WO2017005225A2 - Led发光组件、led发光面板和led显示屏 - Google Patents
Led发光组件、led发光面板和led显示屏 Download PDFInfo
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- WO2017005225A2 WO2017005225A2 PCT/CN2016/098611 CN2016098611W WO2017005225A2 WO 2017005225 A2 WO2017005225 A2 WO 2017005225A2 CN 2016098611 W CN2016098611 W CN 2016098611W WO 2017005225 A2 WO2017005225 A2 WO 2017005225A2
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- led
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Definitions
- the present disclosure relates to the field of LED display, for example, to LED lighting assemblies, LED lighting panels, and LED display panels.
- Transparent LED display is more and more popular in the market because it does not block the line of sight and its unique display effect. It is widely used in high-end occasions such as shopping malls, airports, banks, luxury stores, etc.
- the internal control circuit is extremely complicated, and good penetration is required. It is necessary to ensure that the most basic logic circuit is used to drive all the LED lights to work normally, and to minimize the hardware blocking of the line of sight.
- These hardware components include structural components. Circuit boards, plastic kits, and electronic components such as driver ICs and LED lamps. Therefore, the higher the pixel density of LED displays, the more difficult it is to achieve transparency. For example, the normal package size of LED lamps is SMD3535 (outer shape).
- LED display driver IC minimum package size also has 4mm ⁇ 4mm, plus complex logic
- the circuits are connected to each other, and it is basically impossible to realize a transparent LED display with a pixel pitch of 5 mm or less.
- the present disclosure provides an LED lighting assembly, an LED lighting panel, and an LED display screen, which are provided with a composite layer, a conductive layer and an insulating layer disposed in the composite layer, and an LED chip and a driving IC are mounted on the front side of the composite layer, the LED chip and The driver ICs are arranged at close distances, and the LED chips and the driver ICs are closely connected by direct gold wire bonding, which greatly reduces the complicated circuit pattern layer, and realizes high density of LED chips and driver ICs on the composite layer.
- the installation realizes the display of a delicate LED display, and at the same time, because the unpackaged LED chip and the driver IC are extremely small in size, it is hard to be perceived by the naked eye, thereby realizing a highly transparent LED display.
- an LED lighting assembly comprising: a composite layer, at least one LED chip set including an LED chip, and at least one driving IC; the composite layer includes a substrate on the front side;
- the LED chip and the driving IC are both mounted on the front side of the composite layer, and the negative electrode lead wire of the LED chip is connected to the driving IC; the front side of the composite layer is provided with a plurality of blind holes, and the LED
- the positive electrode of the chip passes through a blind hole to access the positive electrode from the inside of the composite layer;
- the VDD pin of the driving IC leads the wire through a blind hole to access the positive electrode from the inside of the composite layer;
- the foot leads out the wire
- the blind holes are connected to the negative electrode from inside the composite layer;
- the drive ICs are connected by signal lines.
- Another aspect employs an LED lighting panel comprising at least two of the foregoing LED lighting assemblies.
- an LED display screen is also used, including the aforementioned LED light-emitting panel.
- a conductive layer and an insulating layer are disposed in the composite layer, and the LED chip and the driving IC are mounted on the front side of the composite layer, and the LED chip and the driving IC mainly receive power through the conductive layer inside the composite layer.
- the insulation between the conductive layers is realized by the insulator.
- the driving IC and the LED chip are arranged at close distances, and the short connection is directly connected by the gold wire bonding method, thereby reducing the complicated circuit connection between the driving IC and the LED chip.
- the high-density mounting of the LED chip and the driver IC is realized on the layer, and the display of the fine LED display is realized.
