DRIVING CIRCUIT BOARD AND DISPLAY APPARATUS
Опубликовано: 03-06-2021
Автор(ы): Guo Junjie, SUN Zhihua, YAO SHULIN
Принадлежит:
Реферат: A driving circuit board includes: a circuit connection board having a first surface and a second surface that is opposite to the first surface in a thickness direction of the circuit connection board; at least one driver integrated circuit (IC) disposed on the first surface of the circuit connection board; and a printed circuit board assembly (PCBA) bonded to the second surface of the circuit connection board.
Заявка: 1. A driving circuit board , comprising:a circuit connection board, having a first surface and a second surface that is opposite to the first surface in a thickness direction of the circuit connection board;at least one driver integrated circuit (IC) disposed on the first surface of the circuit connection board; anda printed circuit board assembly (PCBA) bonded to the second surface of the circuit connection board.2. The driving circuit board according to claim 1 , wherein the circuit connection board has a first region claim 1 , a second region claim 1 , and a third region located between the first region and the second region; the second region is closer to the PCBA than the first region claim 1 , wherein a plurality of first pads disposed in the first region, wherein surfaces of the plurality of first pads facing away from the second surface are within the first surface; and', 'a plurality of second pads disposed in the second region, wherein surfaces of the plurality of second pads facing away from the first surface are within the second surface;, 'the circuit connection board includesthe at least one driver IC is located in the third region; andthe PCBA is bonded to the circuit connection board via the plurality of second pads.3. The driving circuit board according to claim 2 , wherein along a first direction that is a direction from the second region to the first region or a direction from the first region to the second region claim 2 , the PCBA is within a region from a first side face of the circuit connection board to a second side face of the circuit connection board that is opposite to the first side face.4. The driving circuit board according to claim 3 , wherein the second region is closer to the second side face of the circuit connection board than the first region claim 3 , and one side face of the PCBA closest to the second side face of the circuit connection board along the direction from the first region to the second region is flush with the second side face of the circuit connection board.5. The driving circuit board according to claim 3 , wherein a distance from the first side face of the circuit connection board to the second side face of the circuit connection board along the first direction is in a range of approximately 15 mm to approximately 21 mm.6. The driving circuit board according to claim 1 , wherein the circuit connection board is a flexible printed circuit.7. The driving circuit board according to claim 1 , wherein the PCBA includes:a printed circuit board;a timing controller disposed on a surface of the printed circuit board facing the circuit connection board, wherein the timing controller is configured to convert an image data signal into a signal suitable for the driver IC and output the signal to the driver IC; anda power management integrated circuit (PMIC) disposed on the surface of the printed circuit board facing the circuit connection board, wherein the PMIC is configured to provide operating voltages.8. A display apparatus claim 1 , comprising:a display panel, including an array substrate and a first substrate; and{'claim-ref': {'@idref': 'CLM-00001', 'claim 1'}, 'the driving circuit board according to bonded onto a surface of the array substrate facing the first substrate.'}9. The display apparatus according to claim 8 , wherein the circuit connection board has a first region claim 8 , a second region claim 8 , and a third region located between the first region and the second region claim 8 , and the second region is closer to the PCBA than the first region;the circuit connection board includes a plurality of first pads disposed in the first region, and a plurality of second pads disposed in the second region; surfaces of the plurality of first pads facing away from the second surface is within the first surface, and surfaces of the plurality of second pads facing away from the first surface is within the second surface; and the at least one driver IC is located in the third region;the display panel has a display region and a peripheral region, and the peripheral region includes a bonding region; andthe display panel includes a plurality of bonding portions located in the bonding region, and the circuit connection board is electrically connected to the plurality of bonding portions through the plurality of first pads; andthe second region and the third region of the circuit connection board are both located outside the display panel.10. The display apparatus according to claim 9 , wherein along a first direction that is a direction from the second region to the first region or a direction from the first region to the second region claim 9 , a length of a portion of the circuit connection board that exceeds the display panel is in a range of approximately 14 mm to approximately 20 mm.11. The display apparatus according to claim 9 , further comprising a system main board electrically connected to the PCBA claim 9 , whereinthe PCBA includes a timing controller and a power management integrated circuit (PMIC), andthe system main board is configured to provide an image data signal to the timing controller and a power supply voltage to the PMIC.12. The display apparatus according to claim 11 , wherein the system main board is located at a side of the circuit connection board away from the PCBA in the thickness direction of the circuit connection board.13. The display apparatus according to claim 8 , wherein the display panel is a liquid crystal display (LCD) panel or an organic light-emitting diode (OLED) display panel.14. The display apparatus according to claim 13 , wherein the display panel is the LCD panel claim 13 , and the display apparatus further comprises a backlight module disposed at a side of the array substrate away from the first substrate in a thickness direction of the array substrate.15. The display apparatus according to claim 14 , wherein the backlight module includes a light source and a light guide plate claim 14 , and the light source is located at a side face of the light guide plate along a direction perpendicular to a thickness direction of the light guide plate.
