KR101763107B1 - Light emitting package and transparent display device including it - Google Patents

Abstract

A three-color light emitting package comprising a first color light emitting chip, a second color light emitting chip, and a third color light emitting chip, wherein the first color light emitting chip, the second color light emitting chip, A plurality of first driving terminals electrically connected to the electrode pads of one polarity one by one and a plurality of first driving terminals electrically connected to the electrode pads of the second polarity of the first color light emitting chip, And a plurality of second driving terminals connected to the first driving terminals, wherein the plurality of second driving terminals are disposed at both ends of the package, with the first driving terminals being spaced apart from each other.

Description

[0001] LIGHT EMITTING PACKAGE AND TRANSPARENT DISPLAY DEVICE INCLUDING IT [0002]

The present invention relates to a light emitting package for dynamic driving and a transparent display device including the same.

In recent years, transparent display devices have been widely used for lighting, indoor and outdoor billboards, electric sign boards and the like. Such a transparent display device forms transparent wirings on a transparent substrate, and a plurality of light emitting packages are electrically connected to the transparent wirings. At this time, a three-color LED (Light Emitting Diode) package and a white LED package are utilized as the light emitting package.

As a driving method of the transparent display device, there are a static driving type and a dynamic driving type. In the dynamic driving method, a plurality of light emitting packages arranged in a matrix form in a transparent display device can be independently driven, and various visual effects can be realized, which is highly utilized.

However, in adopting a dynamic driving method, it is difficult to form a transparent wiring pattern for this purpose on a single layer surface. It is easy to form a bridge pattern on a single plane so that a crossing problem does not occur between the transparent wiring patterns connected to the anode electrode and the cathode electrode of each light emitting package arranged in a matrix It is not. Further, when a transparent wiring pattern is formed so as to avoid the above-mentioned crossing problem, the wiring structure becomes complicated or the number of wiring increases, resulting in a problem that the wiring space can not be efficiently used.

Korean Patent Registration No. 10-1188747 (Oct. 10, 2012)

The present invention relates to a transparent display device including a plurality of light emitting packages arranged in a matrix, comprising: a light emitting package capable of reducing the number of transparent wirings for dynamic driving of a plurality of light emitting packages, And a transparent display device including the same.

According to an aspect of the present invention, there is provided a three-color light emitting package including a first color light emitting chip, a second color light emitting chip, and a third color light emitting chip, wherein the first color light emitting chip, A plurality of first driving terminals electrically connected to the electrode pads of the first polarity provided for each of the three color light emitting chips one by one, and a plurality of first driving terminals electrically connected to the first color light emitting chip, the second color light emitting chip, And a plurality of second driving terminals electrically connected to the electrode pads of the polarity, wherein the plurality of second driving terminals are disposed apart from each other at both ends of the package.

In one embodiment, the first color light emitting chip, the second color light emitting chip, and the third color light emitting chip are arranged in a line on the same plane in the package, And may be arranged at one end in the lengthwise direction arranged in the line and at the other end opposite to the one end.

In one embodiment, the plurality of first driving terminals may be disposed separately from each other between the plurality of second driving terminals on the package bottom surface.

In one embodiment, the plurality of first driving terminals are arranged in a package so as to correspond to the arrangement order of the first color light emitting chip, the second color light emitting chip, and the third color light emitting chip, which are electrically connected to each other .

According to another aspect of the present invention, there is provided a white light emitting package, comprising: a first color light emitting chip and a second color light emitting chip of a complementary color relationship, wherein the first color light emitting chip and the second color light emitting chip Two first driving terminals electrically connected to the pads and two second driving terminals electrically connected to the electrode pads of the second polarity of the first color light emitting chip and the second color light emitting chip, And the two first driving terminals and the two second driving terminals are disposed at positions facing each other in the diagonally opposite direction from the bottom surface of the package.

According to another aspect of the present invention, there is provided a transparent display device comprising: a transparent substrate; A plurality of three-color light emitting packages described above arranged in a matrix on the transparent substrate; And a plurality of light emitting devices arranged between the transparent substrate and the plurality of light emitting packages and electrically connecting the driving terminals of the same signal source in the plurality of light emitting packages, There is provided a transparent display device including a transparent wiring for forming a circuit pattern on a transparent substrate.