- FIG. 1 is a front elevational view of a first embodiment of an LED lighting assembly provided in an embodiment of the present disclosure
- FIG. 2 is a front elevational view of a second embodiment of an LED lighting assembly provided in an embodiment of the present disclosure
- FIG. 3 is a schematic diagram of electrode distribution of a second embodiment of an LED lighting assembly provided in an embodiment of the present disclosure
- FIG. 4 is a schematic diagram of an internal structure of a third embodiment of an LED lighting assembly provided in an embodiment of the present disclosure
- FIG. 5 is a front elevational view of a fourth embodiment of an LED lighting assembly provided in an embodiment of the present disclosure.
- FIG. 6 is a schematic diagram of an internal structure of a fourth embodiment of an LED lighting assembly provided in an embodiment of the present disclosure.
- FIG. 7 is a schematic diagram of an internal structure of a fifth embodiment of an LED lighting assembly provided in an embodiment of the present disclosure.
- FIG. 8 is a schematic diagram of a trace of a signal line of an LED lighting assembly provided in an embodiment of the present disclosure
- FIG. 9 is a schematic structural diagram of an LED light emitting panel provided in an embodiment of the present disclosure.
- 10-composite layer 11-substrate; 12-electrode layer; 121-positive electrode; 122-negative electrode; 13-first insulating layer; 14-third insulating layer; 15-second insulating layer; Circuit layer; 20-drive IC; 21-signal pin; 22-signal line; 30-LED chip; 31-wire; 40-pad;
- the pixel pitch of the transparent LED display screen on the market is generally above 10 mm, and also reaches the pitch of 8 mm, but the transparency is not ideal.
- the invention with the application number CN200610164506.1 uses a transparent conductive film technology with high transparency, but because the transparent conductive film has a large impedance and a large pressure drop, the material cannot be planar like a common copper foil circuit board.
- the formation of small lines can not accommodate complex circuit patterns in a limited size range, so the spacing of the LED chips can only be made large, achieving simple lighting and displaying simple characters.
- CN201310011178 because the driving IC is disposed on the horizontally placed LED light bar, can accommodate complicated logic circuits, and the pixel pitch can reach 5-8 mm, but the pixel When the pitch is less than 5mm, the transparency is already low, and the meaning of the transparent LED display is lost.
- the LED lighting assembly comprises a composite layer 10, at least one LED chip set comprising LED chips 30, at least one driver IC 20; the composite layer 10 comprises a substrate 11 on the front side;
- the LED chip 30 and the driving IC 20 are both mounted on the front side of the composite layer 10.
- the negative lead wires 31 of the LED chip 30 are connected to the driving IC 20; the front side of the composite layer 10 is opened. a blind hole, the positive electrode of the LED chip 30 passes through the blind electrode to the positive electrode 121 from the inside of the composite layer 10; the VDD pin of the driving IC 20 leads the wire 31 through the blind hole from the composite layer 10
- the positive electrode 121 is internally connected; the GND pin lead-out wire 31 of the driving IC 20 is connected to the negative electrode 122 from the inside of the composite layer 10 through one of the blind holes; and the driving ICs 20 are connected by a signal line 22.
- the front side described in the present solution may refer to the side where the direction of light propagation when the light is emitted, and the direction of the light emission is used as a front-back reference in the description of the present scheme.
- One of the driver ICs 20 in the present scheme may correspond to one LED chipset, and the LED chipset and the driver IC 20 are arranged at intervals.
- the LED chip sets are generally distributed in an array, and the distance between two adjacent rows and the distance between adjacent two columns are equal.
- One light-emitting group may be composed of 2 ⁇ 1, 2 ⁇ 2 or 2 ⁇ 3 LED chip sets, each of which corresponds to one driving IC 20, and the driving IC 20 may be disposed at the center of the plane of the light-emitting group.
- the embodiment in the solution is described, it is based on a 2 ⁇ 2 lighting group layout manner.
- the composite layer 10 is a transparent composite layer 10.