Описание: This application claims priority to Chinese Patent Application No. 201922114466.5, filed on Nov. 29, 2019, which is incorporated herein by reference in its entirety.The present disclosure relates to the field of display technologies, and in particular, to a driving circuit board and a display apparatus.With the development of display technology, light weight, small thickness and narrow bezel are increasingly being pursued by the industry in the design of liquid crystal display (LCD) apparatuses and organic light-emitting diode (OLED) display apparatuses. SUMMARYIn one aspect, a driving circuit board is provided. The driving circuit board includes a circuit connection board, at least one driver integrated circuit (IC) and a printed circuit board assembly (PCBA). The circuit connection board has a first surface and a second surface that is opposite to the first surface in a thickness direction of the circuit connection board. The at least one driver IC is disposed on the first surface of the circuit connection board. The PCBA is bonded to the second surface of the circuit connection board.In some embodiments, the circuit connection board has a first region, a second region, and a third region located between the first region and the second region. The second region is closer to the PCBA than the first region. The circuit connection board includes a plurality of first pads disposed in the first region and a plurality of second pads disposed in the second region. Surfaces of the plurality of first pads facing away from the second surface are within the first surface, and surfaces of the plurality of second pads facing away from the first surface are within the second surface. The at least one driver IC is located in the third region, and the PCBA is bonded to the circuit connection board via the plurality of second pads.In some embodiments, along a first direction that is a direction from the second region to the first region or a direction from the first region to the second region, the PCBA is within a region from a first side face of the circuit connection board to a second side face of the circuit connection board that is opposite to the first side face.In some embodiments, the second region is closer to the second side face of the circuit connection board than the first region, and one side face of the PCBA closest to the second side face of the circuit connection board along the direction from the first region to the second region is flush with the second side face of the circuit connection board.In some embodiments, a distance from the first side face of the circuit connection board to the second side face of the circuit connection board along the first direction is in a range of approximately 15 mm to approximately 21 mm.In some embodiments, the circuit connection board is a flexible printed circuit.In some embodiments, the PCBA includes: a printed circuit board, a timing controller disposed on a surface of the printed circuit board facing the circuit connection board, and a power management integrated circuit (PMIC) disposed on the surface of the printed circuit board facing the circuit connection board. The timing controller is configured to convert an image data signal into a signal suitable for the driver IC and output the signal to the driver IC. The PM IC is configured to provide operating voltages.In another aspect, a display apparatus is provided. The display apparatus includes a display panel and the driving circuit board as described above. The display panel includes an array substrate and a first substrate. The driving circuit board is bonded onto a surface of the array substrate facing the first substrate.In some embodiments, the circuit connection board has a first region, a second region, and a third region located between the first region and the second region, and the second region is closer to the PCBA than the first region. The circuit connection board includes a plurality of first pads disposed in the first region, and a plurality of second pads disposed in the second region; surfaces of the plurality of first pads facing away from the second surface is within the first surface, and surfaces of the plurality of second pads facing away from the first surface is within the second surface; and the at least one driver IC is located in the third region. The display panel has a display region and a peripheral region, and the peripheral region includes a bonding region. The display panel includes a plurality of bonding portions located in the bonding region, and the circuit connection board is electrically connected to the plurality of bonding portions through the plurality of first pads. The second region and the third region of the circuit connection board are both located outside the display panel.In some embodiments, along a first direction that is a direction from the second region to the first region or a direction from the first region to the second region, a length of a portion of the circuit connection board that exceeds the display panel is in a range of approximately 14 mm to approximately 20 mm.In some embodiments, the display apparatus further includes a system main board electrically connected to the PCBA. The PCBA includes a timing controller and a power management integrated circuit (PMIC). The system main board is configured to provide an image data signal to the timing controller and a power supply voltage to the PMIC.In some embodiments, the system main board is located at a side of the circuit connection board away from the PCBA in the thickness direction of the circuit connection board.In some embodiments, the display panel is a liquid crystal display (LCD) panel or an organic light-emitting diode (OLED) display panel.In