实现与显示面板00中的显示单元10的电连接，通过显示驱动电路301可以为各个显示单元10提供扫描驱动信号，在扫描驱动信号的控制下使得数据电压信号能够传输至不同的显示单元10，实现显示面板00的显示功能。可以理解的是，扫描线G和数据线S交叉绝缘限定出的区域即为显示单元10所在区域，本实施例对于显示驱动电路301实现显示效果的工作原理不作赘述，具体实施时，可参考相关技术中显示面板的工作原理进行理解。Specifically, thedisplay device 000 provided in this embodiment includes adisplay panel 00 and awireless charging component 20. Thewireless charging component 20 can be used to provide thedisplay panel 00 with a charging endurance function. Optionally, thewireless charging component 20 can be an inductive coil structure or other structures capable of realizing the wireless charging function, which is not specifically limited in this embodiment, thewireless charging component 20 can use the inductive coupling effect to transmit energy to thedisplay panel 00, so that thedisplay panel 00 uses the received energy for power supply. It itself uses, for example, utilizes the electric energy provided by thewireless charging component 20 to display. Optionally, thedisplay panel 00 may be other types of display panels such as a liquid crystal display panel, an organic light-emitting diode display panel, or a micro-light-emitting diode display panel. This embodiment does not specifically limit the type of thedisplay panel 00. Select the type ofdisplay panel 00 according to actual requirements. It can be understood that, according to the type of display panel selected during specific implementation, the specific structure of thedisplay panel 00 in this embodiment can be understood by referring to the structure of the same type of display panel in the related art, and this embodiment will not be repeated here. Thedisplay panel 00 of this embodiment includes a drivingcircuit 30 and a plurality ofdisplay units 10. Optionally, the driving signals of the drivingcircuit 30 can be provided by a driving chip or a flexible circuit board (not shown in the figure). The flexible circuit board is bound to thedisplay panel 00 to transmit the driving signal to the drivingcircuit 30, and through the electrical connection between the drivingcircuit 30 and thedisplay panel 00, and the electrical connection between the drivingcircuit 30 and thewireless charging component 20, the driving chip or flexible The driving signals provided by the circuit board are respectively transmitted to thedisplay unit 10 of thedisplay panel 00 or to thewireless charging component 20 . The drivingcircuit 30 provided in this embodiment may at least include adisplay driving circuit 301 and a wireless chargingdriving circuit 302. Thedisplay driving circuit 301 is electrically connected to thedisplay unit 10. Optionally, thedisplay unit 10 can be understood as a sub-pixel of thedisplay panel 00. Thedisplay units 10 of different colors (filled with different filling patterns in the figure) can realize the picture displayed by thedisplay panel 00 through the driving signal provided by thedisplay driving circuit 301. Optionally, thedisplay panel 00 of this embodiment can be organic light emitting Diode display panel, thedisplay unit 10 can include electrically connected pixel circuits and organic light emitting diodes (theentire display unit 10 is shown in a block diagram in Figure 1, and the structure of thedisplay unit 10 can be set according to actual needs during specific implementation), and the pixel circuits are used for The driving current is provided to drive the organic light emitting diode to emit light, so as to realize the display effect of thedisplay device 000 . Thedisplay driving circuit 301 may be any one of a scanning driving circuit or a data driving circuit, and FIG. 1 of this embodiment only uses thedisplay driving circuit 301 as a data driving circuit as an example for illustration. Thedisplay driving circuit 301 can be electrically connected to thedisplay units 10 in thedisplay panel 00 through the data lines S, and can provide data voltage signals for eachdisplay unit 10 through thedisplay driving circuit 301 . Or in other embodiments, as shown in FIG. 3, FIG. 3 is a schematic diagram of another planar structure of a display device provided by an embodiment of the present invention (it can be understood that in order to clearly illustrate the structure of the wireless charging component in this embodiment , Figure 3 has been filled with transparency), thedisplay panel 00 may include a plurality of scan lines G and a plurality of data lines S, the scan lines G and data lines S are cross-insulated to define the area where thedisplay unit 10 is located; thedisplay drive circuit 301 includes ascan drive Circuit 30A and data drivecircuit 30B; scandrive circuit 30A is electrically connected to displayunit 10 through scan line G, and data drivecircuit 30B is electrically connected to displayunit 10 through data line S (the electrical connection relationship is not shown in the figure, it can be understood that , the scan line G, the data line S and thedisplay unit 10 can be electrically connected through thin film transistors, which can be understood with reference to the structure of the display panel in the related art, and will not be described in detail in this embodiment). That is, thedisplay driving circuit 301 can also be ascanning driving circuit 30A, and thedisplay driving circuit 301 can be electrically connected to thedisplay units 10 in thedisplay panel 00 through the scanning lines G, and can provide scanning driving for eachdisplay unit 10 through thedisplay driving circuit 301. Under the control of the scan driving signal, the data voltage signal can be transmitted todifferent display units 10 to realize the display function of thedisplay panel 00 . It can be understood that the area defined by the cross insulation of the scanning line G and the data line S is the area where thedisplay unit 10 is located. In this embodiment, the working principle of thedisplay driving circuit 301 to achieve the display effect is not described in detail. For specific implementation, please refer to the relevant Understand the working principle of the display panel in the technology.

本实施例的无线充电驱动电路302与无线充电组件20电连接，无线充电驱动电路302的无线充电信号可以由驱动芯片或者柔性电路板提供，可选的，无线充电驱动电路302可以设置在显示面板00的任意非显示区范围内，如图1和图3示意的设置在有显示驱动电路301的空间较大的台阶区等，还可以设置在其他位置，本实施例对于无线充电驱动电路302的设置位置不作具体限定，只需满足无线充电驱动电路302与无线充电组件20电连接，可以通过无线充电驱动电路302将驱动芯片或者柔性电路板提供的无线充电信号传输至无线充电组件20，控制无线充电组件20为显示装置000提供充电功能即可。The wireless chargingdriving circuit 302 of this embodiment is electrically connected to thewireless charging component 20, and the wireless charging signal of the wireless chargingdriving circuit 302 can be provided by a driving chip or a flexible circuit board. Optionally, the wireless chargingdriving circuit 302 can be arranged on adisplay panel 00 within any non-display area, as shown in Figure 1 and Figure 3, it is set in a step area with a large space for thedisplay drive circuit 301, etc., and it can also be set in other positions. The setting position is not specifically limited, as long as the wireless chargingdriving circuit 302 is electrically connected to thewireless charging component 20, the wireless charging signal provided by the driving chip or the flexible circuit board can be transmitted to thewireless charging component 20 through the wireless chargingdriving circuit 302 to control thewireless charging component 20. The chargingcomponent 20 only needs to provide a charging function for thedisplay device 000 .

结合图1-图3所示，本实施例的显示装置000的工作阶段至少可以包括第一时间段T1和第二时间段T2，其中在第一时间段T1，显示驱动电路301向显示单元10提供显示驱动信号，即第一时间段T1可以理解为显示面板00实现显示功能的驱动阶段，当显示驱动电路301为数据驱动电路时，显示驱动电路301向显示单元10提供的显示驱动信号即为数据电压信号V_Data，可选的，如图1和图2所示，在第一时间段T1，多条数据线(S1、S2、S3……Sn-1、Sn)可以逐条与数据驱动电路导通连接，也可以同时多条与数据驱动电路导通连接(该导通控制可以通过多路选择电路控制，具体可参考相关技术中数据驱动电路与数据线的连接结构进行理解，本实施例在此不作赘述)；可选的，如图3所示，当显示驱动电路301为扫描驱动电路时，显示驱动电路301向显示单元10提供的显示驱动信号即为扫描驱动信号，如扫描驱动电路包括多个级联的移位寄存器，扫描驱动信号可以为提供至移位寄存器的起始移位信号V_STV，或者扫描驱动信号也可以为其他能够使得扫描驱动电路正常工作的驱动信号(未附图示意)，本实施例不作具体限定。可选的，在第一时间段T1，无线充电驱动电路302可以仅输出对显示画面无干扰的基波信号。在第二时间段T2，无线充电驱动电路302向无线充电组件20提供充电信号，即第二时间段T2可以理解为显示面板00实现无线充电功能的充电阶段，在该第二时间段，通过无线充电驱动电路302将无线充电信号如无线充电脉冲信号V_WS传输至无线充电组件20，控制无线充电组件20开始工作为显示装置000提供充电功能。本实施例设置第一时间段T1与第二时间段T2不交叠，即设置显示驱动电路301向显示单元10提供显示驱动信号的时间段与无线充电驱动电路302向无线充电组件20提供充电信号的时间段两者不交叠，比如在显示驱动电路301为数据驱动电路时，显示驱动电路301向显示单元10提供数据电压信号后，增加了第二时间段T2，在该第二时间段T2内，显示驱动电路301(数据驱动电路)停止向显示单元10提供数据电压信号V_Data，或者，在该第二时间段T2内，显示驱动电路301(扫描驱动电路)停止向显示单元10提供起始移位信号V_STV，仅有无线充电驱动电路302将无线充电信号如无线充电脉冲信号V_WS传输至无线充电组件20，使得无线充电信号传输至显示面板00的时间完全位于显示驱动电路301向显示单元10提供数据电压信号或移位信号的时间之外，从而可以避免无线充电组件20在工作时对显示面板00的显示效果产生干扰，进而能够避免发生无线充电脉冲信号与传输至数据线S上的数据电压信号产生耦合，使得写入至数据线S的数据电压信号出现波动的情况，且无需在显示装置000中增设任意其他屏蔽结构，也无需增加设备功耗，仅仅通过驱动电路30中显示驱动电路301和无线充电驱动电路302的简单的时序控制，即可避免显示画面出现水波纹的显示异常现象，可以有效提高显示装置的显示品质。As shown in FIGS. 1-3 , the working phase of thedisplay device 000 of this embodiment may at least include a first time period T1 and a second time period T2, wherein in the first time period T1, thedisplay driving circuit 301 sends a signal to thedisplay unit 10 Providing a display driving signal, that is, the first time period T1 can be understood as the driving stage for thedisplay panel 00 to realize the display function. When thedisplay driving circuit 301 is a data driving circuit, the display driving signal provided by thedisplay driving circuit 301 to thedisplay unit 10 is The data voltage signal V_Data is optional. As shown in FIG. 1 and FIG. 2, in the first time period T1, multiple data lines (S1, S2, S3...Sn-1, Sn) can be connected to the data driving circuit one by one conduction connection, or multiple conduction connections with the data drive circuit at the same time (the conduction control can be controlled by a multiplex circuit, for details, refer to the connection structure between the data drive circuit and the data line in the related art for understanding, this embodiment No further details here); optionally, as shown in FIG. 3, when thedisplay driving circuit 301 is a scanning driving circuit, the display driving signal provided by thedisplay driving circuit 301 to thedisplay unit 10 is a scanning driving signal, such as the scanning driving circuit Including multiple cascaded shift registers, the scan driving signal can be the start shift signal V_STV provided to the shift register, or the scan driving signal can also be other driving signals that can make the scan driving circuit work normally (not attached Figure schematically), this embodiment is not specifically limited. Optionally, during the first time period T1, the wireless chargingdriving circuit 302 may only output fundamental wave signals that do not interfere with the display screen. In the second time period T2, the wireless chargingdrive circuit 302 provides a charging signal to thewireless charging component 20, that is, the second time period T2 can be understood as a charging stage in which thedisplay panel 00 realizes the wireless charging function. The chargingdriving circuit 302 transmits a wireless charging signal such as a wireless charging pulse signal V_WS to thewireless charging component 20 , and controls thewireless charging component 20 to start working to provide a charging function for thedisplay device 000 . In this embodiment, the first time period T1 and the second time period T2 are not overlapped, that is, the time period in which thedisplay driving circuit 301 provides the display driving signal to thedisplay unit 10 and the time period in which the wireless chargingdriving circuit 302 provides the charging signal to thewireless charging component 20 are set. The two time periods do not overlap. For example, when thedisplay driving circuit 301 is a data driving circuit, after thedisplay driving circuit 301 provides the data voltage signal to thedisplay unit 10, a second time period T2 is added. In the second time period T2 Within the second time period T2, the display driving circuit 301 (data driving circuit) stops supplying the data voltage signal V_Data to the display unit 10, or, within the second time period T2, the display driving circuit 301 (scanning driving circuit) stops supplying the display unit 10 from start shifting signal V_STV , only the wireless charging driving circuit 302 transmits the wireless charging signal such as the wireless charging pulse signal V_WS to the wireless charging component 20 , so that the time for the wireless charging signal to be transmitted to the display panel 00 is completely within the direction of the display driving circuit 301 The display unit 10 provides the data voltage signal or shift signal outside the time, so as to prevent the wireless charging component 20 from interfering with the display effect of the display panel 00 during operation, thereby preventing the wireless charging pulse signal from being transmitted to the data line S The coupling of the data voltage signal on the data line S causes the data voltage signal written to the data line S to fluctuate, and there is no need to add any other shielding structure in the display device 000, and there is no need to increase the power consumption of the device, only through the drive circuit 30 The simple timing control of the display driving circuit 301 and the wireless charging driving circuit 302 can avoid the abnormal display phenomenon of water ripples on the display screen, and can effectively improve the display quality of the display device.