- Composite layer 10 includes multiple layers of insulating or conductive transparent material Layered, insulating transparent materials such as PET, PVC, PC, PE, acrylic, etc.; conductive transparent materials such as acrylic conductive transparent adhesive, Indium Tin Oxide (ITO) and indium zinc oxide Indium Zinc Oxide (IZO).
- ITO Indium Tin Oxide
- IZO indium zinc oxide Indium Zinc Oxide
- the conductive transparent material can be attached to the surface of the adjacent insulating layer.
- a transparent conductor and a transparent insulator are disposed in the transparent composite layer 10, and the LED chip 30 and the driving IC 20 are mounted on the front side of the transparent composite layer 10, and the LED chip 30 and the driving IC 20 can pass through the transparent composite
- the transparent conductive body inside the layer 10 is connected, and the insulation between the transparent conductors is realized by the transparent insulator, and the transparent effect of the LED chip 30 and the area outside the driving IC 20 can be realized on the transparent composite layer 10, thereby providing An LED display screen capable of achieving a pixel pitch of 5 mm or less and a transparency of 90% or more.
- the embodiments of the present solution can be based on the implementation of the transparent composite layer 10 as described.
- each pixel In the LED display technology of the related art, one or more LED lights are arranged for each pixel to complete the display of the predetermined image, and the size of the LED lamp itself determines that the pixel of the LED display produced by the related art is large, and the display effect is insufficient. Exquisite, and because of the blocking of the LED lamp itself, high transmittance cannot be achieved.
- the implementation basis of each pixel is not a packaged LED lamp, but a very small LED chip 30.
- the LED chip 30 can be 0.15 mm ⁇ 0.15 mm in size. The chip can achieve fine pixel output.
- each pixel point is provided with an LED chip 30, which can realize a relatively simple LED display, wherein the LED chip 30 has a red, green, blue or white color, and is monochromatically illuminated.
- the LED can be used to display a bulletin board with a relatively simple content.
- the power supply of the LED chip 30 and the driving IC 20 can be realized by a transparent conductor disposed inside the composite layer 10; the signal between the LED chip 30 and the driving IC 20, between the driving IC 20 and the driving IC 20 Transmission can be achieved by signal lines 22 on the front side of composite layer 10.
- the LED chip 30 and the driving IC 20 may be mounted on the substrate 11 by a COB or COG process.
- the front side of the substrate 11 is covered with a transparent sealant, and the transparent sealant is generally made of a material such as polyurethane, epoxy resin, polyvinyl acetate, polyvinyl acetate or the like.
- a conductive layer and an insulating layer are disposed in the composite layer 10, and the LED chip 30 and the driving IC 20 are mounted on the front side of the composite layer 10, and the LED chip 30 and the driving IC 20 are directly connected, thereby avoiding the ordinary LED.
- the display driver IC 20 controls the LED chip 30 in the most direct and short-range manner by connecting the complex circuit of the 2-layer or multi-layer circuit board to the LED chip 30.
- the high-density mounting of the LED chip 30 and the driving IC 20 is realized on the composite layer 10, and at the same time, since the LED chip 30 and the driving IC 20 are in the form of no package, the transparent composite layer 10 is directly mounted in the form of COB or COG. Because of its small size, it is difficult to distinguish with the naked eye, and it can be installed intensively, achieving high transparency and high-density and delicate display.
- the LED chipset includes an R-LED chip, a G-LED chip, and a B-LED chip.
- the arrangement of the three LED chips 30 can provide rich color variations and realize display of color images.
- the composite layer 10 further includes an electrode layer and an insulating layer disposed on the rear side of the substrate 11 in sequence;
- the electrode layer is provided with a positive electrode 121 and a negative electrode 122, and the substrate 11 is provided with a plurality of blind holes reaching the positive electrode 121 or the negative electrode 122.
- the positive electrode 121 and the negative electrode 122 are required to be supplied with power.
- the electrode layer is not completely covered on the rear side of the substrate 11, but two independent electrodes (positive electrode 121 and negative electrode 122), positive electrode 121 and negative are disposed between the substrate 11 and the insulating layer.