In one embodiment, the transparent interconnection may include a plurality of light emitting packages arranged in a matrix, the first transparent electrodes being electrically connected to the first driving terminals of the same signal source of two adjacent light emitting packages in the first direction, And a second circuit pattern electrically connecting the second driving terminals of two adjacent light emitting packages in a second direction orthogonal to the first direction.

In one embodiment, the first circuit pattern may include a plurality of first driver terminals of the same signal source of the light emitting packages arranged in a line by lane with respect to the first direction, .

In one embodiment, the second circuit pattern is formed on the same plane as the first circuit pattern, and all of the second driving terminals of the light emitting packages, which are arranged in a line by lane with respect to the second direction, May be formed to be electrically integrated. At this time, the second circuit pattern is formed so as not to intersect with the first circuit patterns formed in the first direction, and is disconnected in accordance with the connection portion between two adjacent second driving terminals in the light emitting package arranged in line in the second direction Type circuit pattern.

According to another aspect of the present invention, there is provided a display device comprising: a transparent substrate; A plurality of white light emitting packages arranged in a matrix on the transparent substrate; And a transparent wiring interposed between the transparent substrate and the plurality of light emitting packages, the transparent wiring forming a circuit pattern on the transparent substrate so that the plurality of white light emitting packages can be independently driven. Here, the white light emitting package may include two first driving terminals corresponding to the first polarity and two second driving terminals corresponding to the second polarity, and between the two first driving terminals and between the two driving terminals 2 driving terminals are disposed at positions facing each other in the diagonal direction at the bottom surface of the package. In addition, the transparent wiring is pattern-formed so that driving terminals of the same signal source are connected for each lane in the matrix arrangement of the plurality of white light emitting packages.

In one embodiment, the transparent wiring is electrically connected between the first driving terminals of two adjacent white light emitting packages arranged in a row for each lane in the first direction among the plurality of white light emitting packages arranged in a matrix in the form of a matrix. And a plurality of circuit patterns respectively connecting the plurality of circuit patterns. In this case, the circuit pattern may include a connection pattern for connecting two first driving terminals in a positional relationship that are opposite to each other with reference to a second direction orthogonal to the first direction in the two adjacent white light emitting packages As shown in FIG.

In one embodiment, the transparent wiring may include a plurality of white light emitting packages arranged in a matrix in the form of a shortest distance in two adjacent white light emitting packages arranged in a line by lane with respect to the second direction, And a plurality of circuit patterns electrically connecting the two driving terminals to each other.

According to the light emitting package and the transparent display device including the light emitting package according to the embodiment of the present invention, the number of the transparent wirings for dynamic driving of the plurality of light emitting packages can be reduced and the pattern structure of the transparent wirings can be concisely realized.

FIG. 1 and FIG. 2 are views for explaining a general form of a transparent display device to which a plurality of light emitting packages and a transparent wiring pattern according to an embodiment of the present invention can be applied.
3 is a view for explaining a comparison between a conventional driving terminal arrangement of a three-color light emitting package and a driving terminal arrangement according to an embodiment of the present invention.
4 is a view for explaining a comparison between a conventional driving terminal arrangement of a white light emitting package and a driving terminal arrangement according to an embodiment of the present invention.
5 is a view showing a transparent wiring pattern structure in a matrix type light emitting package arrangement mode when a three-color light emitting package having a conventional driving terminal arrangement is applied.
6 is a view showing a transparent wiring pattern structure in a matrix type light emitting package arrangement mode when a three-color light emitting package having a driving terminal arrangement according to an embodiment of the present invention is applied.
7 is a view showing a transparent wiring pattern structure in a matrix type light emitting package arrangement mode when a white light emitting package having a conventional driving terminal arrangement is applied.
8 is a view showing a transparent wiring pattern structure in a matrix type light emitting package arrangement mode when a white light emitting package having a driving terminal arrangement according to an embodiment of the present invention is applied.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In addition, numerals (e.g., first, second, etc.) used in the description of the present invention are merely an identifier for distinguishing one component from another.