需要说明的是，本实施例对于无线充电组件20的设置位置和设置结构不作具体限定，图1中仅以方框示意无线充电组件20，并不表示无线充电组件20的实际结构，具体实施时，无线充电组件20的设置位置可以为图1示意的设置于显示面板00的一侧(如显示面板00的背光侧)，并通过在显示面板00的膜层结构中打孔实现与显示面板00另一侧的无线充电驱动电路302的电连接，或者还可以为其他设置结构，本实施例的图1仅是举例示意两者的电连接关系，并不表示实际设置结构。It should be noted that this embodiment does not specifically limit the location and structure of thewireless charging component 20. In FIG. The installation position of thewireless charging component 20 can be arranged on one side of the display panel 00 (such as the backlight side of the display panel 00) as shown in FIG. The electrical connection of the wireless chargingdriving circuit 302 on the other side may also be other configuration structures. FIG. 1 of this embodiment is only an example to illustrate the electrical connection relationship between the two, and does not represent the actual configuration structure.

可以理解的是，本实施例的图1和图3仅是以框图示意驱动电路30中的显示驱动电路301和无线充电驱动电路302，并不表示驱动电路30的实际设计结构，驱动电路30中可以包括晶体管或者电容等电性连接结构，用以实现驱动信号的提供和传输，本实施例对此不作具体限定，具体实施时，可参考相关技术中显示驱动电路301和无线充电驱动电路302的结构进行理解，本实施例的显示驱动电路301仅需满足可以实现为显示单元10提供显示驱动信号，实现显示面板00的显示效果，无线充电驱动电路302可以实现为无线充电组件20提供充电信号，实现为显示装置充电即可。It can be understood that FIG. 1 and FIG. 3 of this embodiment are only block diagrams illustrating thedisplay driving circuit 301 and the wireless chargingdriving circuit 302 in the drivingcircuit 30, and do not represent the actual design structure of the drivingcircuit 30. In the drivingcircuit 30 It may include electrical connection structures such as transistors or capacitors to realize the supply and transmission of driving signals, which is not specifically limited in this embodiment. For specific implementation, please refer to the description of thedisplay driving circuit 301 and the wireless chargingdriving circuit 302 in the related art. To understand the structure, thedisplay drive circuit 301 of this embodiment only needs to be able to provide a display drive signal for thedisplay unit 10 to achieve the display effect of thedisplay panel 00, and the wireless chargingdrive circuit 302 can provide a charging signal for thewireless charging component 20, It only needs to implement charging for the display device.

在一些可选实施例中，请结合参考图1和图4，图4是图1中的显示装置工作时的另一种时序示意图，本实施例中，第一时间段T1为一帧时间，第二时间段T2位于相邻两帧时间之间。In some optional embodiments, please refer to FIG. 1 and FIG. 4 in conjunction. FIG. 4 is another schematic diagram of timing when the display device in FIG. 1 is working. In this embodiment, the first time period T1 is one frame time. The second time period T2 is located between two adjacent frame times.

本实施例解释说明了仅有显示驱动电路301向显示单元10提供的显示驱动信号，而无线充电驱动电路302停止向无线充电组件20提供充电信号的第一时间段T1可以为一帧时间，即1个Frame，一帧指一幅静止的画面，一帧时间指的是完成一幅静止的画面显示所需的时间，本实施例中可以理解为在一帧时间内，扫描驱动电路完成对每一条扫描线G的开启，逐行打开每一行显示单元10，数据驱动电路完成将数据电压信号写入至每一条数据线S，并通过数据线S传输至各个显示单元10的过程，将第二时间段T2位于相邻两帧时间之间，例如第一帧显示画面完成后再进入第二时间段T2的无线充电工作，待第二时间段T2的无线充电工作完成后再进入第二帧显示画面。假设本实施例的显示装置000的显示面板00包括100行显示单元10，在第一帧(1Frame)时，扫描驱动电路完成对所有扫描线G的开启，逐行打开100行中的每一行显示单元10，并通过数据驱动电路完成将数据电压信号写入至每一条数据线S，数据线S将数据电压信号传输至该100行显示单元10后，第一帧(1Frame)画面刷新完成，等待一段时间，例如等待扫描50行显示单元10的时间，该时间即为第二时间段T2(相当于增加了一个保持帧Hold Frame的时间)，无线充电驱动电路302仅在该第二时间段T2向无线充电组件20提供充电信号，用于无线充电，在该第二时间段T2，扫描驱动电路或者数据驱动电路的显示驱动电路301停止向显示单元10提供显示驱动信号，待第二时间段T2完成后，再继续第二帧(2Frame)，显示下一帧的画面，依次类推。本实施例将无线充电驱动电路302向无线充电组件20提供充电信号的充电时间段设置在相邻两帧画面之间，从而可以较好的避开显示时间段，使得显示驱动电路301向显示单元10提供的显示驱动信号的时间段与无线充电驱动电路302向无线充电组件20提供充电信号的充电时间段完全不交叠，不仅可以更好的避免无线充电组件20在工作时对显示面板00的显示效果产生干扰，而且还无需改变显示面板00本身设置的一帧的驱动时序，仅需在相邻两帧时间之间增设等待停顿的时间用于无线充电即可，对显示装置000的驱动时序改变较小，有利于提高制程效率，节约成本。This embodiment explains that only thedisplay driving circuit 301 provides the display driving signal to thedisplay unit 10, and the first time period T1 during which the wireless chargingdriving circuit 302 stops providing the charging signal to thewireless charging component 20 may be one frame time, namely 1 Frame, one frame refers to a still picture, and one frame time refers to the time required to complete the display of a still picture. In this embodiment, it can be understood that within one frame time, the scan drive circuit completes the When one scan line G is turned on, each row ofdisplay units 10 is turned on row by row, and the data drive circuit completes the process of writing the data voltage signal into each data line S and transmitting it to eachdisplay unit 10 through the data line S, and the second The time period T2 is located between two adjacent frames. For example, after the first frame display is completed, it will enter the wireless charging work of the second time period T2, and then enter the second frame display after the wireless charging work of the second time period T2 is completed. screen. Assuming that thedisplay panel 00 of thedisplay device 000 of this embodiment includes 100 rows ofdisplay units 10, in the first frame (1Frame), the scanning drive circuit completes the opening of all scanning lines G, and turns on each row of the 100 rows to displayUnit 10, and write the data voltage signal to each data line S through the data drive circuit, after the data line S transmits the data voltage signal to the 100-row display unit 10, the refresh of the first frame (1Frame) is completed, waiting for For a period of time, such as waiting for the time to scan 50 rows ofdisplay units 10, this time is the second time period T2 (equivalent to the time of adding a hold frame Hold Frame), the wireless chargingdrive circuit 302 is only in the second time period T2 Provide a charging signal to thewireless charging component 20 for wireless charging. In the second time period T2, thedisplay driving circuit 301 of the scan driving circuit or the data driving circuit stops providing the display driving signal to thedisplay unit 10, and waits until the second time period T2 After completion, continue to the second frame (2Frame), display the picture of the next frame, and so on. In this embodiment, the charging time period for the wireless chargingdriving circuit 302 to provide the charging signal to thewireless charging component 20 is set between two adjacent frames of pictures, so that the display time period can be better avoided, so that thedisplay driving circuit 301 can provide a charging signal to thedisplay unit 20. The time period of the display driving signal provided by 10 does not overlap with the charging time period during which the wireless chargingdriving circuit 302 provides the charging signal to thewireless charging component 20. The display effect is disturbed, and there is no need to change the driving sequence of one frame set by thedisplay panel 00 itself. It is only necessary to add a waiting time between two adjacent frames for wireless charging. The driving sequence of thedisplay device 000 Small changes are beneficial to improve process efficiency and save costs.

在一些可选实施例中，请结合参考图5和图6，图5是本发明实施例提供的显示装置的另一种平面结构示意图(可以理解的是，为了清楚示意本实施例中的无线充电组件的结构，图5进行了透明度填充)，图6是图5中的显示装置工作时的时序示意图，本实施例中，显示面板00包括显示区AA，在一帧时间T_F内，显示区AA包括有效画面显示区域AA1和非有效画面显示区域AA2；一帧时间T_F包括非有效画面显示时间段T_F2和有效画面显示时间段T_F1；In some optional embodiments, please refer to FIG. 5 and FIG. 6 in conjunction. FIG. 5 is a schematic diagram of another planar structure of a display device provided by an embodiment of the present invention (it can be understood that in order to clearly illustrate the wireless The structure of the charging assembly, Figure 5 has been filled with transparency), Figure 6 is a schematic diagram of the timing of the display device in Figure 5 when it is working, in this embodiment, thedisplay panel 00 includes a display area AA, and within one frame time_TF , display Area AA includes active picture display area AA1 and non-effective picture display area AA2; one frame time T_F includes non-effective picture display time period T_F2 and effective picture display time period T_F1 ;

第一时间段T1与有效画面显示时间段T_F1交叠，第二时间段T2与非有效画面显示时间段T_F2交叠。The first time period T1 overlaps with the effective picture display time period T_F1 , and the second time period T2 overlaps with the non-active picture display time period T_F2 .

可选的，如图5所示，多个显示单元10沿第一方向X依次排列形成一个显示单元行10H，多个显示单元行10H沿第二方向Y排列；其中，第一方向X和第二方向Y相交；可以理解的是，本实施例中以第一方向X和第二方向Y在显示装置000出光面的方向上相互垂直为例进行示例说明。Optionally, as shown in FIG. 5 , a plurality ofdisplay units 10 are sequentially arranged along the first direction X to form adisplay unit row 10H, and a plurality ofdisplay unit rows 10H are arranged along the second direction Y; wherein, the first direction X and the second direction The two directions Y intersect; it can be understood that in this embodiment, the first direction X and the second direction Y are perpendicular to each other in the direction of the light-emitting surface of thedisplay device 000 as an example for illustration.