- the electrodes 122 can be considered to be in the same layer, but the two work independently.
- the thickness of the electrode layer prepared by the transparent conductor is extremely small.
- the width of the electrode layer is generally set to be relatively large. Alternatively, the width of each electrode layer can be made close to the width of the substrate 11. Half of it.
- a blind hole formed in the substrate 11 reaches the positive electrode 121 and the negative electrode 122, and the two power pins of the driving IC 20 are respectively connected to the positive electrode 121 and the negative electrode 122 from the blind hole; of course, the positive electrode of the LED chip 30
- the positive electrode 121 is also connected through a blind hole.
- the bottom of the blind hole may be provided with a pad 40, which is equivalent to being connected to the corresponding conductive layer through the pad 40.
- Both the wire 31 and the signal wire 22 are gold wires that are bound in a manner.
- the gold wire is a wire having a very small diameter and being invisible to the naked eye, and the LED chip 30 and the driving IC 20, the LED chip 30 and the inside of the composite layer 10, the driving IC 20, and the inside of the composite layer 10 are each connected by a gold wire.
- FIG. 4 is a schematic diagram of the internal structure of a third embodiment of an LED lighting assembly provided in an embodiment of the present disclosure.
- the internal structure diagram in this embodiment may be the LED in FIG. 2 based on the second embodiment.
- the layout of the chipset is implemented.
- the composite layer 10 further includes a first electrode layer, a first insulating layer 13, a second electrode layer, and a second insulating layer 15 which are sequentially disposed on the rear side of the substrate 11;
- One of the electrode layer and the second electrode layer is disposed as a positive electrode 121, and the other is disposed as a negative electrode 122;
- the blind hole includes a first blind hole extending through the substrate 11 to the positive electrode 121, and extends through the substrate 11.
- the positive lead wire 31 of the LED chip 30 is connected to the positive electrode 121 through the first blind hole;
- the VDD pin of the driving IC 20 leads the wire 31 through the first A blind via is connected to the positive electrode 121, and a GND pin lead-out wire 31 of the driving IC 20 is connected to the negative electrode 122 through the second blind via.
- FIG. 4 is not a cross-sectional view of a position in FIG. 2, but is only a schematic diagram of the internal structure of the solution shown in the second embodiment, which is the depth of the blind hole and the corresponding conductive layer and the driving IC 20 or The connection method of the LED chip 30. In the present scheme, all connections to the interior of the composite layer 10 are achieved by pads 40.
- the first electrode layer is disposed as the positive electrode 121
- the second electrode layer is disposed as the negative electrode 122; the two may also be interchanged, that is, the first electrode layer is disposed as the negative electrode 122;
- the electrode layer is provided as a positive electrode 121.
- FIG. 5 and FIG. 6 are respectively a front view and an internal structure diagram of a fourth embodiment provided in an embodiment of the present disclosure.
- each of the five LED chip sets constitutes one illuminating group, and each illuminating group corresponds to one driving IC 20, and each illuminating group is located in two adjacent rows, one of which acts as two LED chip sets, and the other acts as 3
- the LED chipsets are disposed between the adjacent two rows.
- a driving IC 20 drives 5 groups of 3 groups of LED chipsets, and LEDs carried by two adjacent driving ICs 20 are interleaved as shown in FIG. 5.
- the practical significance of this driving mode is that the commonly used driving ICs 20 are 16
- the output channel drives the LED chip 30. If there are exactly 5 groups of 5 LED chipsets, if the 2 ⁇ 3 LED chipset is driven, then 18 channels are needed, and 16 channels are not enough. Of course, if you need to drive a 2 ⁇ 3 LED chipset, you can make an 18-channel driver IC 20.