some embodiments, the display panel is the LCD panel. The display apparatus further includes a backlight module disposed at a side of the array substrate away from the first substrate in a thickness direction of the array substrate.In some embodiments, the backlight module includes a light source and a light guide plate, and the light source is located at a side face of the light guide plate along a direction perpendicular to a thickness direction of the light guide plate.Exemplary embodiments are described herein with reference to cross-sectional views and/or plan views that are idealized and exemplary drawings. In the drawings, thicknesses of layers and regions may be enlarged for clarity. Therefore, it may be conceived that shapes in the drawings can be correspondingly modified due to fabrication technologies and/or tolerances. Exemplary embodiments should not be construed as being limited to the shapes of the regions shown herein, and shall include, for example, deviations of shapes caused by fabrication. For example, a region illustrated as a rectangle will generally have curved features. Therefore, the regions illustrated in the drawings are schematic and their shapes are not intended to illustrate the actual shapes of the regions of an apparatus and are not intended to limit the scope of the exemplary embodiments.Technical solutions in some embodiments of the present disclosure will be described clearly and completely with reference to accompanying drawings. Obviously, the described embodiments are merely some but not all of the embodiments of the present disclosure. All other embodiments obtained on a basis of the embodiments of the present disclosure by a person of ordinary skill in the art shall be included in the protection scope of the present disclosure.Unless the context requires otherwise, the term “comprise” and other forms thereof such as the third-person singular form “comprises” and the present participle form “comprising”' in the specification and the claims are interpreted as open and inclusive, meaning “including, but not limited to.” In the description of the specification, terms such as “one embodiment”, “some embodiments”, “exemplary embodiments”, “example”, “specific example” or “some examples” are intended to indicate that specific features, structures, materials or characteristics related to the embodiment(s) or example(s) are included in at least one embodiment or example of the present disclosure. Schematic representations of the above terms do not necessarily refer to the same embodiment or example. In addition, the specific features, structures, materials or characteristics may be included in any one or more embodiments or examples in any suitable manner.Below, terms such as “first” and “second” are only used for descriptive purposes and are not to be construed as indicating or implying the relative importance or implicitly indicating the number of indicated technical features. Therefore, a feature defined by “first” or “second” may include one or more of the features, either explicitly or implicitly. In the description of the embodiments of the present disclosure, the term “a/the plurality of” means two or more unless otherwise specified.In the description of some embodiments, the term “connected” and its derivatives may be used. For example, the term “connected” may be used in the description of some embodiments to indicate that two or more components are in direct physical or electrical contact with each other. However, the term “connected” may also mean that two or more components are not in direct contact with each other but still cooperate or interact with each other. The embodiments disclosed herein are not necessarily limited to the content herein.Orientations or positional relationships indicated by terms “center”, “upper”, “lower”, “front”, “rear”, “left”, “right”, “vertical”, “horizontal”, “top”, “bottom”, “inner”, “outer”, etc. are based on orientations or positional relationships shown in the drawings, merely to facilitate and simplify the description of the present disclosure, rather than to indicate or imply that the referred devices or elements must have a particular orientation, or must be constructed or operated in a particular orientation. Therefore they should not be construed as limitations to the present disclosure.“Approximately” as used herein is inclusive of the stated value and means within an acceptable range of deviation for the particular value as determined by one of ordinary skill in the art, considering the measurement in question and the error associated with measurement of the particular quantity (i.e., the limitations of the measurement system).As shown in , the display apparatus includes a display panel and a driving circuit board connected to the display panel . The driving circuit board is configured to drive the display panel to display images.As shown in , the driving circuit board includes a circuit connection board , at least one driver integrated circuit (IC) disposed on a first surface L of the circuit connection board , and a printed circuit board assembly (PCBA) disposed on the circuit connection board .The circuit connection board is bonded to the display panel , and serves to connect both the PCBA and the at least one driver IC and the display panel . For example, the circuit connection board is bonded to the display panel by a pressing process.The at least one driver IC may be soldered on the first surface L of the circuit connection board . After the circuit connection board is bonded to the display panel , a signal output by the at least one driver IC may be transmitted to the display panel through the circuit connection board .The number of the at least one driver IC is not limited