在非有效画面显示时间段T_F2内，显示驱动电路301至少向第n个显示单元行10H不提供显示驱动信号，第n个显示单元行10H所在区域为非有效画面显示区域AA2。或者在非有效画面显示时间段T_F2内，显示驱动电路301可以向多个显示单元行10H不提供显示驱动信号，即显示驱动电路301可以向第1-n个显示单元行10H不提供显示驱动信号，第1-n个显示单元行10H所在区域为非有效画面显示区域AA2，其中n可以为小于显示面板00包括的显示单元行10H总行数的任意正整数，，本实施例对此不作限定。During the non-active picture display period T_F2 , thedisplay driving circuit 301 does not provide a display driving signal to at least the nthdisplay unit row 10H, and the area where the nthdisplay unit row 10H is located is the non-active picture display area AA2 . Or in the non-effective picture display time period_TF2 , thedisplay driving circuit 301 may not provide display driving signals to a plurality ofdisplay unit rows 10H, that is, thedisplay driving circuit 301 may not provide display driving signals to the 1-nthdisplay unit rows 10H. signal, the area where the 1-nthdisplay unit row 10H is located is the non-effective picture display area AA2, where n can be any positive integer that is less than the total number ofdisplay unit rows 10H included in thedisplay panel 00, and this embodiment does not limit it .

本实施例解释说明了显示驱动电路301向显示单元10提供的显示驱动信号的第一时间段T1和无线充电驱动电路302向无线充电组件20提供充电信号的第二时间段T2可以位于一帧时间T_F内，一帧时间T_F即1个Frame，一帧指一幅静止的画面，一帧时间T_F指的是完成一幅静止的画面显示所需的时间，本实施例中可以理解为在一帧时间T_F内，扫描驱动电路完成对每一条扫描线G的开启，逐行打开每一行显示单元10，数据驱动电路完成将数据电压信号写入至每一条数据线S，并通过数据线S传输至各个显示单元10的过程。一帧画面显示过程中，可以设置显示面板00的显示区AA包括至少一个有效画面显示区域AA1和至少一个非有效画面显示区域AA2，其中有效画面显示区域AA1可以理解为该区域的各个显示单元10写入了显示驱动信号后显示有实质性画面的区域，如必要的时间日期等信号，非有效画面显示区域AA2可以理解为为了节省显示面板00的驱动功耗，在一些非必要的显示区AA范围内，各个显示单元10未写入显示驱动信号的不具有实质性画面的区域，如黑画面的非有效画面显示区域AA2。在一些其他实施例中，若显示装置000处于节省功耗的状态时或者半休眠状态时，仅有图5所示的有效画面显示区域AA1(比如显示面板00中的第1-50行的显示单元10所在区域)显示有供用户查看的时间或天气信息等，其余非有效画面显示区域AA2(比如显示面板00中的第51-100行的显示单元10所在区域)处于黑画面状态，则此时显示驱动电路301扫描第1-50行的显示单元10所在区域的时间段即为第一时间段T1，在该第一时间段T1(有效画面显示时间段T_F1)内，显示驱动电路301仅对该区域的第1-50行的显示单元10写入显示驱动信号，使得有效画面显示区域AA1可以显示时间或天气信息等；而在其他需要为黑画面的非有效画面显示区域AA2，显示驱动电路301则未对第51-100行的显示单元10写入显示驱动信号，则本实施例可以利用该非有效画面显示时间段T_F2，使得无线充电驱动电路302向无线充电组件20提供充电信号的第二时间段T2与该非有效画面显示时间段T_F2交叠，从而不仅可以更好的避免无线充电组件20在工作时对显示面板00的显示效果产生干扰，而且还无需在两帧时间之间另外增设第二时间段T2用于无线充电，避免第二时间段T2占用两帧之间的时间过多，有利于减少显示装置000的整体驱动周期的耗时，避免在连续帧画面显示时增加显示时间。This embodiment explains that the first time period T1 of the display driving signal provided by thedisplay driving circuit 301 to thedisplay unit 10 and the second time period T2 of the wireless chargingdriving circuit 302 providing the charging signal to thewireless charging component 20 can be within one frame time In_TF , a frame time_TF is 1 Frame, a frame refers to a still picture, and a frame time_TF refers to the time required to complete the display of a still picture, which can be understood in this embodiment as Within one frame time_TF , the scan drive circuit completes the turn-on of each scan line G, turns on each row ofdisplay units 10 row by row, and the data drive circuit completes writing the data voltage signal into each data line S, and passes the data The process of transmitting the line S to eachdisplay unit 10. In the process of displaying a frame of pictures, the display area AA of thedisplay panel 00 can be set to include at least one active picture display area AA1 and at least one non-active picture display area AA2, wherein the active picture display area AA1 can be understood as eachdisplay unit 10 of this area After the display driving signal is written, the area with a substantial picture is displayed, such as necessary signals such as time and date, and the non-effective picture display area AA2 can be understood as in order to save the driving power consumption of thedisplay panel 00, in some non-essential display areas AA Within the range, eachdisplay unit 10 does not write a display driving signal into an area without a substantive image, such as the non-effective image display area AA2 of a black image. In some other embodiments, if thedisplay device 000 is in a power saving state or a semi-sleep state, only the active image display area AA1 shown in FIG. The area where the unit 10 is located) displays time or weather information for the user to view, and the rest of the non-effective picture display area AA2 (such as the area where the display unit 10 is located in the 51-100 rows in the display panel 00) is in a black picture state, then this The time period during which the display driving circuit 301 scans the area where the display unit 10 of the 1st to 50th row is located is the first time period T1, and in the first time period T1 (effective picture display time period T_F1 ), the display driving circuit 301 Only write the display drive signal to the display unit 10 in the 1st-50th row of the area, so that the effective picture display area AA1 can display time or weather information, etc.; The driving circuit 301 does not write display driving signals to the display units 10 in rows 51-100, so this embodiment can use the non-effective screen display time period T_F2 to make the wireless charging driving circuit 302 provide charging for the wireless charging component 20 The second time period T2 of the signal overlaps with the non-effective picture display time period T_F2 , so that not only can better prevent the wireless charging component 20 from interfering with the display effect of the display panel 00 when it is working, but also it does not need to be in two frames In addition, a second time period T2 is added between the times for wireless charging, so as to prevent the second time period T2 from occupying too much time between two frames, which is beneficial to reduce the time consumption of the overall driving cycle of the display device 000, and avoid continuous frame pictures Increase display time when displayed.

可以理解的是，本实施例仅是举例说明显示面板00在一帧时间内可以包括的有效画面显示区域AA1和非有效画面显示区域AA2，具体实施时，有效画面显示区域AA1和非有效画面显示区域AA2的选择位置还可以为其他方式，如显示区AA中可以包括多个有效画面显示区域AA1和多个非有效画面显示区域AA2等，此时可以利用所有的非有效画面显示区域AA2的非有效画面显示时间段T_F2，实现无线充电功能，具体实施时，可根据显示装置的实际显示需求设置第二时间段T2的选择时机，或者还可以通过在显示装置000中设置侦测单元用以侦测显示驱动电路301停止向显示单元10提供显示驱动信号的时间，一旦侦测单元侦测到某一时间段内显示驱动电路301未向显示单元10提供显示驱动信号，则立刻进入无线充电驱动电路302向无线充电组件20提供充电信号的第二时间段T2，或者还可以为其他设置方式，本实施例在此不作限定。It can be understood that this embodiment is only an example to illustrate the active picture display area AA1 and the non-active picture display area AA2 that thedisplay panel 00 can include within one frame time. The selection position of the area AA2 can also be in other ways, as the display area AA can include a plurality of effective picture display areas AA1 and a plurality of non-effective picture display areas AA2, etc., at this time, all non-effective picture display areas AA2 can be used. The effective screen display time period T_F2 realizes the wireless charging function. During specific implementation, the selection timing of the second time period T2 can be set according to the actual display requirements of the display device, or the detection unit can be set in thedisplay device 000 for Detect the time when thedisplay drive circuit 301 stops providing the display drive signal to thedisplay unit 10. Once the detection unit detects that thedisplay drive circuit 301 does not provide the display drive signal to thedisplay unit 10 within a certain period of time, it immediately enters into the wireless charging drive. The second time period T2 during which thecircuit 302 provides the charging signal to thewireless charging component 20 may also be set in other ways, which are not limited in this embodiment.

在一些可选实施例中，请参考图7和图8，图7是本发明实施例提供的显示装置的另一种平面结构示意图，图8是本发明实施例提供的显示装置的另一种平面结构示意图(可以理解的是，为了清楚示意本实施例中的无线充电组件的结构，图7和图8进行了透明度填充)，本实施例中，无线充电组件20包括无线充电线圈201和连接引线202；无线充电线圈201通过连接引线202与无线充电驱动电路302电连接。In some optional embodiments, please refer to FIG. 7 and FIG. 8, FIG. 7 is another schematic plan view of the display device provided by the embodiment of the present invention, and FIG. 8 is another schematic view of the display device provided by the embodiment of the present invention. Schematic diagram of the plane structure (it can be understood that in order to clearly illustrate the structure of the wireless charging assembly in this embodiment, FIGS. 7 and 8 are filled with transparency), in this embodiment, thewireless charging assembly 20 includes awireless charging coil 201 and a connection Thelead wire 202 ; thewireless charging coil 201 is electrically connected to the wireless chargingdriving circuit 302 through the connectinglead wire 202 .

本实施例解释说明了无线充电组件20可以包括至少一个无线充电线圈201和与无线充电线圈201的输入端和输出端分别连接的连接引线202，无线充电线圈201通过连接引线202与无线充电驱动电路302电连接，无线充电线圈201采用的充电原理是利用电磁感应原理进行充电，通过无线充电驱动电路302为无线充电线圈201发送无线充电脉冲信号，无线充电线圈201产生电磁信号并感应电磁信号，产生电流给显示装置000本身包括的电池组件。This embodiment explains that thewireless charging assembly 20 may include at least onewireless charging coil 201 and connectingleads 202 respectively connected to the input end and the output end of thewireless charging coil 201, and thewireless charging coil 201 is connected to the wireless charging driving circuit through the connectinglead 202 302 is electrically connected. The charging principle adopted by thewireless charging coil 201 is to use the principle of electromagnetic induction for charging. The wireless chargingdrive circuit 302 sends a wireless charging pulse signal to thewireless charging coil 201. Thewireless charging coil 201 generates and induces electromagnetic signals to generate The current is supplied to the battery pack included in thedisplay device 000 itself.

可选的，如图7所示，本实施例中的无线充电线圈201可以设置与显示区AA外围的非显示区NA范围内，即无线充电线圈201可以为矩形螺旋状或者圆形线圈、椭圆形线圈等其他形状的线圈围绕在显示区AA外围的非显示区NA范围内，以避免无线充电线圈201影响显示区AA的显示效果；可选的，如图8所示，无线充电线圈201可以部分位于非显示区NA范围内，部分位于显示区AA范围内，由于本实施例中的无线充电的第二时间段T2与显示的第一时间段T1不交叠，因此即使将部分无线充电线圈201设置于显示区AA范围内，也可以避免无线充电信号对显示区AA显示画面的干扰，进而有利于尽可能增加无线充电线圈201的绕圈圈数，有利于增强无线充电效率。Optionally, as shown in FIG. 7, thewireless charging coil 201 in this embodiment can be set within the range of the non-display area NA around the display area AA, that is, thewireless charging coil 201 can be a rectangular spiral or a circular coil, an ellipse Coils of other shapes, such as coils, surround the non-display area NA outside the display area AA, so as to prevent thewireless charging coil 201 from affecting the display effect of the display area AA; optionally, as shown in FIG. 8, thewireless charging coil 201 can Some are located within the range of the non-display area NA, and some are located within the range of the display area AA. Since the second time period T2 of wireless charging in this embodiment does not overlap with the first time period T1 displayed, even if part of thewireless charging coil 201 is set within the range of display area AA, which can also avoid interference of wireless charging signal to the display screen of display area AA, which is beneficial to increase the number of turns ofwireless charging coil 201 as much as possible, and is conducive to enhancing wireless charging efficiency.