- the driving IC 20 has only one opposite direction to facilitate the routing of the signal line 22, when multiple When the LED lighting assembly of the embodiment constitutes a large LED lighting panel, it can only extend in a horizontal or vertical direction, and extending in the other direction is subject to the LED chip set in the direction.
- the internal structure as shown in Fig. 6 is specifically proposed and routed.
- the composite layer 10 further includes a first electrode layer, a first insulating layer 13, a second electrode layer, and a second insulating layer 15 which are sequentially disposed on the rear side of the substrate 11; Electrode layer and second One of the electrode layers is disposed as a positive electrode 121, and the other is disposed as a negative electrode 122; the blind hole includes a first blind hole extending through the substrate 11 to the positive electrode 121, and a first through the substrate 11 to reach the negative electrode 122 a second blind hole; the positive lead wire 31 of the LED chip 30 is connected to the positive electrode 121 through the first blind hole; the VDD pin of the driving IC 20 leads the wire 31 through the first blind hole and the The positive electrode 121 is connected, and the GND pin lead-out wire 31 of the driving IC 20 is connected to the negative electrode 122 through the second blind hole; further comprising a third insulating layer 14 and passing through the third insulating layer 14 The first electrode layer or the second electrode layer realizes an insulated signal line layer
- the signal line 22 When the signal line 22 is disposed inside the composite layer 10, only a thin transparent conductive film is formed, and in order to reduce the resistance, the width of the signal line 22 is widened to form a signal pattern layer.
- each of the signal lines 22 forms a signal line layer 16 which is insulated from other conductive layers by a third insulating layer 14.
- the positive electrode 121, the negative electrode 122, and the two signal line layers 16 have no absolute front-to-back order, and only need to be insulated between the respective insulating layers through the blind holes and corresponding components. Connected.
- the layout of the LED chips in the second embodiment or the layout of other LED chips not described in detail can achieve signal transmission through the built-in signal line layer.
- FIG. 7 is a schematic diagram of the internal structure of the fifth embodiment provided in the embodiment of the present disclosure.
- the R-LED chip is mounted on the first pad 40 corresponding to the first blind via by silver paste bonding; the G-LED chip and the B-LED chip are mounted on the ground by an insulating glue.
- the first blind hole corresponds to the first pad 40.
- the pad 40 and the LED chip 30 are both opaque, mounting the LED chip 30 on the pad 40 can improve the light transmittance, and the opaque pad 40 can also block the LED chip 30 from illuminating the back side of the screen through the composite layer 10.
- the structural component made of the pad 40 as a metal material can also provide a better heat dissipation effect for the LED chip 30.
- the manner in which the LED chip 30 is disposed on the pad 40 is not an LED chip.
- the LED chip 30 can be disposed on the corresponding pad to realize the design effect in the embodiment.
- the LED lighting assembly can be installed with as many LED chip sets as possible.
- the driving IC 20 forms a unidirectional signal link connected in front and rear through a zigzag connection to realize image data transmission. And display.
- an LED lighting panel comprising at least two of the aforementioned LED lighting assemblies, the LED lighting assemblies being sequentially arranged.
- the arrangement is shown in Figure 9.
- Each of the LED lighting assemblies forms a unidirectional signal link connected in a front-to-back manner by a zigzag connection. It also allows each LED lighting component to access the signal bus for signal access.
- an LED display screen is provided, which is provided with an LED light-emitting panel as shown in FIG.
- Embodiments of the present disclosure provide an LED lighting assembly, an LED lighting panel, and an LED display screen, which realize a fully transparent LED display screen, and the transparency and pixel density of the full transparent LED display screen are greatly improved.