herein. For example, the at least one driver IC may include one driver IC , or a plurality of driver ICs .The driving circuit board may include a plurality of circuit connection boards , and each of the plurality of circuit connection boards has a same structure as the circuit connection board described above. Correspondingly, each circuit connection board is bonded to the display panel .The PCBA is electrically connected to the driver IC through the circuit connection board after being bonded to the circuit connection board , making it possible for the PCBA to control the driver IC to output corresponding signals to the display panel . Meanwhile, the PCBA may also be able to output other signals to the display panel through the circuit connection board , so that the display panel is driven to display images.For example, the driver IC is a source driver IC. The PCBA is configured to output image data signals, control signals, etc. to the driver IC , and output clock signals, start signals indicating a start of a frame of an image, output enable (OE) signals, and other signals to the display panel . The control signals may include a start horizontal (STH) signal and a clock pulse horizontal (CPH) signal.After receiving the image data signals and the control signals, the driver IC converts the image data signals into grayscale voltage signals and transmits the grayscale voltage signals to a plurality of data lines in the display panel through the circuit connection board . The display panel displays images according to the grayscale voltage signals output by the driver IC and other signals including clock signals, start signals, and OE signals.As shown in , both the PCBA and the driver IC are usually disposed on the first surface L of the circuit connection board to reduce the thickness of the display apparatus. Due to a limited size of the circuit connection board , it is impossible to provide ample space for both the driver IC and the PCBA . Therefore, the PCBA will exceed a lower edge of the circuit connection board by, for example, a length of approximately 10 mm to approximately 15 mm, and the entire driving circuit board may exceed an edge of the display panel by a length H of approximately 60 mm. As a result, after the display panel and the driving circuit board are assembled into the display apparatus, the display apparatus will have a long bottom bezel, causing a problem of “long chin”.In order to avoid the “long chin” problem, as shown in , the circuit connection board is designed as a flexible printed circuit (FPC), so that the PCBA can be transferred to the back of the display panel (i.e., a side of the display panel away from a display surface) by bending the FPC when the display apparatus is being assembled. For example, the PCBA is transferred to a side of a backlight module in the display apparatus away from the display panel and fixed in a rear case of the display apparatus. However, as shown in , the arrangement of the PCBA in which the PCBA is transferred to the back of the display panel may increase an overall thickness W of the array substrate and the PCBA (i.e., a distance from a surface of the array substrate bonding the circuit connection board to a surface of the PCBA bonding the circuit connection board along a thickness direction of the array substrate , as shown in ) to approximately 20 mm. In this case, after the display panel and the driving circuit board are assembled together, there will be a large difference between a thickness of a lower portion of the display apparatus (i.e., a portion of the array apparatus provided with the PCBA ) and a thickness of an upper portion of the display apparatus. As a result, after the rear case of the display apparatus is assembled, the rear case will be protruding as shown in , which is not conducive to manufacturing flat panel display apparatuses.Herein, the overall thickness W of the array substrate and the PCBA refers to a distance between two furthest surfaces of the array substrate and the PCBA along the thickness direction of the array substrate after the driving circuit board and the display panel are assembled together.In some embodiments of the present disclosure, as shown in , the at least one driver IC is disposed on the first surface L of the circuit connection board , and the PCBA is bonded to a second surface L of the circuit connection board opposite to the first surface L along the thickness direction of the circuit connection board .In the driving circuit board provided in some embodiments of the present disclosure, since the driver IC and the PCBA are respectively located on the first surface L and the second surface L of the circuit connection board that are opposite to each other in the thickness direction of the circuit connection board , there is enough space for the PCBA on the second surface L. Therefore, more portions of the PCBA may be located on the circuit connection board (that is, more portions of the PCBA may overlap the circuit connection board ). Correspondingly, fewer portions of the PCBA will exceed beyond the circuit connection board , thereby avoiding the “long chin” problem of the display apparatus. In this case, in the display apparatus including the driving circuit board , the PCBA does not need to be arranged at the back of the display panel , and the difference between the thickness of the upper portion and the thickness of the lower portion of the display apparatus may be effectively reduced. In particular, the driving circuit board may be applied to a flat panel display apparatus such as a flat panel television.In some examples, the PCBA is bonded to the second surface L of the circuit connection board by a pressing process.In some examples, the driving circuit