进一步可选的，请结合参考图8和图9所示，图9是图8中A-A’向的剖面结构示意图，本实施例的显示面板00包括衬底01，显示面板00包括位于衬底01相对两侧的出光侧00A和背光侧00B，无线充电线圈201位于显示面板00的背光侧00B。即本实施例中可以将无线充电功能的无线充电线圈201设置于显示面板00的背光侧00B，而显示单元10的膜层结构可以位于衬底01的另一侧即出光侧00A，从而可以避免金属等材料的无线充电线圈201的反射影响显示面板00的出光显示效果。可选的，本实施例中的连接引线202可以设置于显示面板00的出光侧00A的非显示区NA(如绑定区)范围内，可以通过在衬底01上打孔实现背光侧00B的无线充电线圈201与出光侧00A的连接引线202的电连接，并通过连接引线202实现出光侧00A的无线充电驱动电路302与背光侧00B的无线充电线圈201的信号传输，进而有利于将无线充电驱动电路302与显示驱动电路301共同设置于显示面板00的空间较大的非显示区范围内的同时，还可以避免无线充电线圈201设置在出光侧00A时产生反射现象对显示面板00的出光效果造成影响。As a further option, please refer to FIG. 8 and FIG. 9 in combination. FIG. 9 is a schematic cross-sectional structural diagram of AA' in FIG. On thelight emitting side 00A and the backlight side 00B on opposite sides of the bottom 01 , thewireless charging coil 201 is located on the backlight side 00B of thedisplay panel 00 . That is, in this embodiment, thewireless charging coil 201 with the wireless charging function can be arranged on the backlight side 00B of thedisplay panel 00, and the film layer structure of thedisplay unit 10 can be located on the other side of thesubstrate 01, that is, the light-emittingside 00A, so as to avoid The reflection of thewireless charging coil 201 made of metal or other materials affects the light emitting display effect of thedisplay panel 00 . Optionally, the connection leads 202 in this embodiment can be arranged within the range of the non-display area NA (such as the binding area) of the light-emittingside 00A of thedisplay panel 00, and the connection of the backlight side 00B can be realized by punching holes on thesubstrate 01. Thewireless charging coil 201 is electrically connected to the connectinglead wire 202 on thelight emitting side 00A, and the signal transmission between the wireless chargingdrive circuit 302 on thelight emitting side 00A and thewireless charging coil 201 on the backlight side 00B is realized through the connectinglead wire 202, which in turn facilitates wireless charging While the drivingcircuit 302 and thedisplay driving circuit 301 are co-arranged within the non-display area of thedisplay panel 00 with a large space, it can also avoid the light output effect of thedisplay panel 00 caused by the reflection phenomenon when thewireless charging coil 201 is installed on thelight output side 00A. make an impact.

需要说明的是，本实施例的图9仅是通过框图示意显示单元10以示例性画出显示装置000的剖面示意图，并不表示显示面板00的实际膜层结构，当显示面板00为有机发光二极管显示面板时，衬底01出光侧00A的膜层结构还可以包括设置有像素电路的晶体管阵列层、阳极层、有机发光层、像素定义层、阴极层、封装结构层等，本实施例对于显示面板00的膜层结构不作具体限定，具体实施时，可根据显示面板00的类型参考相关技术中同类型的显示面板的结构设置衬底01出光侧00A的膜层结构，本实施例在此不作赘述。It should be noted that FIG. 9 of this embodiment is only a block diagram showing thedisplay unit 10 to exemplarily draw a schematic cross-sectional view of thedisplay device 000, and does not represent the actual film layer structure of thedisplay panel 00. When thedisplay panel 00 is an organic light-emitting In the case of a diode display panel, the film layer structure of the light-emittingside 00A of thesubstrate 01 may also include a transistor array layer provided with pixel circuits, an anode layer, an organic light-emitting layer, a pixel definition layer, a cathode layer, and a packaging structure layer. The film layer structure of thedisplay panel 00 is not specifically limited. During specific implementation, the film layer structure of the light-emittingside 00A of thesubstrate 01 can be set according to the type of thedisplay panel 00 with reference to the structure of the same type of display panel in the related art. This embodiment is here I won't go into details.

在一些可选实施例中，请结合参考图10和图11，图10是本发明实施例提供的显示装置的另一种平面结构示意图，图11是图10中的显示装置的剖面结构示意图(可以理解的是，为了清楚示意本实施例中的无线充电组件的结构，图10进行了透明度填充，图11仅是为了示意出黑矩阵层以及数据线的膜层位置进行了剖面结构示意，并不表示实际大小)，本实施例的显示面板00包括衬底01，显示面板00包括位于衬底01相对两侧的出光侧00A和背光侧00B，无线充电线圈201位于显示面板00的出光侧00A。In some optional embodiments, please refer to FIG. 10 and FIG. 11 in combination, FIG. 10 is another schematic plan view of the display device provided by an embodiment of the present invention, and FIG. 11 is a schematic cross-sectional view of the display device in FIG. 10 ( It can be understood that, in order to clearly illustrate the structure of the wireless charging assembly in this embodiment, FIG. 10 is filled with transparency, and FIG. 11 is only for illustrating the black matrix layer and the position of the film layer of the data line. does not represent the actual size), thedisplay panel 00 of this embodiment includes asubstrate 01, thedisplay panel 00 includes a light-emittingside 00A and a backlight side 00B located on opposite sides of thesubstrate 01, and thewireless charging coil 201 is located on the light-emittingside 00A of thedisplay panel 00 .

可选的，本实施例的显示面板00可以为有机发光二极管显示面板，显示面板00的衬底01朝向出光侧00A的一侧还可以包括设置有像素电路的晶体管阵列层001、像素定义层002、封装结构层003等，晶体管阵列层001用于设置像素电路中包括的多个晶体管TFT或者电容结构C等，可选的，如图11所示，晶体管阵列层001可以至少包括栅极金属层001A、源漏极金属层001B、电容金属层001C等，像素定义层002包括多个开口002K，有机发光层004的各个有机材料发光部0041设置于该开口002K内，像素定义层002的开口002K用于界定相邻的有机材料发光部0041，以将各种不同颜色的有机材料发光部0041对应分隔为一个个相对独立的结构，封装结构层003可以用于隔绝水和氧，防止空气中的水蒸气和氧气进入到有机发光层004和晶体管阵列层001中，从而对其中的元器件造成损坏。本实施例的显示面板00还可以包括黑矩阵层40，黑矩阵层40位于衬底01朝向出光侧00A的一侧，可选的，黑矩阵层40可以位于封装结构层003远离衬底01的一侧(如图11所示)，或者黑矩阵层40还可以位于封装结构层003朝向衬底01的一侧(未附图示意)，或者黑矩阵层40还可以设置于其他位置，本实施例不作具体限定；无线充电线圈201位于黑矩阵层40朝向衬底01的一侧，如晶体管阵列层的某一或某几层金属膜层中；可选的，本实施例的图11仅以无线充电线圈201位于晶体管阵列层的电容金属层001C为例进行示例说明，具体实施时，无线充电线圈201还可以位于其他膜层，仅需满足无线充电线圈201位于黑矩阵层40朝向衬底01的一侧即可，本实施例不作具体限定。Optionally, thedisplay panel 00 of this embodiment may be an organic light emitting diode display panel, and the side of thesubstrate 01 of thedisplay panel 00 facing the light-emittingside 00A may further include atransistor array layer 001 provided with pixel circuits, and apixel definition layer 002 ,encapsulation structure layer 003, etc., thetransistor array layer 001 is used to set a plurality of transistors TFT or capacitance structure C, etc. included in the pixel circuit, optionally, as shown in Figure 11, thetransistor array layer 001 may at least include agate metal layer 001A, source-drain metal layer 001B,capacitor metal layer 001C, etc. Thepixel definition layer 002 includes a plurality ofopenings 002K, and each organic material light-emittingpart 0041 of the organic light-emittinglayer 004 is arranged in theopening 002K, and theopening 002K of thepixel definition layer 002 It is used to define adjacent organic material light-emittingparts 0041, so as to separate the organic material light-emittingparts 0041 of various colors into relatively independent structures. Theencapsulation structure layer 003 can be used to isolate water and oxygen, and prevent Water vapor and oxygen enter into the organiclight emitting layer 004 and thetransistor array layer 001, thereby causing damage to the components therein. Thedisplay panel 00 of this embodiment may also include ablack matrix layer 40, and theblack matrix layer 40 is located on the side of thesubstrate 01 facing the light-emittingside 00A. Optionally, theblack matrix layer 40 may be located on the side of thepackaging structure layer 003 away from thesubstrate 01. One side (as shown in FIG. 11 ), or theblack matrix layer 40 can also be located on the side of thepackaging structure layer 003 facing the substrate 01 (not shown in the drawings), or theblack matrix layer 40 can also be arranged at other positions. In this embodiment The example is not specifically limited; thewireless charging coil 201 is located on the side of theblack matrix layer 40 facing thesubstrate 01, such as in one or several metal film layers of the transistor array layer; optionally, FIG. 11 of this embodiment only uses Thewireless charging coil 201 is located on thecapacitive metal layer 001C of the transistor array layer as an example for illustration. During specific implementation, thewireless charging coil 201 can also be located on other film layers, as long as thewireless charging coil 201 is located on theblack matrix layer 40 facing thesubstrate 01 One side is sufficient, which is not specifically limited in this embodiment.

本实施例的黑矩阵层40包括多个遮光条401，无线充电线圈201向衬底01的正投影位于遮光条401向衬底01的正投影范围内。Theblack matrix layer 40 in this embodiment includes a plurality of shading strips 401 , and the orthographic projection of thewireless charging coil 201 onto thesubstrate 01 is within the range of the orthographic projection of the shading strips 401 onto thesubstrate 01 .