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Abstract
Description
Claims (18)
- LED发光组件,包括一复合层(10)、至少一个包含LED芯片(30)的LED芯片组、至少一个驱动IC(20);所述复合层(10)包括一位于前侧的基板(11);所述LED芯片(30)和驱动IC(20)均安装于所述复合层(10)的前侧,所述LED芯片(30)的负极引出导线(31)与所述驱动IC(20)相连;所述复合层(10)的前侧开设有多个盲孔,所述LED芯片(30)的正极过一个所述盲孔从复合层(10)内部接入正电极(121);所述驱动IC(20)的VDD引脚引出导线(31)过一个所述盲孔从复合层(10)内部接入正电极(121);所述驱动IC(20)的GND引脚引出导线(31)过一个所述盲孔从复合层(10)内部接入负电极(122);所述驱动IC(20)之间由信号线(22)连接。
- 根据权利要求1所述的LED发光组件,其中,所述复合层(10)为透明复合层。
- 根据权利要求2所述的LED发光组件,其中,每个所述LED芯片组对应一个驱动IC(20),所述LED芯片组和驱动IC(20)分行间隔排列。
- 根据权利要求2所述的LED发光组件,其中,包括多个呈阵列分布的LED芯片组。
- 根据权利要求4所述的LED发光组件,其中,每2×1个、2×2个或2×3个LED芯片组组成一个发光组,每一个发光组对应一个驱动IC(20),所述驱动IC(20)设置于所述发光组的平面中心。
- 根据权利要求4所述的LED发光组件,其中,每5个LED芯片组组成一个发光组,每一个发光组对应一个驱动IC(20),每个发光组位于相邻两行,其中一行为2个LED芯片组,另一行为3个LED芯片组,所述驱动IC(20)设置于所述相邻两行之间。
- 根据权利要求1-6任意一项所述的LED发光组件,其中,所述驱动IC(20)为未封装的裸晶片。
- 根据权利要求1-6任意一项所述的LED发光组件,其中,所述导线(31)和信号线(22)均为绑定方式打的金线。
- 根据权利要求1-6任意一项所述的LED发光组件,其中,所述复合层(10)还包括依次设置于所述基板(11)后侧的电极层和第二绝缘层(15);所述电极层设置有正电极(121)和负电极(122),所述基板(11)开设有抵达所述正电极(121)或负电极(122)的多个盲孔。
- 根据权利要求1-6任意一项所述的LED发光组件,其中,所述复合层(10)还包括依次设置于所述基板(11)后侧的第一电极层、第一绝缘层(13)、第二电 极层和第二绝缘层(15);所述第一电极层和第二电极层中的一个设置为正电极(121),另一个设置为负电极(122);所述盲孔包括贯穿所述基板(11)抵达正电极(121)的第一盲孔、贯穿所述基板(11)抵达负电极(122)的第二盲孔;所述LED芯片(30)的正极引出导线(31)过所述第一盲孔与所述正电极(121)相连;所述驱动IC(20)的VDD引脚引出导线(31)过所述第一盲孔与所述正电极(121)相连,所述驱动IC(20)的GND引脚引出导线(31)过所述第二盲孔与所述负电极(122)相连。
- 根据权利要求1-6任意一项所述的LED发光组件,其中,所述复合层(10)还包括依次设置于所述基板(11)后侧的第一电极层、第一绝缘层(13)、第二电极层和第二绝缘层(15);所述第一电极层和第二电极层中的一个设置为正电极(121),另一个设置为负电极(122);所述盲孔包括贯穿所述基板(11)抵达正电极(121)的第一盲孔、贯穿所述基板(11)抵达负电极(122)的第二盲孔;所述LED芯片(30)的正极引出导线(31)过所述第一盲孔与所述正电极(121)相连;所述驱动IC(20)的VDD引脚引出导线(31)过所述第一盲孔与所述正电极(121)相连,所述驱动IC(20)的GND引脚引出导线(31)过所述第二盲孔与所述负电极(122)相连;还包括第三绝缘层(14)和通过所述第三绝缘层(14)与所述第一电极层或第二电极层实现绝缘的信号线路层(16);所述盲孔包括贯穿所述基板(11)抵达所述信号线路层(16)的第三盲孔;所述信号线(22)为设置于所述信号线路层(16)的信号图形层,所述驱动IC(20)的信号引脚(21)引出导线(31)过所述第三盲孔连接到所述信号图形层。
- 根据权利要求11所述的LED发光组件,其中,所述复合层(10)包括至少2层所述信号线路层(16)和至少2层所述第三绝缘层(14)。
- 根据权利要求11所述的LED发光组件,其中,所述盲孔底部设置有焊盘(40),所述导线(31)通过所述焊盘(40)与所述复合层(10)电性连接。
- 根据权利要求13所述的LED发光组件,其中,一个所述LED芯片组包括R-LED芯片、G-LED芯片和B-LED芯片。