board includes a plurality of circuit connection board . The PCBA is bonded to the second surface L of each circuit connection board .In some embodiments, the circuit connection board is a FPC. The driver IC may be provided on the FPC to form a Chip on Film (COF).Herein, although the circuit connection board is the FPC, the circuit connection board is not bent. That is, the PCBA is not arranged at the back of the display panel , and is located outside an edge of the display panel .Since the FPC is not bent, the overall thickness W of the array substrate and the PCBA (i.e., as shown in , a distance from a surface of the array substrate facing away from the circuit connection board to a surface of the PCBA facing away from the circuit connection board along a thickness direction of the array substrate ) may be reduced to approximately 1 mm. As a comparison, the overall thickness W of the array substrate and the PCBA in is approximately 20 mm.Of course, in a case where the circuit connection board is not bent, the circuit connection board may also be an ordinary hard circuit board.In some embodiments, as shown in , the circuit connection board has a first region B, a second region C, and a third region D located between the first region B and the second region C, and the second region C is closer to the PCBA than the first region B.In this case, as shown in , the circuit connection board includes: a plurality of first pads provided in the first region B, and a plurality of second pads provided in the second region C. Surfaces of the plurality of first pads facing away from the second surface L are within the first surface L, and surfaces of the plurality of second pads facing away from the first surface L are within the second surface L. The circuit connection board is bonded to the display panel via the plurality of first pads , and the circuit connection board is bonded to the PCBA via the plurality of second pads . The at least one driver IC is provided on the first surface L and located in the third region D.In some embodiments, as shown in , along a first direction, the PCBA does not exceed a first side face M and a second side face M of the circuit connection board that are opposite to each other. The first direction is a direction from the second region C to the first region B or a direction from the first region B to the second region C.The PCBA is located on the second surface L of the circuit connection board and is bonded to the circuit connection board via the plurality of second pads in the second region C, and the driver IC is located on the first surface L of the circuit connection board . The PCBA may not only be located in the second region C of the circuit connection board , but may also be located in the third region D of the circuit connection board . In this case, by arranging that the PCBA does not exceed the first side face M and the second side face M of the circuit connection board that are opposite to each other along the first direction, in a case where the driving circuit board is applied to a display apparatus, it may be possible to ensure that the entire driving circuit board and the circuit connection board exceed the display panel by a same distance, thereby further avoiding the “long chin” problem.In this case, as shown in , in a second direction perpendicular to the first direction, the PCBA can exceed a third side face and a fourth side face of the circuit connection board that are opposite to each other. For example, a width of the PCBA in the second direction may be slightly less than a width of the display panel in the second direction. By increasing a lateral dimension of the PCBA , an area of the PCBA may be increased, which is conducive for arranging more functional circuits on the PCBA .In some embodiments, as shown in , the second region C is closer to the second side face M of the circuit connection board than the first region B. That is, the second side face M is a side face of the circuit connection board facing away from the display panel . In this case, a side face of the PCBA closest to the second side face M of the circuit connection board in the direction from the first region B to the second region C is flush with the second side face M.In some embodiments, a distance from the first side face M of the circuit connection board to the second side face M of the circuit connection board along the first direction is in a range of approximately 15 mm to approximately 21 mm. For example, the distance from the first side face M of the circuit connection board to the second side face M of the circuit connection board along the first direction is approximately 15 mm, approximately 17 mm, approximately 18 mm, approximately 20 mm, or approximately 21 mm.As shown in , it can be known from the above description that the circuit connection board may be the FPC, the FPC is usually bent to transfer the PCBA to the back of the display panel , and therefore a length of the FPC is generally 40 mm. However, in some embodiments of the present disclosure, as shown in , the circuit connection board is not bent, and therefore the length of the circuit connection board is significantly reduced.In this case, along the first direction, a dimension of the first region B of the circuit connection board that is bonded to the display panel is approximately 1 mm. Therefore, as shown in , the circuit connection board exceeds the edge of the display panel by a length H in a range of approximately 14 mm to approximately 20 mm. However, as shown in , in the case where the PCBA and the driver IC are disposed on the first surface L of the circuit connection board , the driving circuit board exceeds the edge of the display panel by a length H of approximately 