本实施例解释说明了无线充电线圈201可以设置于显示面板00的出光侧00A，即可以设置于衬底01朝向显示单元10的一侧，从而可以使得制作显示面板00的膜层结构时，预留膜层空间用于设置无线充电线圈201，则显示面板00的背光侧00B无需预留无线充电线圈的空间，从而可以减小显示装置000的厚度，为实现超薄机型提供更大空间。可选的，本实施例以提供的显示面板00为有机发光二极管显示面板为例进行示例说明，显示面板00可以包括位于衬底01朝向出光侧00A一侧的晶体管阵列层001、像素定义层002、封装结构层003等，晶体管阵列层001用于设置像素电路中包括的多个晶体管或者电容结构等，可选的，如图11所示，晶体管阵列层001可以至少包括栅极金属层001A、源漏极金属层001B、电容金属层001C等，像素电路的多个晶体管的栅极等可以制作于栅极金属层001A，晶体管的源极和漏极可以制作于源漏极金属层001B，像素电路包括的电容的极板可以制作于电容金属层001C等。可选的，本实施例的显示面板00中还可以包括阳极层005和阴极层006，阳极层005设置有多个阳极0051，每个阳极0051可以与一个显示单元10对应，阳极层005可以设置于有机发光层004朝向晶体管阵列层001的一侧，阴极层006可以整面设置于封装结构层003和有机发光层004之间。像素定义层002包括多个开口002K，有机发光层004的各个有机材料发光部0041设置于该开口002K内，像素定义层002的开口002K用于界定相邻的有机材料发光部0041和阳极0051，以将各种不同颜色的有机材料发光部0041对应分隔为一个个相对独立的结构。有机材料发光部0041与阳极0051和阴极层006堆叠设置，通过在阳极0051和阴极层006在之间施加电压，使得有机材料发光部0041发射可见光，从而实现能被使用者识别的图像。晶体管阵列层001设置的像素电路与各个有机材料发光部0041对应的阳极0051电连接，从而通过像素电路为各个显示单元10的有机材料发光部0041提供显示驱动信号，像素电路可以通过扫描线G与扫描驱动电路电连接，像素电路可以通过数据线S与数据驱动电路电连接，通过扫描驱动电路和数据驱动电路为各个显示单元10的像素电路提供显示驱动信号，从而驱动有机材料发光部0041发光显示。封装结构层003可以用于隔绝水和氧，防止空气中的水蒸气和氧气进入到有机发光层004和晶体管阵列层001中，从而对其中的元器件造成损坏。本实施例中的扫描线G可以设置于栅极金属层001A，进而使得像素电路包括的晶体管TFT的栅极与扫描线G同层同材料设置，数据线S可以设置于源漏极金属层001B，进而使得像素电路包括的晶体管TFT的源极和漏极与数据线S同层同材料设置，有利于减少制程工艺步骤。可选的，本实施例中的无线充电组件20的无线充电线圈201可以与扫描线G同层设置(未附图示意)，或者无线充电线圈201可以与数据线S同层设置(未附图示意)，或者还可以位于其他金属膜层，有利于减少掩膜板的数量，减少工艺流程；或者无线充电线圈201的部分段可以与扫描线G同层设置，部分段可以与数据线S同层设置(即无线充电线圈201可以采用异层金属层换线设置，未附图示意)，本实施例对于无线充电线圈201的膜层位置不作具体限定，具体实施时，可根据实际需求选择设置。This embodiment explains that thewireless charging coil 201 can be arranged on the light-emittingside 00A of thedisplay panel 00, that is, it can be arranged on the side of thesubstrate 01 facing thedisplay unit 10, so that when making the film structure of thedisplay panel 00, pre- The film layer space is reserved for arranging thewireless charging coil 201, so the backlight side 00B of thedisplay panel 00 does not need to reserve a space for the wireless charging coil, thereby reducing the thickness of thedisplay device 000 and providing more space for realizing an ultra-thin model. Optionally, this embodiment takes the provideddisplay panel 00 as an example of an organic light-emitting diode display panel for illustration. Thedisplay panel 00 may include atransistor array layer 001 and apixel definition layer 002 located on the side of thesubstrate 01 facing the light-emittingside 00A. ,packaging structure layer 003, etc., thetransistor array layer 001 is used to set a plurality of transistors or capacitor structures included in the pixel circuit, optionally, as shown in FIG. 11, thetransistor array layer 001 may at least include agate metal layer 001A, The source-drain metal layer 001B, thecapacitor metal layer 001C, etc., the gates of multiple transistors in the pixel circuit can be fabricated on thegate metal layer 001A, the source and drain of the transistor can be fabricated on the source-drain metal layer 001B, and the pixel circuit The plate of the capacitor included in the circuit can be made on thecapacitor metal layer 001C and the like. Optionally, thedisplay panel 00 of this embodiment may further include ananode layer 005 and acathode layer 006, theanode layer 005 is provided with a plurality ofanodes 0051, eachanode 0051 may correspond to onedisplay unit 10, and theanode layer 005 may be provided with On the side of the organic light-emittinglayer 004 facing thetransistor array layer 001 , thecathode layer 006 can be disposed entirely between theencapsulation structure layer 003 and the organic light-emittinglayer 004 . Thepixel definition layer 002 includes a plurality ofopenings 002K, and each organic materiallight emitting part 0041 of the organiclight emitting layer 004 is disposed in theopening 002K, and theopening 002K of thepixel definition layer 002 is used to define adjacent organic materiallight emitting parts 0041 andanode 0051, The organic material light-emittingparts 0041 of various colors are correspondingly separated into relatively independent structures. The organic material light-emittingpart 0041 is stacked with theanode 0051 and thecathode layer 006. By applying a voltage between theanode 0051 and thecathode layer 006, the organic material light-emittingpart 0041 emits visible light, thereby realizing an image that can be recognized by the user. The pixel circuit provided in thetransistor array layer 001 is electrically connected to theanode 0051 corresponding to each organic materiallight emitting part 0041, so as to provide a display driving signal for the organic materiallight emitting part 0041 of eachdisplay unit 10 through the pixel circuit, and the pixel circuit can communicate with the scanning line G and The scanning driving circuit is electrically connected, and the pixel circuit can be electrically connected to the data driving circuit through the data line S, and the display driving signal is provided for the pixel circuit of eachdisplay unit 10 through the scanning driving circuit and the data driving circuit, thereby driving the organic materiallight emitting part 0041 to emit light and display . Theencapsulation structure layer 003 can be used to isolate water and oxygen, preventing water vapor and oxygen in the air from entering into the organic light-emittinglayer 004 and thetransistor array layer 001, thereby causing damage to the components therein. The scan line G in this embodiment can be set on thegate metal layer 001A, so that the gate of the transistor TFT included in the pixel circuit can be set on the same layer and the same material as the scan line G, and the data line S can be set on the source-drain metal layer 001B Further, the source and drain of the transistor TFT included in the pixel circuit and the data line S are arranged in the same layer and the same material, which is beneficial to reduce the process steps. Optionally, thewireless charging coil 201 of thewireless charging assembly 20 in this embodiment can be arranged on the same layer as the scanning line G (not shown in the drawing), or thewireless charging coil 201 can be arranged on the same layer as the data line S (not shown in the drawing). Schematic), or can also be located in other metal film layers, which is beneficial to reduce the number of mask plates and reduce the process flow; or some sections of thewireless charging coil 201 can be set on the same layer as the scanning line G, and some sections can be set on the same layer as the data line S Layer setting (that is, thewireless charging coil 201 can be set by changing the wires of different metal layers, not shown in the drawings), this embodiment does not specifically limit the film layer position of thewireless charging coil 201, and can be selected according to actual needs during specific implementation. .

本实施例的显示面板00还可以包括黑矩阵层40，黑矩阵层40位于衬底01朝向出光侧00A的一侧，例如黑矩阵层40可以设置于封装结构层003远离衬底01的一侧，黑矩阵层40可以通过吸收可见光，从而遮挡外界的可见光，避免显示面板00的其他膜层例如阴极层006或晶体管阵列层001对可见光或可见光的反射光的反射，降低整个显示面板00对可见光的反射率，有利于提高显示面板的显示效果。本实施例的无线充电线圈201可以为矩形螺旋状，此时无线充电线圈201的部分段可以与扫描线G平行设置，无线充电线圈201的部分段可以与数据线S平行设置，从而可以使得大部分无线充电线圈201向衬底01的正投影位于黑矩阵层40的遮光条401向衬底01的正投影范围内，进而可以通过黑矩阵层40的遮光条401的遮挡，避免漏光现象，进而可以避免无线充电线圈201位于显示面板00的出光侧00A时影响显示装置的正常显示。Thedisplay panel 00 of this embodiment may further include ablack matrix layer 40, and theblack matrix layer 40 is located on the side of thesubstrate 01 facing the light-emittingside 00A, for example, theblack matrix layer 40 may be disposed on the side of theencapsulation structure layer 003 away from thesubstrate 01 , theblack matrix layer 40 can absorb visible light, thereby blocking the visible light of the outside world, avoiding the reflection of visible light or reflected light of visible light by other film layers of thedisplay panel 00, such as thecathode layer 006 or thetransistor array layer 001, and reducing the visible light of theentire display panel 00. The high reflectivity is beneficial to improve the display effect of the display panel. Thewireless charging coil 201 in this embodiment can be in a rectangular spiral shape. At this time, some sections of thewireless charging coil 201 can be arranged parallel to the scanning line G, and some sections of thewireless charging coil 201 can be arranged parallel to the data line S, so that large The orthographic projection of part of thewireless charging coil 201 to thesubstrate 01 is located within the range of the orthographic projection of the light-shielding strip 401 of theblack matrix layer 40 to thesubstrate 01, and then can be shielded by the light-shielding strip 401 of theblack matrix layer 40 to avoid light leakage. It can avoid affecting the normal display of the display device when thewireless charging coil 201 is located at thelight emitting side 00A of thedisplay panel 00 .

在一些可选实施例中，请结合参考图12和图13，图12是本发明实施例提供的显示装置的另一种平面结构示意图，图13是图12中的显示装置的剖面结构示意图，本实施例中，无线充电线圈201的制作材料包括透明导电材料，透明导电材料可以为氧化铟锡(ITO，Indium Tin Oxides)，从而可以避免无线充电线圈201设置在显示面板00的出光侧时对显示面板00的出光效果产生影响。In some optional embodiments, please refer to FIG. 12 and FIG. 13 in conjunction. FIG. 12 is another schematic plan view of the display device provided by an embodiment of the present invention, and FIG. 13 is a schematic cross-sectional view of the display device in FIG. 12 , In this embodiment, the manufacturing material of thewireless charging coil 201 includes a transparent conductive material, and the transparent conductive material may be Indium Tin Oxide (ITO, Indium Tin Oxides), thereby avoiding damage to thewireless charging coil 201 when it is arranged on the light-emitting side of thedisplay panel 00. The light emitting effect of thedisplay panel 00 is affected.

可选的，本实施例的显示面板00可以为有机发光二极管显示面板，显示面板00中可以包括采用透明导电材料制作的阳极层005和阴极层006，本实施例的无线充电线圈201可以与阳极层005(如图13所示)或者阴极层006(未附图示意)同层同材料设置，从而可以通过一次构图工艺形成，有利于减少制作显示装置时采用的掩模板的数量，有利于避免无线充电线圈201设置在显示面板00的出光侧00A时对显示面板00的出光效果产生影响的同时，还可以节约制作成本。Optionally, thedisplay panel 00 of this embodiment can be an organic light emitting diode display panel, and thedisplay panel 00 can include ananode layer 005 and acathode layer 006 made of transparent conductive materials, and thewireless charging coil 201 of this embodiment can be connected with theanode layer 005 Layer 005 (as shown in FIG. 13 ) or cathode layer 006 (not shown in the drawings) are set in the same layer and the same material, so that they can be formed through a single patterning process, which is beneficial to reduce the number of masks used in the production of display devices, and is beneficial to avoid When thewireless charging coil 201 is arranged on the light-emittingside 00A of thedisplay panel 00 , it can not only affect the light-emitting effect of thedisplay panel 00 , but also save production cost.