Also, throughout the specification, when an element is referred to as being "connected" or "connected" with another element, the element may be directly connected or directly connected to the other element, It should be understood that, unless an opposite description is present, it may be connected or connected via another element in the middle.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are views for explaining a general form of a transparent display device to which a plurality of light emitting packages and a transparent wiring pattern according to an embodiment of the present invention can be applied.

1 and 2, a transparent display device includes a transparent substrate 30, a plurality of light emitting packages 40 arranged in a matrix in a matrix form on the transparent substrate 30, And a transparent cover panel 10 disposed on the transparent cover panel 10.

At this time, the square frame 22 is disposed in the edge regions of the transparent substrate 30 and the transparent cover panel 10, thereby forming a space in which the plurality of light emitting packages 40 can be mounted. At this time, the rectangular frame 22 may also be realized as a transparent material.

A transparent filler material 20 for fixing and protecting a plurality of light emitting packages 40 may be interposed in a space between the transparent substrate 30 and the transparent cover panel 10. At this time, the transparent filler 20 may be injected between the transparent substrate 30 and the transparent cover panel 10 through the injection port 21 formed at one side of the frame 22 as shown in FIG. Although FIG. 2 shows a case where there is only one injection port 21, the injection port may be formed for each frame to improve the filling flow of the filler.

Although not explicitly shown in the drawing, a transparent wiring for driving the light emitting package may be interposed between the transparent substrate 30 and the plurality of light emitting packages 40. When the transparent display device is manufactured by adopting the dynamic driving method, the transparent wiring electrically connects the driving terminals of the same signal source in the plurality of light emitting packages 40, and the plurality of light emitting packages 40 are independently driven A circuit pattern can be formed on the transparent substrate 30. [ Concrete patterns and structures of the transparent wiring formed on the transparent substrate 30 will be described in detail with reference to FIGS. 6 and 8. FIG.

The drive operation of the light emitting package 40 is controlled by the drive control signal (power supply signal) transmitted from the drive control section 1 through the transparent wiring.

1 and 2, components other than the transparent substrate 30, the plurality of light emitting packages 40, the transparent cover panel 10, the transparent wiring, and the drive control unit 1 are necessarily included in the transparent display device And it is needless to say that various modifications and structural changes are possible.

3 is a view for explaining a comparison between a conventional driving terminal arrangement of a three-color light emitting package and a driving terminal arrangement according to an embodiment of the present invention. 3, reference numeral 100a denotes a conventional driving terminal arrangement of a three-color light emitting package, and reference numeral 100b denotes a driving terminal arrangement of a three-color light emitting package according to an embodiment of the present invention.

In this specification, it is assumed that the tri-color light emitting package is a tri-color LED (Light Emitting Diode) package. Also, for convenience and concentration of explanation, it is assumed that the three-color LED package is manufactured using a red LED chip, a green LED chip, and a blue LED chip. Further, in this specification, the driving terminal is defined as covering all types of conductors that can be contacted with the transparent wiring by being exposed on the lower surface of the light emitting package.

In the case of the conventional three-color LED package, a total of four driving terminals 100a-1, 100a-2, 100a-3 and 100a-4 are arranged on the package bottom as shown by reference numeral 100a. At this time, any one of the four driving terminals (100a-4 in the example of Fig. 3) is electrically connected to the common electrode (the anode electrode of the tri-color LED package in the example of Fig. 3) In the example of FIG. 3, reference numerals 100a-1, 100a-2, and 100a-3 denote the individual electrodes of the LED chips R / G / B (the cathodes of the red LED chips, A cathode electrode of the blue LED chip, and a cathode electrode of the blue LED chip).

The LED chip is a type of a pn junction device. In the inner surface of the LED package, an electrode pad connected to a first polarity (for example, p type) electrode of the LED chip and a second polarity And an electrode pad connected to the electrode. Therefore, in the case of the conventional driving terminal arrangement structure of 100a in Fig. 3, the anode electrodes of each of the R, G, and B three-color LED chips are connected to the common electrode region (refer to reference numeral A in the left drawing of Fig. 3) , And cathode electrodes are used as individual electrode regions (refer to reference numerals K1, K2, and K3 in the left side view in Fig. 3). Thus, according to the conventional driving terminal arrangement structure of the reference numeral 100a, the driving terminals 100a-4 are disposed on the package bottom surface at positions corresponding to the common electrode region A, and the individual electrode regions K1, K2, K3 100a-1, 100a-2, and 100a-3 are disposed on the bottom surface of the package at positions corresponding to the mounting terminals 100a-1, 100a-2, and 100a-3. In the present specification, it is assumed that the cathode electrode is used as an individual electrode and the anode electrode is used as a common electrode, but it is needless to say that it is contrary to this. However, in the present specification, the case described above will be referred to for convenience and concentration of explanation.