60 mm. In comparison, in the display apparatus provided in some embodiments of the present disclosure, the length H by which the driving circuit board exceeds the edge of the display panel is significantly reduced.In some embodiments, as shown in , the PCBA includes a printed circuit board (PCB) , and a timing controller (TCON) , a power management integrated circuit (PMIC) , a gamma integrated circuit (GAMMA IC) , etc. that are provided on the PCB and located on a surface of the PCB facing the circuit connection board . The TCON is configured to convert an image data signal into a signal suitable for the driver IC and output the signal to the driving IC ; and the PMIC is configured to provide operating voltages to the driving circuit board and the display panel . The GAMMA IC is configured to generate a gamma voltage, so that the driver IC processes the received data signal according to the gamma voltage to generate a data voltage signal.In some embodiments, the display panel may be a liquid crystal display (LCD) panel or an organic light-emitting diode (OLED) display panel. In a case where the display panel is the LCD panel, the display apparatus is a LCD apparatus. In a case where the display panel is the OLED display panel, the display apparatus is an OLED display apparatus.In some embodiments, as shown in , the display panel includes a display region A and a peripheral region S surrounding the display region A. Sub-pixels are located in the display region A, and the peripheral region S is used for arranging wires. In addition, a gate driving circuit of the display panel is disposed in the peripheral region S.As shown in , the display panel includes an array substrate . The description that the circuit connection board in the driving circuit board is bonded to the display panel actually means that the circuit connection board is bonded to a plurality of bonding portions (e.g., pads) located in the peripheral region S of the array substrate . In this way, electrical connection is realized between the circuit connection board and a plurality of signal lines connected to the plurality of bonding portions .For example, the plurality of bonding portions are located in a region of the array substrate that is proximate to the bottom bezel of the display panel .In an example where the display panel is the LCD panel, as shown in , the LCD panel includes an array substrate , a first substrate , and a liquid crystal layer located between the array substrate and the first substrate .For example, as shown in , the array substrate includes a first substrate , and a thin film transistor and a pixel electrode provided on the first substrate and located in each sub-pixel in the display region A. The thin film transistor includes an active layer, a source, a drain, and a gate. The array substrate further includes a gate insulating layer disposed between the gate and the active layer. The source and the drain are both in contact with the active layer, and the pixel electrode is electrically connected to the drain of the thin film transistor . Since the source and the drain of the thin film transistor are generally symmetrical in structure and composition, there is no difference between the source and the drain. In some embodiments of the present disclosure, in order to distinguish two electrodes other than the gate in the same thin film transistor , one electrode is referred to as a source, and another electrode is referred to as a drain. Of course, the thin film transistor in the embodiments of the present disclosure may also be replaced with other electronic components having switching properties.For example, each row of sub-pixels is electrically connected to a corresponding gate line, and each column of sub-pixels is electrically connected to a corresponding data line.For example, all the gate lines extend to the peripheral region S and are electrically connected to the gate driving circuit that is located in the peripheral region S and integrated in the array substrate . All the data lines extend to the peripheral region S and are connected to some of the plurality of bonding portions in one-to-one correspondence, so as to realize electrical connection between one or more data lines and a corresponding driver IC .The thin film transistor is, for example, a bottom-gate thin film transistor, a top-gate thin film transistor, or a dual-gate thin film transistor. In , the bottom-gate thin film transistor is taken as an example for illustration.In some examples, as shown in , the array substrate further includes a common electrode disposed above the first substrate . For example, the pixel electrode and the common electrode are disposed in a same layer. In this case, the pixel electrode and the common electrode both have a comb structure including a plurality of strip-shaped sub-electrodes. For another example, the pixel electrode and the common electrode are disposed in different layers. In this case, as shown in , the array substrate further includes a first insulating layer provided between the pixel electrode and the common electrode . In addition, as shown in , the common electrode is provided between the thin film transistor and the pixel electrode , and the array substrate further includes a second insulating layer provided between the common electrode and the thin film transistor .In some other examples, the common electrode is provided in the first substrate .For example, as shown in , the first substrate includes a second substrate , and a color filter layer provided on one side of the second substrate . In this case, the first substrate may also be referred to as a color filter (CF) substrate. The color filter layer includes at least a filter unit of a first color, a