需要说明的是，上述实施例中的图11和图13仅是示例性画出显示面板00的膜层结构，具体实施时，即显示面板可以包括但不仅限于图中示意的膜层结构，例如封装结构层003远离衬底01一侧的相邻遮光条401之间还可以设置有滤光色阻结构(图中未示意)，滤光色阻结构与其对应的有机材料发光部0041的颜色相同，从而可以通过在有机发光显示面板中滤光色阻结构的设置来取代偏光片，使得显示面板具有较高的透过率，并且高透过率的显示面板还可以大大降低功耗，本实施例在此不作赘述，显示面板00的具体膜层设置结构可以参考相关技术中有机发光二极管显示面板的结构进行理解。图10-图13示意的实施例仅是为了说明无线充电线圈201设置于衬底01朝向出光侧00A一侧的显示区AA范围内时，若无线充电线圈201采用金属材料制作，则无线充电线圈201可以与扫描线G或者数据线S或者其他金属膜层同层设置的同时，还需要隐藏在黑矩阵层40的下方，以避免影响出光效果；若无线充电线圈201采用透明导电材料制作，则无线充电线圈201可以与阳极层005或者阴极层006或者其他透明导电层同层设置的同时，无需特意设置无线充电线圈201的位置，设计自由度较高，有利于降低制程难度，提高制程效率。It should be noted that Fig. 11 and Fig. 13 in the above-mentioned embodiment are only exemplary illustrations of the film layer structure of thedisplay panel 00. In practice, the display panel may include but not limited to the film layer structure shown in the figure, for example A filter color-resist structure (not shown in the figure) may also be provided between the adjacent light-shieldingstrips 401 on the side of thepackaging structure layer 003 away from thesubstrate 01, and the filter color-resist structure is the same color as the corresponding organic material light-emittingpart 0041 , so that the polarizer can be replaced by setting the filter color resist structure in the organic light-emitting display panel, so that the display panel has a higher transmittance, and the display panel with high transmittance can also greatly reduce power consumption. This implementation For example, details will not be repeated here, and the specific film layer arrangement structure of thedisplay panel 00 can be understood by referring to the structure of the organic light emitting diode display panel in the related art. The embodiment shown in Fig. 10-Fig. 13 is only to illustrate that when thewireless charging coil 201 is arranged within the range of the display area AA on the side of thesubstrate 01 facing the light-emittingside 00A, if thewireless charging coil 201 is made of a metal material, thewireless charging coil 201 can be arranged on the same layer as the scanning line G or data line S or other metal film layers, and also needs to be hidden under theblack matrix layer 40 to avoid affecting the light emitting effect; if thewireless charging coil 201 is made of transparent conductive material, then Thewireless charging coil 201 can be arranged on the same layer as theanode layer 005 or thecathode layer 006 or other transparent conductive layers, and there is no need to deliberately set the position of thewireless charging coil 201. The degree of design freedom is high, which is conducive to reducing the difficulty of the process and improving the efficiency of the process.

在一些可选实施例中，请结合参考图1、图2和图14，图14是图1中的驱动电路分别时序控制单元和侦测单元的电连接结构示意图，本实施例中，显示装置000还包括电连接的侦测单元70和时序控制单元80，时序控制单元80通过选通开关K与显示驱动电路301和无线充电驱动电路302分别电连接；In some optional embodiments, please refer to FIG. 1, FIG. 2 and FIG. 14 in conjunction. FIG. 14 is a schematic diagram of the electrical connection structure of the timing control unit and the detection unit of the driving circuit in FIG. 1. In this embodiment, thedisplay device 000 also includes an electrically connected detection unit 70 and a timing control unit 80, and the timing control unit 80 is electrically connected to thedisplay driving circuit 301 and the wireless chargingdriving circuit 302 through the gate switch K;

在第一时间段T1，选通开关K控制时序控制单元80与显示驱动电路301电连接；In the first time period T1, the gate switch K controls the timing control unit 80 to be electrically connected to thedisplay driving circuit 301;

在第二时间段T2，选通开关K控制时序控制单元80与无线充电驱动电路302电连接。In the second time period T2, the gate switch K controls the timing control unit 80 to be electrically connected to the wireless chargingdriving circuit 302 .

本实施例解释说明了显示装置000中还可以设置有侦测单元70和时序控制单元80，可选的，侦测单元70和时序控制单元80可以为模块结构集成设置于驱动芯片或者柔性电路板中(未附图示意)，并通过将驱动芯片或者柔性电路板绑定在显示面板上实现与显示驱动电路301、无线充电驱动电路302的电连接，或者侦测单元70和时序控制单元80还可以为单独的集成芯片绑定设置于显示面板00的非显示区NA范围内，并通过在显示面板00的非显示区NA设置的选通开关K实现与显示驱动电路301和无线充电驱动电路302的分别电连接。本实施例的侦测单元70与时序控制单元80，侦测单元70用于侦测整个显示装置000的无线充电脉冲信号的时间和周期，如无线充电脉冲信号到来的时机，从而提供给时序控制单元80，时序控制单元80将无线充电驱动电路302所需的时序脉冲通过选通开关K的打开提供至无线充电驱动电路302，或者侦测单元70用于侦测整个显示装置000的显示驱动信号的时间和周期，如显示驱动信号到来的时机，从而提供给时序控制单元80，时序控制单元80将显示驱动电路301所需的时序脉冲通过选通开关K的打开提供至显示驱动电路301，实现驱动信号的传输。This embodiment explains that a detection unit 70 and a timing control unit 80 can also be provided in thedisplay device 000. Optionally, the detection unit 70 and the timing control unit 80 can be integrated in a driver chip or a flexible circuit board in a modular structure. (not shown in the drawings), and realize the electrical connection with thedisplay driving circuit 301 and the wireless chargingdriving circuit 302 by binding the driving chip or the flexible circuit board on the display panel, or the detection unit 70 and the timing control unit 80 also A single integrated chip can be bound and arranged within the non-display area NA of thedisplay panel 00, and the connection with thedisplay drive circuit 301 and the wireless chargingdrive circuit 302 can be realized through the gating switch K set in the non-display area NA of thedisplay panel 00. electrical connection respectively. The detection unit 70 and the timing control unit 80 of this embodiment, the detection unit 70 is used to detect the time and period of the wireless charging pulse signal of theentire display device 000, such as the timing of the arrival of the wireless charging pulse signal, so as to provide timing control Unit 80, the timing control unit 80 provides the timing pulse required by the wireless chargingdriving circuit 302 to the wireless chargingdriving circuit 302 through the opening of the strobe switch K, or the detection unit 70 is used to detect the display driving signal of theentire display device 000 The time and period of time, such as the timing of the arrival of the display drive signal, are provided to the timing control unit 80, and the timing control unit 80 provides the timing pulse required by thedisplay drive circuit 301 to thedisplay drive circuit 301 through the opening of the gate switch K to realize Drive signal transmission.

可选的，本实施例中的选通开关K可以为利用显示面板00本身存在的膜层结构制作的包括至少两个薄膜晶体管的选通结构，从而有利于减少制程工艺；如图15所示，图15是图14中选通开关的一种结构示意图，选通开关K可以包括两个相同类型的第一晶体管M1和第二晶体管M2，第一晶体管M1的栅极连接第一控制信号CK1，第一晶体管M1的源极与显示驱动电路301电连接，第二晶体管M2的栅极连接第二控制信号CK2，第二晶体管M2的源极与无线充电驱动电路302电连接，第一晶体管M1的漏极和第二晶体管M2的漏极均连接至时序控制单元80，以第一晶体管M1和第二晶体管M2为N型晶体管为例，在第一时间段T1，当第一控制信号CK1为高电平信号、第二控制信号CK2为低电平信号时，第一晶体管M1导通，第二晶体管M2截止，则该结构的选通开关K控制选择将时序控制单元80与显示驱动电路301电连接；在第二时间段T2，当第一控制信号CK1为低电平信号、第二控制信号CK2为高电平信号时，第一晶体管M1截止，第二晶体管M2导通，则该结构的选通开关K控制选择将时序控制单元80与无线充电驱动电路302电连接，从而实现在第一时间段T1，选通开关K控制时序控制单元80与显示驱动电路301电连接，在第二时间段T2，选通开关K控制时序控制单元80与无线充电驱动电路302电连接，实现选通连接的效果。Optionally, the gating switch K in this embodiment can be a gating structure including at least two thin film transistors fabricated by utilizing the existing film structure of thedisplay panel 00, which is beneficial to reduce the manufacturing process; as shown in FIG. 15 , FIG. 15 is a schematic structural diagram of the gating switch in FIG. 14, the gating switch K may include two first transistors M1 and second transistors M2 of the same type, the gate of the first transistor M1 is connected to the first control signal CK1, The source of the first transistor M1 is electrically connected to thedisplay driving circuit 301, the gate of the second transistor M2 is connected to the second control signal CK2, the source of the second transistor M2 is electrically connected to the wireless chargingdriving circuit 302, and the first transistor M1 Both the drain and the drain of the second transistor M2 are connected to the timing control unit 80. Taking the first transistor M1 and the second transistor M2 as N-type transistors as an example, in the first time period T1, when the first control signal CK1 is high When the level signal and the second control signal CK2 are low-level signals, the first transistor M1 is turned on, and the second transistor M2 is turned off, then the strobe switch K of this structure controls and selects the timing control unit 80 and thedisplay driving circuit 301. connection; in the second time period T2, when the first control signal CK1 is a low-level signal and the second control signal CK2 is a high-level signal, the first transistor M1 is turned off, and the second transistor M2 is turned on, then the structure The gating switch K controls and selects to electrically connect the timing control unit 80 to the wireless chargingdrive circuit 302, so that in the first time period T1, the gating switch K controls the timing control unit 80 to be electrically connected to thedisplay driving circuit 301, and in the second time period T1 In section T2, the gate switch K controls the electrical connection between the timing control unit 80 and the wireless chargingdrive circuit 302 to achieve the effect of gate connection.

进一步可选的，如图16所示，图16是图14中选通开关的另一种结构示意图，选通开关K也可以包括两个不同类型的N型的第三晶体管M3和P型的第四晶体管M4，第三晶体管M3的栅极和第四晶体管M4均连接第三控制信号CK3，第三晶体管M3的源极与显示驱动电路301电连接，第四晶体管M4的源极与无线充电驱动电路302电连接，第三晶体管M3的漏极和第四晶体管M4的漏极均连接至时序控制单元80，在第一时间段T1，当第三控制信号CK3为高电平信号时，第三晶体管M3导通，第四晶体管M4截止，则该结构的选通开关K控制选择将时序控制单元80与显示驱动电路301电连接；在第二时间段T2，当第三控制信号CK3为低电平信号时，第三晶体管M3截止，第四晶体管M4导通，则该结构的选通开关K控制选择将时序控制单元80与无线充电驱动电路302电连接，从而实现在第一时间段T1，选通开关K控制时序控制单元80与显示驱动电路301电连接，在第二时间段T2，选通开关K控制时序控制单元80与无线充电驱动电路302电连接，实现选通连接的效果。Further optionally, as shown in FIG. 16, FIG. 16 is another structural schematic diagram of the gate switch in FIG. 14. The gate switch K may also include two different types of N-type third transistor M3 and P-type third transistor M3. Four transistors M4, the gate of the third transistor M3 and the fourth transistor M4 are both connected to the third control signal CK3, the source of the third transistor M3 is electrically connected to thedisplay driving circuit 301, the source of the fourth transistor M4 is connected to the wireless charging drive Thecircuit 302 is electrically connected, and the drain of the third transistor M3 and the drain of the fourth transistor M4 are both connected to the timing control unit 80. In the first time period T1, when the third control signal CK3 is a high-level signal, the third The transistor M3 is turned on, and the fourth transistor M4 is turned off, then the strobe switch K of this structure controls and selects to electrically connect the timing control unit 80 to thedisplay driving circuit 301; in the second time period T2, when the third control signal CK3 is low When the signal is flat, the third transistor M3 is turned off, and the fourth transistor M4 is turned on, then the gate switch K of this structure controls and selects to electrically connect the timing control unit 80 with the wireless chargingdrive circuit 302, so as to realize that in the first time period T1, The gating switch K controls the timing control unit 80 to be electrically connected to thedisplay drive circuit 301 , and in the second time period T2 , the gating switch K controls the timing control unit 80 to be electrically connected to the wireless chargingdriving circuit 302 to achieve the effect of gating connection.