According to the driving terminal arrangement structure of the reference numeral 100a, the number of transparent wirings for dynamic driving increases, and the structure of the transparent wiring pattern becomes complicated. This can be clearly understood through a comparative explanation between FIG. 5 and FIG. 6 to be described later. On the other hand, according to the driving terminal arrangement structure 100b of FIG. 3, the number of transparent wirings for dynamic driving can be reduced, and the structure of the transparent wiring pattern can be simplified.

Referring to reference numeral 100b, a total of five driving terminals 100b-1, 100b-2, 100b-3, 100b-4, and 100b-5 are formed on the package bottom surface of the three- Are arranged in series. The three driving terminals 100b-1, 100b-2, and 100b-3, except for the two driving terminals 100b-4 and 100b-5, Are electrically connected one-by-one to the individual electrode regions corresponding to the respective cathode electrodes in each LED chip (refer to reference numerals K1, K2, and K3 in the right-side view of Fig. 3). The two driving terminals 100b-4 and 100b-5 at both ends are connected to the common electrode regions (reference numerals A1 and A2 in the right drawing of Fig. 3) connected to the anode electrodes of the LED chips of R, G, ) Are electrically connected one by one.

When two driving terminals to be connected to the common electrode are provided and the two driving terminals 100b-4 and 100b-5 are separately arranged at both ends of the light-emitting package, the light-emitting packages of the same type are arranged in a matrix There is an advantage that the production of a transparent wiring pattern for connection with the common electrode-related driving terminals of other adjacent light emitting packages in the package longitudinal direction (horizontal direction when the right side of Fig. 3 is taken as a reference) is simplified.

Further, even in the case of three drive terminals 100b-1, 100b-2, and 100b-3 except for the drive terminals at both ends, if the drive electrodes 100b-1, 100b-2, and 100b-3 are separately disposed corresponding to the arrangement order of the individual electrode regions K1, K2, When the light emitting packages of the same type are arranged in the form of a matrix, the transparent wiring patterns for connection with the individual electrode-related driving terminals of the adjacent light emitting packages in the package thickness direction (vertical direction with reference to the right drawing of FIG. 3) Production can be simplified. This can be more clearly understood through the description of FIG. 6 to be described later.

The R / G / B LED chip to be disposed in one plane of the inside of the three-color LED package may also be formed in the individual electrode area (not shown in FIG. 3) K1, K2, and K3, respectively.

4 is a view for explaining a comparison between a conventional driving terminal arrangement of a white light emitting package and a driving terminal arrangement according to an embodiment of the present invention. Here, FIG. 4 shows a driving terminal arrangement structure at that time based on the four-pole white LED package. In the case of a quadrupole white LED package, four LEDs corresponding to two anode electrodes and two cathode electrodes may be provided by using two LED chips of a complementary color relation.

4, two driving terminals 100c-1 and 100c-2 corresponding to the two cathode electrodes are arranged in one direction of the underside of the package, and the two driving terminals 100c-1 and 100c- And two other driving terminals 100c-3 and 100c-4 corresponding to the two anode electrodes are arranged in the other side facing each other. As described above, in the conventional four-pole white LED package, two driving terminals of the same polarity are paired and arranged on one side and the other side of the package bottom, so that the number of transparent wirings for dynamic driving increases, Is also complicated. This can be clearly understood through a comparative explanation between FIG. 7 and FIG. 8 to be described later.

Accordingly, in the embodiment of the present invention, by changing the driving terminal arrangement structure of the quadrupole white LED package to 100d or 100e, the number of transparent wirings for dynamic driving is reduced, and the structure of the transparent wiring pattern becomes concise .