filter unit of a second color, and a filter unit of a third color. Each of the filter unit of the first color, the filter unit of the second color and the filter unit of the third color is located in a sub-pixel. The first color, the second color, and the third color herein are three primary colors, for example, red, green, and blue, respectively. The first substrate further includes a black matrix provided on the second substrate . The black matrix is used to separate the filter unit of the first color, the filter unit of the second color, and the filter unit of the third color from each other.As shown in , the LCD panel further includes an upper polarizer provided on a side of the first substrate away from the liquid crystal layer and a lower polarizer provided on a side of the array substrate away from the liquid crystal layer .In a case where the display panel is the OLED display panel, as shown in , the OLED display panel includes an array substrate and the first substrate . The first substrate may be an encapsulating structure, such as a glass plate or a flexible encapsulating layer for encapsulating.For example, as shown in , the array substrate includes a third substrate , and a light-emitting device and a driving circuit that are provided on the third substrate and located in each sub-pixel. The driving circuit includes a plurality of thin film transistors , and one of the plurality of thin film transistors is used as a driving transistor. The light-emitting device includes an anode , a light-emitting functional layer , and a cathode . The anode is electrically connected to the drain of the driving transistor. As shown in , the array substrate further includes a planarization layer provided between the plurality of thin film transistors and the anode .For example, each row of sub-pixels is electrically connected to a corresponding gate line, and each column of sub-pixels is electrically connected to a corresponding data line.For example, all the gate lines extend to the peripheral region S and are electrically connected to the gate driving circuit that is located in the peripheral region S and integrated in the array substrate . All the data lines extend to the peripheral region S and are connected to some of the plurality of bonding portions in one-to-one correspondence, so as to realize electrical connection between one or more data lines and a corresponding driver IC .In some examples, the light-emitting functional layer includes a light-emitting layer. In some other examples, in addition to the light-emitting layer, the light-emitting functional layer further includes at least one of an electron transporting layer (ETL), an electron injection layer (EIL), a hole transporting layer (HTL), or a hole injection layer (HIL).The light-emitting device is, for example, a bottom emission light-emitting device, a top emission light-emitting device, or a double sided emission light-emitting device. Herein, light emitted from the bottom emission light-emitting device travels in a direction toward the third substrate ; light emitted from the top emission light-emitting device travels in a direction away from the third substrate ; and light emitted from the double sided emission light-emitting device includes light traveling towards the third substrate and light traveling away from the third substrate .As shown in , the array substrate further includes a pixel defining layer . The pixel defining layer includes a plurality of openings, and each opening corresponds to a light-emitting device .is a diagram showing a system architecture of a display apparatus. The display apparatus may further include a system main board in addition to the display panel and the driving circuit board . The system main board is electrically connected to the PCBA in the driving circuit board . The driving circuit board is located between the system main board and the display panel .The PCBA includes the PCB , and the TCON , the PMIC , the gamma integrated circuit (GAMMA IC) , etc. that are provided on the PCB . The system main board is configured to provide an image data signal to the TCON and provide a power supply voltage to the PMIC . The TCON is configured to convert the image data signal into a signal suitable for the driver IC . The PMIC is configured to provide operating voltages for the display panel and elements in the driving circuit board other than the PMIC . For example, the PMIC is configured to provide operating voltages for the driver IC and the gate driving circuit. The GAMMA IC is configured to generate a gamma voltage, so that the driver IC processes the received data signal according to the gamma voltage to generate a data voltage signal.In some embodiments, as shown in , the peripheral region S includes a first sub-region S and a second sub-region S that are disposed at two opposite sides of the display region S respectively along the first direction. The first sub-region S includes a bonding region F, and the plurality of bonding portions are provided in the bonding region F. As shown in , the circuit connection board is bonded to corresponding bonding portions that are located in the bonding region F of the display panel through the plurality of first pads located in the first region B. The second region C and the third region D of the circuit connection board are both located outside the display panel .That is, as shown in , the first sub-region S of the display panel is a region corresponding to the bottom bezel of the display apparatus, and the second sub-region S of the display panel is a region corresponding to the top bezel of the display apparatus. The circuit connection board exceeds an edge of the first sub-region S away from the second sub-region S of the display