可以理解的是，本实施例的图15和图16仅是示例性画出选通开关K设置于显示面板00的膜层结构中时可以设置的结构，具体实施时，选通开关K的设计结构包括但不局限于此，还可以包括其他设计结构，仅需能够满足在第一时间段T1，选通开关K可以控制时序控制单元80与显示驱动电路301电连接，时序控制单元80与无线充电驱动电路302不连接，在第二时间段T2，选通开关K控制时序控制单元80与无线充电驱动电路302电连接，时序控制单元80与显示驱动电路301不连接即可，本实施例不作具体限定。It can be understood that FIG. 15 and FIG. 16 of this embodiment are only illustrative structures that can be provided when the gate switch K is disposed in the film structure of thedisplay panel 00. In specific implementation, the design of the gate switch K The structure includes but is not limited to this, and can also include other design structures. It only needs to be able to meet the first time period T1. The gate switch K can control the timing control unit 80 to be electrically connected to thedisplay driving circuit 301, and the timing control unit 80 is connected to the wireless The chargingdriving circuit 302 is not connected, and in the second time period T2, the strobe switch K controls the timing control unit 80 to be electrically connected to the wireless chargingdriving circuit 302, and the timing control unit 80 is not connected to thedisplay driving circuit 301, which is not described in this embodiment. Specific limits.

需要说明的是，本实施例的图14-图16仅是示意出侦测单元70、时序控制单元80通过选通开关K与显示驱动电路301、无线充电驱动电路302的电连接关系，并不表示设置于显示装置中的实际位置，实际将上述结构设置于显示装置中时，可以参考相关技术中显示装置的非显示区的电路设计结构进行设计，本实施例在此不作赘述。It should be noted that Figures 14-16 of this embodiment only illustrate the electrical connection relationship between the detection unit 70 and the timing control unit 80 and thedisplay driving circuit 301 and the wireless chargingdriving circuit 302 through the strobe switch K, and do not Indicates the actual location in the display device. When the above structure is actually installed in the display device, it can be designed with reference to the circuit design structure of the non-display area of the display device in the related art, and this embodiment will not repeat it here.

在一些可选实施例中，请结合参考图1、图2和图17，图17是本发明实施例提供的显示装置的驱动方法的流程框图，本实施例提供的驱动方法用于驱动上述任一实施例中的显示装置000工作；本实施例提供的驱动方法中，显示装置000的工作阶段至少包括第一时间段T1和第二时间段T2；In some optional embodiments, please refer to FIG. 1 , FIG. 2 and FIG. 17 in conjunction. FIG. 17 is a flowchart of a driving method of a display device provided in an embodiment of the present invention. The driving method provided in this embodiment is used to drive any of the above Thedisplay device 000 in an embodiment works; in the driving method provided in this embodiment, the working phase of thedisplay device 000 includes at least a first time period T1 and a second time period T2;

在第一时间段T1，显示驱动电路301向显示单元10提供显示驱动信号，使得显示装置000显示画面；In the first time period T1, thedisplay driving circuit 301 provides a display driving signal to thedisplay unit 10, so that thedisplay device 000 displays a picture;

在第二时间段T2，无线充电驱动电路302向无线充电组件20提供充电信号，使得显示装置000充电；In the second time period T2, the wireless chargingdrive circuit 302 provides a charging signal to thewireless charging component 20, so that thedisplay device 000 is charged;

第一时间段T1与第二时间段T2不交叠。The first time period T1 does not overlap with the second time period T2.

本实施例解释说明了上述实施例中提供的显示装置000的驱动方法中，显示装置000的工作阶段至少包括第一时间段T1和第二时间段T2；显示驱动电路301向显示单元10提供显示驱动信号，使得显示装置000显示画面的第一时间段T1，与无线充电驱动电路302向无线充电组件20提供充电信号，使得显示装置000充电的第二时间段T2，两者在整个显示装置的驱动周期中时间上不交叠，从而可以避免无线充电组件20在工作时对显示面板00的显示效果产生干扰，进而能够避免发生无线充电脉冲信号与显示驱动信号产生耦合，使得显示驱动信号出现波动的情况，且无需在显示装置000中增设任意其他屏蔽结构，也无需增加设备功耗，仅仅通过驱动电路30中显示驱动电路301和无线充电驱动电路302的简单的时序控制，即可避免显示画面出现水波纹的显示异常现象，可以有效提高显示装置的显示品质。This embodiment explains that in the driving method of thedisplay device 000 provided in the above embodiments, the working phase of thedisplay device 000 includes at least the first time period T1 and the second time period T2; thedisplay driving circuit 301 provides thedisplay unit 10 with a display The driving signal makes thedisplay device 000 display the picture for the first time period T1, and the wireless chargingdrive circuit 302 provides the charging signal to thewireless charging component 20 so that thedisplay device 000 is charged for the second time period T2. There is no time overlap in the driving cycle, so as to prevent thewireless charging component 20 from interfering with the display effect of thedisplay panel 00 during operation, thereby avoiding the coupling between the wireless charging pulse signal and the display driving signal, causing the display driving signal to fluctuate In the case of thedisplay device 000, there is no need to add any other shielding structure, and there is no need to increase the power consumption of the device. Only through the simple timing control of thedisplay drive circuit 301 and the wireless chargingdrive circuit 302 in thedrive circuit 30, the display screen can be avoided. The display abnormal phenomenon of water ripple can effectively improve the display quality of the display device.

在一些可选实施例中，请结合参考图1、图2、图14-图16和图18，图18是本发明实施例提供的显示装置的驱动方法的另一种流程框图，如图14-图16所示，本实施例的显示装置000还包括电连接的侦测单元70和时序控制单元80，时序控制单元80通过选通开关K与显示驱动电路301和无线充电驱动电路302分别电连接；In some optional embodiments, please refer to FIG. 1, FIG. 2, FIG. 14-FIG. 16 and FIG. 18 in combination. FIG. - As shown in FIG. 16 , thedisplay device 000 of this embodiment further includes a detection unit 70 and a timing control unit 80 electrically connected, and the timing control unit 80 is electrically connected to thedisplay driving circuit 301 and the wireless chargingdriving circuit 302 through the gate switch K, respectively. connect;

显示装置000的工作阶段还包括侦测阶段T0；The working stage of thedisplay device 000 also includes a detection stage T0;

在侦测阶段T0，侦测单元70侦测第一时间段T1的起始时刻和结束时刻，侦测单元70侦测第二时间段T2的起始时刻和结束时刻，并将第一时间段T1的起始时刻和结束时刻、第二时间段T2的起始时刻和结束时刻提供至时序控制单元80；In the detection phase T0, the detection unit 70 detects the start time and the end time of the first time period T1, the detection unit 70 detects the start time and the end time of the second time period T2, and the first time period The start time and end time of T1, the start time and end time of the second time period T2 are provided to the timing control unit 80;

根据侦测单元70的上述侦测结果，在第一时间段T1的起始时刻，选通开关K控制时序控制单元80与显示驱动电路301电连接，选通开关K控制时序控制单元80不与无线充电驱动电路302电连接，显示驱动电路301开始向显示单元10提供显示驱动信号；According to the above detection results of the detection unit 70, at the beginning of the first time period T1, the gate switch K controls the timing control unit 80 to be electrically connected to thedisplay driving circuit 301, and the gate switch K controls the timing control unit 80 not to be connected to thedisplay drive circuit 301. The wireless chargingdriving circuit 302 is electrically connected, and thedisplay driving circuit 301 starts to provide a display driving signal to thedisplay unit 10;

在第一时间段T1的结束时刻，选通开关K控制时序控制单元80不与显示驱动电路301电连接，显示驱动电路301停止向显示单元10提供显示驱动信号；At the end of the first time period T1, the gate switch K controls the timing control unit 80 not to be electrically connected to thedisplay driving circuit 301, and thedisplay driving circuit 301 stops providing display driving signals to thedisplay unit 10;

在第二时间段T2的起始时刻，选通开关K控制时序控制单元80与无线充电驱动电路302电连接，无线充电驱动电路302开始向无线充电组件20提供充电信号；At the beginning of the second time period T2, the gate switch K controls the timing control unit 80 to be electrically connected to the wireless chargingdriving circuit 302, and the wireless chargingdriving circuit 302 starts to provide charging signals to thewireless charging component 20;

在第二时间段T2的结束时刻，选通开关K控制时序控制单元80不与无线充电驱动电路302电连接，无线充电驱动电路302停止向无线充电组件20提供充电信号，以此，显示装置000继续进入第一时间段T1的显示阶段。At the end of the second time period T2, the strobe switch K controls the timing control unit 80 not to be electrically connected to the wireless chargingdriving circuit 302, and the wireless chargingdriving circuit 302 stops providing charging signals to thewireless charging component 20, so that thedisplay device 000 Continue to enter the display stage of the first time period T1.

本实施例提供的驱动方法可以通过侦测单元70的侦测结果，较精准的确定第一时间段T1和第二时间段T2开始时机和结束时机，控制显示驱动电路301向显示单元10提供显示驱动信号，使得显示装置000显示画面的第一时间段T1，与无线充电驱动电路302向无线充电组件20提供充电信号，使得显示装置000充电的第二时间段T2，两者在整个显示装置的驱动周期中时间上不交叠，从而避免无线充电组件20在工作时对显示面板00的显示效果产生干扰，进而能够避免发生无线充电脉冲信号与显示驱动信号产生耦合的现象，有利于较好的提高显示装置的显示品质。The driving method provided in this embodiment can accurately determine the start timing and end timing of the first time period T1 and the second time period T2 through the detection results of the detection unit 70, and control thedisplay driving circuit 301 to provide display to thedisplay unit 10. The driving signal makes thedisplay device 000 display the picture for the first time period T1, and the wireless chargingdrive circuit 302 provides the charging signal to thewireless charging component 20 so that thedisplay device 000 is charged for the second time period T2. There is no time overlap in the driving cycle, so as to prevent thewireless charging component 20 from interfering with the display effect of thedisplay panel 00 during operation, thereby avoiding the phenomenon of coupling between the wireless charging pulse signal and the display driving signal, which is beneficial to better The display quality of the display device is improved.

通过上述实施例可知，本发明提供的显示装置及其驱动方法，至少实现了如下的有益效果：It can be known from the above embodiments that the display device and its driving method provided by the present invention at least achieve the following beneficial effects:

本发明提供的显示装置包括显示面板和无线充电组件，无线充电组件可以用于为显示面板提供充电续航功能，显示面板包括驱动电路和多个显示单元，驱动电路至少可以包括显示驱动电路和无线充电驱动电路，显示驱动电路与显示单元电连接，无线充电驱动电路与无线充电组件电连接，显示装置的工作阶段至少可以包括第一时间段和第二时间段，第一时间段可以理解为显示面板实现显示功能的驱动阶段，第二时间段可以理解为显示面板实现无线充电功能的充电阶段。本发明设置显示驱动电路向显示单元提供显示驱动信号的时间段与无线充电驱动电路向无线充电组件提供充电信号的时间段两者不交叠，从而可以避免无线充电组件在工作时对显示面板的显示效果产生干扰，进而能够避免发生无线充电脉冲信号与传输至数据线上的数据电压信号产生耦合，使得写入至数据线的数据电压信号出现波动的情况，且无需在显示装置中增设任意其他屏蔽结构，也无需增加设备功耗，仅仅通过驱动电路中显示驱动电路和无线充电驱动电路的简单的时序控制，即可避免显示画面出现水波纹的显示异常现象，可以有效提高显示装置的显示品质。The display device provided by the present invention includes a display panel and a wireless charging component. The wireless charging component can be used to provide a charging endurance function for the display panel. The display panel includes a driving circuit and a plurality of display units. The driving circuit can at least include a display driving circuit and wireless charging. The driving circuit, the display driving circuit is electrically connected to the display unit, the wireless charging driving circuit is electrically connected to the wireless charging component, and the working phase of the display device can include at least a first time period and a second time period. The first time period can be understood as a display panel In the driving stage for realizing the display function, the second time period can be understood as the charging stage for the display panel to realize the wireless charging function. In the present invention, the time period during which the display drive circuit provides the display drive signal to the display unit and the time period during which the wireless charging drive circuit provides the charging signal to the wireless charging component do not overlap, thereby avoiding damage to the display panel by the wireless charging component during operation. The display effect produces interference, thereby avoiding the coupling between the wireless charging pulse signal and the data voltage signal transmitted to the data line, so that the data voltage signal written to the data line fluctuates, and there is no need to add any other devices to the display device. The shielding structure does not need to increase the power consumption of the device. Only through the simple timing control of the display drive circuit and the wireless charging drive circuit in the drive circuit, the abnormal display phenomenon of water ripples on the display screen can be avoided, and the display quality of the display device can be effectively improved. .