Referring to reference numeral 100d or 100e, in the four-pole white LED package according to the embodiment of the present invention, two driving terminals of the first polarity (100d-1 and 100d-2 in FIG. 4, 100d-3 and 100d-4, or 100d-2 in FIG. 4) of the second polarity are arranged at positions opposite to each other in the diagonally opposite directions of the package 100e-1 and 100e- 100e-3 and 100e-4 are arranged in a diagonally opposite position in the package. The effect of changing the driving terminal arrangement structure will be described in detail below with reference to FIG.

FIG. 5 is a view showing a transparent wiring pattern structure in a matrix type light emitting package arrangement mode when a three-color light emitting package having a conventional driving terminal arrangement is applied. FIG. 6 is a cross- FIG. 1 is a view showing a transparent wiring pattern structure in a matrix type light emitting package arrangement mode when a three-color light emitting package having a layout is applied.

First, referring to FIG. 5, a transparent wiring pattern formed in conformity with the driving terminal arrangement structure of reference numeral 100a in FIG. 3 is exemplified when the three-color LED packages are arranged in the form of NXN matrix. FIG. 5 shows a transparent wiring pattern when a dynamic driving method in which a plurality of LED packages arranged in a plane in the form of an NXN matrix is independently driven (this also applies to FIGS. 6 to 8) . Here, the wiring of A indicates a wiring pattern for transmitting an electrical signal to the anode electrode which is a common electrode, and the wiring of R, G and B denote electrical signals to the cathode electrodes of the R / G / B LED chips And a wiring pattern for transferring the wiring pattern. And a region indicated by a square dotted line on the transparent wiring is a region where the three-color LED package having the driving terminal arrangement structure of the reference numeral 100a is to be mounted.

For example, assuming an 8 X 8 array, according to the wiring method of FIG. 5, eight wirings associated with the anode electrode (necessary for independent connection with the drive control section 1 shown in FIGS. 1 and 2) A total of 192 wiring (8 lines in total, 24 wiring terminals per column is required) are required for the Cathode electrode.

On the other hand, according to the transparent wiring pattern of Fig. 6, eight wirings (eight wirings in total, one wiring terminal required for each row) related to the anode electrode in the same condition (8 x 8 arrangement) 24 (8 lines in total, three wiring terminals per column) are required. 6 shows a structure of a transparent wiring pattern when the driving terminal arrangement structure 100b of FIG. 4 is applied. The transparent wiring pattern structure will be described in detail as follows.

6, the circuit patterns in the column direction (vertical direction) electrically connecting the driving terminals corresponding to the individual electrode regions R / G / B (R1, G1, B1, (R / G / B) of the LED packages adjacent to each other in the column direction in the matrix array are electrically integrated and connected by lanes according to the number of rows (or R2, G2, B2 in two rows) At this time, the circuit pattern for each lane in the column direction can be formed in the form of a line without line (for example, see R1-R1 'line in the first column in Fig. 6).

6, in the row direction electrically connecting the driving terminals corresponding to the common electrode region A disposed at both ends of the lower surface in the package longitudinal direction (that is, the row direction (horizontal direction in Fig. 6) The common electrode regions A of the LED packages adjacent to each other in the row direction in the matrix array are electrically integrated and connected by the lanes of the common electrode regions A by the circuit pattern of the first row (A1 in FIG. 6, A2 in the second row, etc.) . At this time, the circuit pattern for each lane in the row direction is formed in a manner of being cut off in accordance with the connection portion between the adjacent common electrode region-related driving terminals between adjacent LED packages in the row direction so as not to intersect on the same plane as the above- (See, for example, A11, A12, and A13 which are partial connection patterns on the lanes A1-A1 'in Fig. 6).

Further, since the transparent wiring pattern structure of FIG. 6 can be formed simply in a grid shape, the wiring space can be utilized more efficiently than the conventional pattern of FIG.

FIG. 7 is a diagram showing a transparent wiring pattern structure in a matrix type light emitting package arrangement mode when a white light emitting package having a conventional driving terminal arrangement is applied. FIG. 8 is a cross- FIG. 2 is a view showing a transparent wiring pattern structure in a matrix-type light emitting package arrangement mode when a white light emitting package having a light emitting device of the present invention is applied.