panel (i.e., a lower edge of the display panel ) and is bonded to the display panel .In some embodiments, as shown in , along the first direction, the PCBA does not exceed the first side face M and the second side face M of the circuit connection board . That is, the PCBA does not exceed both edges of the circuit connection board along the first direction. In this way, the length H by which the driving circuit board exceeds the edge of the display panel may be significantly reduced.For example, as shown in , along the first direction, the side face of the PCBA facing away from the display panel (i.e., a lower edge of the PCBA ) is flush with the second side face M of the circuit connection board . In order to further reduce the “long chin” in some embodiments, the length H by which the circuit connection board exceeds the edge of the display panel may be controlled to be within a range of approximately 14 mm to approximately 20 mm. For example, the length H by which the circuit connection board exceeds the edge of the display panel is approximately 14 mm, approximately 15 mm, approximately 16 mm, approximately 17 mm, approximately 19 mm, or approximately 20 mm. Since the PCBA does not exceed the first side face M and the second side face M of the circuit connection board along the first direction, and a width of an overlapping portion of the circuit connection board and the first sub-region S of the display panel along the first direction is generally constant, the length H by which the driving circuit board exceeds the edge of the display panel may be controlled between approximately 14 mm and approximately 20 mm.In this case, due to reasons regarding the process of the pressing equipment, a dimension of the plurality of first pads along the first direction is approximately 1 mm. As a result, as shown in , the distance between the first side face M of the circuit connection board and the second side face M of the circuit connection board in the first direction is in a range of approximately 15 mm to approximately 21 mm.In some embodiments, as shown in , the system main board is located at a side of the circuit connection board away from the PCBA in the thickness direction of the circuit connection board .For example, the system main board is connected to the PCBA through a FPC, and the PCBA is transferred to the side of the circuit connection board away from the PCBA by bending the FPC. It will be noted that, is an illustration in which there is a distance between the system main board and the circuit connection board , but the position relationship between the system main board and the circuit connection board is not limited thereto in some embodiments. For example, the system main board may be in contact with the first surface L of the circuit connection board .The PCBA in the driving circuit board is not transferred to the back of the display panel , and the overall structure of the driving circuit board and the system main board is located at a side of the first sub-region S away from the second sub-region S in the first direction. Compared with the structure shown in , in some embodiments of the present disclosure, after the rear case is assembled, there will not be a large difference between the thicknesses of the upper portion and the lower portion of the display apparatus, and the structure in some embodiments of the present disclosure may be applied to the manufacture of flat panel display apparatuses.For another example, the system main board is independent of the display apparatus. For example, the display apparatus is a TV, the system main board may be provided in a set-top box of the TV, and the TV can be electrically connected to the set-top box through wires.In some embodiments, in a case where the display panel is the LCD panel, the display apparatus is a LCD apparatus. As shown in , the LCD apparatus further includes a backlight module . The backlight module is disposed at a side of the array substrate away from the first substrate in a thickness direction of the array substrate , and is used to provide backlight for the display panel .In some examples, the PCB is bonded to the circuit connection board , and two opposite sides of the PCB along the second direction are fixed to a bracket of the backlight module in the LCD apparatus.In some examples, as shown in , the display apparatus is an edge-lit display apparatus. That is, the backlight module includes a light source and a light guide plate , and the light source is located at a side face of the light guide plate along a direction perpendicular to the thickness direction of the light guide plate .The side-lit display apparatus including the driving circuit board according to some embodiments may have a small thickness, and thus may be applied to a flat panel TV.In some other examples, the display apparatus is a direct-lit display apparatus. That is, the backlight module includes the light source and the light guide plate , and the light source is located at a side of the light guide plate away from the display panel in the thickness direction of the display panel .The forgoing descriptions are merely specific implementation manners of the present disclosure, but the protection scope of the present disclosure is not limited thereto. Any person skilled in the art could readily conceive of changes or replacements within the technical scope of the present disclosure, which shall all be included in the protection scope of the present disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.
Circuit board, display panel, and display device
Номер патента: US9995977B2. Автор: Yasuhiko Tanaka,Masaki Nakayama,Takashi Matsui,Motoji Shiota,Hiroki Miyazaki. Владелец: Sharp Corp. Дата публикации: 2018-06-12.