- 根据权利要求14所述的LED发光组件,其中,所述R-LED芯片通过银浆固晶安装于所述第一盲孔对应的第一焊盘上;所述G-LED芯片和B-LED芯片通过绝缘胶水固晶安装于所述第一盲孔对应的第一焊盘上。
- 根据权利要求1所述的LED发光组件,其中,所述LED芯片(30)和驱动IC(20)通过COB或COG工艺安装于所述基板(11)上,所述基板(11)的前侧覆盖有透明封胶。
- 一种LED发光面板,其中,包括至少两个如权利要求1-16任意一项所述的LED发光组件。
- 一种LED显示屏,其中,包括如权利要求17所述的LED发光面板。
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RU2018104444A RU2680257C1 (ru) | 2015-07-09 | 2016-09-09 | Светодиодный модуль, светодиодная панель и светодиодный экран |
JP2018520014A JP6533624B2 (ja) | 2015-07-09 | 2016-09-09 | Led発光ユニット、led発光パネル及びledディスプレイスクリーン |
EP16820876.7A EP3321961A4 (en) | 2015-07-09 | 2016-09-09 | LED LIGHT EMITTING ARRANGEMENT, LED LIGHT EMITTING TABLE AND LED DISPLAY SHADE |
US15/743,137 US10388638B2 (en) | 2015-07-09 | 2016-09-09 | LED light-emitting assembly, LED light-emitting panel, and LED display screen |
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CN201510400412.9A CN104979326B (zh) | 2015-07-09 | 2015-07-09 | Led发光组件、led发光面板和led显示屏 |
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- 2016-09-09 JP JP2018520014A patent/JP6533624B2/ja active Active
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JP2019032514A (ja) * | 2017-07-13 | 2019-02-28 | タレス | 有色発光ダイオードを有する発光画素を備えた透明アクティブ・マトリクス・ディスプレイ |
WO2020049397A1 (ja) * | 2018-09-07 | 2020-03-12 | 株式会社半導体エネルギー研究所 | 表示装置、表示モジュール、及び電子機器 |
JPWO2020049397A1 (ja) * | 2018-09-07 | 2021-10-14 | 株式会社半導体エネルギー研究所 | 表示装置、表示モジュール、及び電子機器 |
JP7313358B2 (ja) | 2018-09-07 | 2023-07-24 | 株式会社半導体エネルギー研究所 | 表示装置、表示モジュール、及び電子機器 |
US12033987B2 (en) | 2018-09-07 | 2024-07-09 | Semiconductor Energy Laboratory Co., Ltd. | Display device, display module, and electronic device |
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RU2680257C1 (ru) | 2019-02-19 |
WO2017005225A3 (zh) | 2017-02-02 |
CN104979326B (zh) | 2017-12-05 |
EP3321961A2 (en) | 2018-05-16 |
US20190107271A1 (en) | 2019-04-11 |
JP6533624B2 (ja) | 2019-06-19 |
EP3321961A4 (en) | 2019-03-06 |
CN104979326A (zh) | 2015-10-14 |
US10388638B2 (en) | 2019-08-20 |
JP2018530792A (ja) | 2018-10-18 |
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