First, referring to FIG. 7, a transparent wiring pattern formed in accordance with the driving terminal arrangement structure of reference numeral 100c in FIG. 4 is exemplified when the white LED packages are arranged in the form of an NXN matrix. Here, the wiring of the reference numeral A represents a wiring pattern for transmitting an electrical signal to the anode electrode, and the wiring of the reference numeral K represents a wiring pattern for transmitting an electrical signal to the cathode electrode. And a region indicated by a square dotted line on the transparent wiring indicates a region where a white LED package having a driving terminal arrangement structure of 100c is to be mounted.

Assuming the 8X8 array as in the above-mentioned example, according to the wiring system shown in FIG. 7, eight wiring lines related to the anode electrode (eight lines in total, one wiring line per column are required / A total of 64 wiring (8 lines in total, 8 wiring terminals per column) is required for the wiring related to the cathode electrode.

On the other hand, under the same conditions, according to the transparent wiring pattern of FIG. 8, eight wiring lines (eight wiring lines in total, one wiring terminal required for each row) related to the anode electrode and eight wiring lines , One wiring terminal per column) is required. Fig. 8 shows a transparent wiring pattern structure when the driving terminal arrangement structure of 100d or 100e in Fig. 4 described above is applied. The transparent wiring pattern structure will be described in detail as follows.

In the driving terminal arrangement structure of 100d or 100e, since the two driving terminals of the same polarity are disposed at positions facing each other in the diagonal direction, driving terminals of the same polarity are connected in the column direction and the row direction The wiring pattern can be formed simply.

8, a partial connection pattern in a row direction (horizontal direction) for electrically connecting drive terminals corresponding to the anode electrodes (for example, refer to A11, A12, and A13 on the A1-A1 ' The anode electrode regions of the LED packages adjacent to each other in the row direction in the matrix array can be electrically integrated and connected by lanes. At this time, the partial connection pattern formed between any two adjacent LED packages in the row direction may be a circuit pattern connecting two driving terminals in the shortest distance in the row direction in the two LED packages (A12 in Fig. 8 Reference).

Further, by a partial connection pattern in the column direction (vertical direction) electrically connecting the driving terminals corresponding to the cathode electrodes (for example, see K11, K12 and K13 on the K1-K1 'lane in FIG. 8) The cathode electrode regions of the LED packages adjacent to each other in the array direction in the column direction can be electrically integrated and connected by lanes. At this time, the partial connection pattern formed between any two LED packages adjacent in the column direction may be a circuit pattern connecting two driving terminals of the same polarity placed in mutually opposing positional relationship in the two LED packages 8, K12 or K13).

The transparent wiring pattern structure of FIG. 8 can constitute a circuit pattern integrated by lanes for each row and for each column, which is advantageous in that the wiring space can be utilized more efficiently than the existing pattern of FIG.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims And changes may be made without departing from the spirit and scope of the invention.

Claims (12)

delete delete delete delete delete delete delete delete delete A transparent substrate; A plurality of white light emitting packages arranged in a matrix on the transparent substrate; And a transparent wiring interposed between the transparent substrate and the plurality of light emitting packages, the transparent wiring forming a circuit pattern on the transparent substrate so that the plurality of white light emitting packages can be independently driven,
The white light emitting package includes two first driving terminals corresponding to a first polarity and two second driving terminals corresponding to a second polarity, and the two first driving terminals and the two second driving terminals Terminals are disposed at positions facing each other in the diagonal direction on the underside of the package,
Wherein the transparent wiring is pattern-formed so that driving terminals of the same signal source are connected for each lane in a matrix arrangement of the plurality of white light emitting packages,
The transparent wiring may include:
And a plurality of circuit patterns electrically connecting the first driving terminals of two adjacent white light emitting packages arranged in a line by lane in the first direction among the plurality of white light emitting packages arranged in a plane in the matrix form and,
In the circuit pattern,
Wherein the transparent display device is formed by a connection pattern connecting two first driving terminals which are in positional relationship facing each other with reference to a second direction orthogonal to the first direction in the two adjacent white light emitting packages. .
delete 11. The method of claim 10,
The transparent wiring may include:
And electrically connecting the second driving terminals of the shortest distance among the plurality of white light emitting packages arranged in the matrix form in the adjacent two white light emitting packages arranged in a line by lane with respect to the second direction And a plurality of circuit patterns.

Images