虽然已经通过例子对本发明的一些特定实施例进行了详细说明，但是本领域的技术人员应该理解，以上例子仅是为了进行说明，而不是为了限制本发明的范围。本领域的技术人员应该理解，可在不脱离本发明的范围和精神的情况下，对以上实施例进行修改。本发明的范围由所附权利要求来限定。Although some specific embodiments of the present invention have been described in detail through examples, those skilled in the art should understand that the above examples are for illustration only and not intended to limit the scope of the present invention. Those skilled in the art will appreciate that modifications can be made to the above embodiments without departing from the scope and spirit of the invention. The scope of the invention is defined by the appended claims.

Claims (11)

Translated fromChinese

1.一种显示装置，其特征在于，包括：显示面板和无线充电组件，所述显示面板包括驱动电路和多个显示单元；1. A display device, characterized in that it comprises: a display panel and a wireless charging assembly, the display panel comprising a drive circuit and a plurality of display units;所述驱动电路包括显示驱动电路和无线充电驱动电路，所述显示驱动电路与所述显示单元电连接，所述无线充电驱动电路与所述无线充电组件电连接；在第一时间段，所述显示驱动电路向所述显示单元提供显示驱动信号；在第二时间段，所述无线充电驱动电路向所述无线充电组件提供充电信号；The driving circuit includes a display driving circuit and a wireless charging driving circuit, the display driving circuit is electrically connected to the display unit, and the wireless charging driving circuit is electrically connected to the wireless charging component; during the first time period, the The display driving circuit provides a display driving signal to the display unit; during the second time period, the wireless charging driving circuit provides a charging signal to the wireless charging component;所述第一时间段与所述第二时间段不交叠；the first time period does not overlap with the second time period;所述第一时间段为一帧时间，所述第二时间段位于相邻两帧时间之间；或者，The first time period is a frame time, and the second time period is located between two adjacent frame times; or,所述显示面板包括显示区，在一帧时间内，所述显示区包括有效画面显示区域和非有效画面显示区域；所述一帧时间包括非有效画面显示时间段和有效画面显示时间段；The display panel includes a display area, and within one frame time, the display area includes an effective picture display area and a non-effective picture display area; the one frame time includes a non-effective picture display time period and an effective picture display time period;所述第一时间段与所述有效画面显示时间段交叠，所述第二时间段与所述非有效画面显示时间段交叠。The first time period overlaps with the effective picture display time period, and the second time period overlaps with the non-active picture display time period.2.根据权利要求1所述的显示装置，其特征在于，当所述显示面板包括显示区，在一帧时间内，所述显示区包括有效画面显示区域和非有效画面显示区域；所述一帧时间包括非有效画面显示时间段和有效画面显示时间段；所述第一时间段与所述有效画面显示时间段交叠，所述第二时间段与所述非有效画面显示时间段交叠时，多个所述显示单元沿第一方向依次排列形成一个显示单元行，多个所述显示单元行沿第二方向排列；其中，所述第一方向和所述第二方向相交；2. The display device according to claim 1, wherein when the display panel includes a display area, within one frame time, the display area includes an effective picture display area and a non-effective picture display area; the one The frame time includes a non-effective picture display time period and an effective picture display time period; the first time period overlaps with the effective picture display time period, and the second time period overlaps with the non-effective picture display time period When, a plurality of said display units are arranged in sequence along a first direction to form a display unit row, and a plurality of said display unit rows are arranged along a second direction; wherein, said first direction intersects said second direction;在所述非有效画面显示时间段内，所述显示驱动电路至少向第n个所述显示单元行不提供显示驱动信号，第n个所述显示单元行所在区域为所述非有效画面显示区域。During the non-effective picture display time period, the display drive circuit does not provide a display drive signal to at least the nth display unit row, and the area where the nth display unit row is located is the non-effective picture display area .3.根据权利要求1所述的显示装置，其特征在于，所述显示面板包括多条扫描线和多条数据线，所述扫描线和所述数据线交叉绝缘限定出所述显示单元所在区域；3. The display device according to claim 1, wherein the display panel comprises a plurality of scan lines and a plurality of data lines, and the cross insulation of the scan lines and the data lines defines the area where the display unit is located ;所述显示驱动电路包括扫描驱动电路和数据驱动电路；The display drive circuit includes a scan drive circuit and a data drive circuit;所述扫描驱动电路通过所述扫描线与所述显示单元电连接，所述数据驱动电路通过所述数据线与所述显示单元电连接。The scanning driving circuit is electrically connected to the display unit through the scanning line, and the data driving circuit is electrically connected to the display unit through the data line.4.根据权利要求1所述的显示装置，其特征在于，所述无线充电组件包括无线充电线圈和连接引线；4. The display device according to claim 1, wherein the wireless charging component comprises a wireless charging coil and a connecting lead;所述无线充电线圈通过所述连接引线与所述无线充电驱动电路电连接。The wireless charging coil is electrically connected to the wireless charging driving circuit through the connecting lead.5.根据权利要求4所述的显示装置，其特征在于，所述显示面板包括衬底，所述显示面板包括位于所述衬底相对两侧的出光侧和背光侧，所述无线充电线圈位于所述显示面板的背光侧。5. The display device according to claim 4, wherein the display panel comprises a substrate, the display panel comprises a light-emitting side and a backlight side located on opposite sides of the substrate, and the wireless charging coil is located at the backlight side of the display panel.6.根据权利要求4所述的显示装置，其特征在于，所述显示面板包括衬底，所述显示面板包括位于所述衬底相对两侧的出光侧和背光侧；所述无线充电线圈位于所述显示面板的出光侧。6. The display device according to claim 4, wherein the display panel includes a substrate, and the display panel includes a light-emitting side and a backlight side on opposite sides of the substrate; the wireless charging coil is located the light emitting side of the display panel.7.根据权利要求6所述的显示装置，其特征在于，7. The display device according to claim 6, wherein:所述无线充电线圈的制作材料包括透明导电材料。The manufacturing material of the wireless charging coil includes a transparent conductive material.8.根据权利要求6所述的显示装置，其特征在于，所述显示面板包括黑矩阵层，所述黑矩阵层位于所述衬底朝向所述出光侧的一侧，所述无线充电线圈位于所述黑矩阵层朝向所述衬底的一侧；8. The display device according to claim 6, wherein the display panel comprises a black matrix layer, the black matrix layer is located on the side of the substrate facing the light-emitting side, and the wireless charging coil is located The side of the black matrix layer facing the substrate;所述黑矩阵层包括多个遮光条，所述无线充电线圈向所述衬底的正投影位于所述遮光条向所述衬底的正投影范围内。The black matrix layer includes a plurality of shading strips, and the orthographic projection of the wireless charging coil to the substrate is within the range of the orthographic projection of the shading strips to the substrate.9.根据权利要求1所述的显示装置，其特征在于，所述显示装置还包括电连接的侦测单元和时序控制单元，所述时序控制单元通过选通开关与所述显示驱动电路和所述无线充电驱动电路分别电连接；9. The display device according to claim 1, characterized in that, the display device further comprises a detection unit and a timing control unit electrically connected, and the timing control unit communicates with the display driving circuit and the timing control unit through a gate switch. The above wireless charging drive circuits are electrically connected respectively;在所述第一时间段，所述选通开关控制所述时序控制单元与所述显示驱动电路电连接；During the first time period, the gate switch controls the timing control unit to be electrically connected to the display driving circuit;在所述第二时间段，所述选通开关控制所述时序控制单元与所述无线充电驱动电路电连接。During the second time period, the gating switch controls the timing control unit to be electrically connected to the wireless charging drive circuit.10.一种显示装置的驱动方法，其特征在于，所述驱动方法用于驱动权利要求1-9任一项所述的显示装置工作；10. A driving method for a display device, characterized in that the driving method is used to drive the display device according to any one of claims 1-9 to work;所述驱动方法中，所述显示装置的工作阶段至少包括第一时间段和第二时间段；In the driving method, the working phase of the display device includes at least a first time period and a second time period;在所述第一时间段，所述显示驱动电路向所述显示单元提供显示驱动信号，使得所述显示装置显示画面；During the first time period, the display driving circuit provides a display driving signal to the display unit, so that the display device displays a picture;在所述第二时间段，所述无线充电驱动电路向所述无线充电组件提供充电信号，使得所述显示装置充电；During the second time period, the wireless charging drive circuit provides a charging signal to the wireless charging component, so that the display device is charged;所述第一时间段与所述第二时间段不交叠。The first time period does not overlap with the second time period.11.根据权利要求10所述的驱动方法，其特征在于，11. The driving method according to claim 10, characterized in that,所述显示装置还包括电连接的侦测单元和时序控制单元，所述时序控制单元通过选通开关与所述显示驱动电路和所述无线充电驱动电路分别电连接；The display device further includes an electrically connected detection unit and a timing control unit, and the timing control unit is electrically connected to the display driving circuit and the wireless charging driving circuit respectively through a gate switch;所述显示装置的工作阶段还包括侦测阶段；The working stage of the display device also includes a detection stage;在所述侦测阶段，所述侦测单元侦测所述第一时间段的起始时刻和结束时刻，所述侦测单元侦测所述第二时间段的起始时刻和结束时刻，并将所述第一时间段的起始时刻和结束时刻、所述第二时间段的起始时刻和结束时刻提供至所述时序控制单元；In the detection phase, the detection unit detects the start time and the end time of the first time period, the detection unit detects the start time and the end time of the second time period, and providing the start time and end time of the first time period, the start time and end time of the second time period to the timing control unit;在所述第一时间段的起始时刻，所述选通开关控制所述时序控制单元与所述显示驱动电路电连接，所述选通开关控制所述时序控制单元不与所述无线充电驱动电路电连接，所述显示驱动电路开始向所述显示单元提供显示驱动信号；At the beginning moment of the first time period, the gating switch controls the timing control unit to be electrically connected to the display driving circuit, and the gating switch controls the timing control unit not to be connected to the wireless charging driver. The circuit is electrically connected, and the display driving circuit starts to provide a display driving signal to the display unit;在所述第一时间段的结束时刻，所述选通开关控制所述时序控制单元不与所述显示驱动电路电连接，所述显示驱动电路停止向所述显示单元提供显示驱动信号；At the end of the first time period, the gate switch controls the timing control unit not to be electrically connected to the display driving circuit, and the display driving circuit stops providing display driving signals to the display unit;在所述第二时间段的起始时刻，所述选通开关控制所述时序控制单元与所述无线充电驱动电路电连接，所述无线充电驱动电路开始向所述无线充电组件提供充电信号；At the beginning moment of the second time period, the gate switch controls the timing control unit to be electrically connected to the wireless charging driving circuit, and the wireless charging driving circuit starts to provide charging signals to the wireless charging component;在所述第二时间段的结束时刻，所述选通开关控制所述时序控制单元不与所述无线充电驱动电路电连接，所述无线充电驱动电路停止向所述无线充电组件提供充电信号。At the end of the second time period, the gating switch controls the timing control unit not to be electrically connected to the wireless charging driving circuit, and the wireless charging driving circuit stops providing charging signals to the wireless charging component.

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