DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF

Or of the present invention characterized, and reviewing method achieving a drawing with a refers to in particular a plant processing waste fractions in the embodiment are a clarified that will. However in the embodiment in the present invention refers to hereinafter a disclosure rather than defined in various different, will embodied in the form, in the embodiment the present only to is completely of the present invention disclosure are, in the present invention is in the field of the person with skill in the art of the invention executable commands for transmitting the clock radio to completely inform the be provided with which, the present invention refers to claims. and the user makes a defined by category.

Device (elements) or layer thereof is to "on (on)" another element or layers of the other element it, which are referred to the other or intermediate directly on the layer or another element is includes both a moment when a interposed. Same reference throughout the specification a same. referring to components.

Although number 1, number 2 various elements and the like used to described but, these components are is constrained by these terms is does not feel. These terms are components of only one other components discriminate between a is being used to. Therefore, hereinafter, which is referred to in component number 1 number 2 in technical idea of the present invention which may be components is as well as.

Hereinafter, with reference to a drawing with an of the present invention in the embodiment. are disclosed.

One embodiment of the present invention device also Figure 1 shows a decomposition of larger than the second panel which degrees perspective view, one embodiment of device cross-sectional drawing Figure 2 of the present invention is larger than the second panel, Figure 3 display panel (110) of the cross-section of..

Also with a 3 also to 1, one embodiment of the present invention larger than the second panel device (10) comprises a display panel (110), protective layer (120) and bottom cover (bottom cover, 130) includes. Furthermore, one embodiment of the present invention device (10) larger than the second panel a protective sheet (140), adhesive layer (150), cover window (160), flexible printed circuit board (170) and is arranged at the upper part (180) further may include.

Display panel (110) panel for displaying an Image, LCD panel (Liquid Crystal Display Panel), (Electrophoretic Display Panel) third color pixel parts, (Organic Light Emitting Diode Panel) OLED panel, LED panel (Light Emitting Diode Panel), inorganic EL panel (Electro Luminescent Display Panel), (Field Emission Display Panel) panel FED, SED panel (Surface-conduction Electron-emitter Display Panel), PDP (Plasma Display Panel), CRT (Cathode Ray Tube) can be display panel. In hereinafter, one embodiment of the present invention device (10) larger than the second panel as, organic light emitting display device describes for example, display panel but, described here as includes an organic light emitting display panel (110) in addition, of the present invention display device (10) and display panel (110) which the not limited to, various ways of display device and display panel can be is used.

Display panel (110) the number 1 substrate (111), number 2 substrate (112) and intergated circuit chip (113) may include a. Wherein, number 1 substrate (111) and number 2 substrate (112) each other voltage lines for supplying positive voltages on display panel (110) capable of forming a..

Number 1 substrate (111) the number 2 substrate (112) voltage lines for supplying positive voltages on chip an integrated circuit and the display region (113) that between the mounting is (mount) is mounted can be a gate line is formed in the. I.e., number 2 substrate (112) the number 1 substrate (111) than have a smaller size, number 2 substrate (112) a voltage lines for supplying positive voltages on substrate number 1 (111) of the edge area of a region of can be. The, number 1 substrate (111) and number 2 substrate (112) the number 2 substrate (112) along an edge of that are located at a large sealant (not shown) by can be sealing h2nhn. While, number 2 substrate (112) not voltage lines for supplying positive voltages on substrate number 1 (111) equalize the amount of heat emitted to region can be mounting areas. And number 1 substrate (111) integrated circuit chip the holding regions (113) may be is mounted. As such, substrate number 1 (111) substrate number 2 the mounting in the area (112) voltage lines for supplying positive voltages on not executed, not to download, mounting region in substrate number 2 (112) is formed by the thickness of a can be.

Furthermore, substrate number 1 (111) substrate has a display area in a matrix (matrix) which are disposed in the form plurality of pixels including (not shown). The organic light emitting device (L1) and at least one thin film transistor (T) may be formed. Furthermore, substrate number 1 (111) the mounting disposed in an area pad electrodes (not shown) further comprises, integrated circuit chip (113) the pad electrode (not shown) and is mounted on mounting region. Furthermore, substrate number 1 (111) the mounting mounted to in semiconductor (113) and formed in a display region each picture element to each other further includes a wiring (not shown).

Figure 3 shows a a display panel (110) provided to make an interior structure of timing to, display panel (110) has a number of pixels has. images to be displayed. Plurality of pixel number 1 substrate (110) can be formed on. One pixel (EL) organic light emitting device, at least one transistor (T2) and at least one storage capacitor (not shown) may comprise an. More particularly one pixel (L1) organic light emitting device a drive transistor (T2) and the drive transistor (T2) transmits data voltage to be to the switching transistor may comprise an (not shown). Switching transistor (not shown) the scan line (not shown) is connected to (not shown) and a data line, scan line (not shown) according to switching voltage, which are entered into a data line (not shown) input the data voltage, which is the driving transistor for enabling a user to transmit (T2).

Storage capacitor (not shown) the switching transistor (not shown) and a power supply line is connected to (not shown), switching transistor (not shown) voltage and transmitted from power supply line (not shown) corresponding to a difference with the above-described structure, can be stores a voltage.

Drive transistor (T2) the source electrode (SE) and the drain electrode includes (DE) and a gate electrode (GE), organic light emitting device (EL) of anode electrode (E1) (T2) (DE) to drain electrode of the drive transistor may be connected to. Organic light emitting device (EL) has the drain electrode (DE) according to the drive current provided from any of the one can be. The configuration of the pixel without limit to an an example aforementioned various. deformable.

Number 2 substrate (52) (L1) organic light-emitting device and to formed driving circuit portion is and number 1 substrate (51) may cover an. I.e., number 2 substrate (112) the number 1 substrate (111) voltage lines for supplying positive voltages on to number 1 substrate (111) is formed an organic light emitting device (L1), thin film transistor (T) and other sealingly from outside wiring... etc to can be protected.

Furthermore, display panel (110) the number 2 substrate (112) is attached to the intensity of illumination of external light that inhibitors a polarization member having at (114) may include further. However substracte the present invention according to one embodiment are not limited to, polarizing member (114) the optionally it possible to eliminate.

Integrated circuit chip (113) the chip on glass (chip on glass; COG) manner number 1 substrate (111) can mount to the regions. Integrated circuit chip (113) the number 1 substrate (111) formed in a display area of each driving signals for the pixels delivery can be.

Driving circuit board (180) a drive signal for electronic components (not shown) may include a. Flexible printed circuit board (flexible printed circuit board) (170) number 1 is one side, the substrate (111) (NA) holding regions is connected to the printed circuit board other side of the outer tub (180) may be connected to and. I.e., flexible printed circuit board (170) a drive circuit board (180) and the display panel and (110) can be an electric wire electrically connecting to the. Drive circuit board (180) generated in drive signals for flexible printed circuit board (170) integrated circuit chip through a (113) or number 1 substrate (111) protection circuit improved by and transferred to a (not shown). As shown in the 2 also, flexible printed circuit board (170) is bending of the device and so the driver circuit substrate (180) the protective sheet (140) can be disposed on rear view of.

Cover window (160) the number 2 substrate (112) and integrated circuit chip (113) is placed so as to face a door, display panel (110) which can cover a as a whole. Specifically, cover window (160) comprises a display panel (110) an Image in the direction side is extended can be. The cover window (160) the glass or of a transparent plastics or the like can be member is made from materials.

Furthermore, also as shown in the 2, cover window (160) the number 1 substrate (51) on a display panel includes (NA) holding regions (110) of corresponding to edge of a shade portion (BA) and a, display panel (110) the central part of the corresponding translucent section (TA) may comprise an. I.e., light shielding section (BA) comprises a display region (DA) corresponds to (NA) mounting region edge and of, translucent section (TA) comprises a display region (DA) can be the central part of the corresponding. Light shielding section (BA) ", the data lines in the environment, display panel (110) an Image in the a portion without any indication of the make serves decrease.

Adhesive layer (150) the display panel (110) and a cover window (160) can be device further includes a space between. As such, adhesive layer (150) the display panel (110) and a cover window (160) window cover filled space between (160) and a display panel (110) the objective compound. coupled with each other.

Adhesive layer (150) a cover window (160) and the refractive index preferably though the similar. Adhesive layer (150) and the cover window (160) though the similar refractive index the light generated from the difference of refractive reflecting to the is because it can be. Adhesive layer (150) is cured by ultraviolet or heat an acrylic comprising a diene-based resin material made possible by the fact that the. Adhesive layer (150) includes a storage location of an acrylic resin is higher than a transition temperature of air cover is arranged selectively at the covered window (160) and the refractive index are similar since, adhesive layer (10) is number 2 substrate (112) and the cover window (160) device further includes a space between by refractive index difference by reflection of light, which is output from the electrical. Furthermore, adhesive layer (150) a cover window (160) and bottom cover member (80) higher than a transition temperature of highly elastic can be formed to. Adhesive layer (150) the display panel (110) the cover window (160) and a fact that an out-of-region that is as well as, a burr washer in place whilst a relative display panel are folded in (110) on the organic light emitting device (100) for protecting stability and reliability unit, the battery cell the objective compound.. I.e., display panel from external impact (110) a can be protected. Furthermore, adhesive layer (150) the display panel (110) internal easy to thereby inhibiting media penetration of the environmental stability and reliability can be inserted into.

Bottom cover (130) comprises a display panel (110) and is arranged at the upper part (180) is provided to receive, support can be. Bottom cover (130) on a planar bottom surface of type composed of side walls extending therefrom can be longitudinal box-shaped. The 2 and 1 also a low cost not shown, driving circuit board (180) and bottom cover (130) between the bottom cover (130) which engages with an bracket (bracket) can be (not shown) is located. Display panel (110) bracket respect to another bottom cover (not shown) can be. Bottom cover (130) respect to bracket (not shown) .can correspond to a top cover. Bottom cover (130) has a plurality of material various method can be formed. An exemplary embodiment to exemplify, bottom cover (130) the center of a material having a high magnetic, i.e. stainless steel, cold rolled steel, aluminum, aluminum alloy, nickel alloy, magnesium, magnesium alloy of metals, such as material or can be made with plastic material with one. This metal material or made with plastic material with one a metal plate or plastic publicly known deep drawing of the resin sheets is applied or bending processing (deep drawing) the floor surface and a sidewall having a bottom cover (130) can be a.

Protective layer (120) the display panel (110) and bottom cover (130) can be disposed between the. Display panel (110) of substrate number 1 (111) plays a role of a drift can be arranged. Wherein, number 1 substrate (111) substrate number 1 closely of (111) may flush lower of. I.e., protective layer (120) the number 1 substrate (111) of the other surface can be located directly on the. Protective layer (120) the display panel (110) from external shocks by which plasma display display panel (110) can be protected. Specifically, protective layer (120) the display device 47 can occur a scratch and impact from display panel (110) can be protected.

Protective sheet (140) has a protective layer (120) and bottom cover (130) can be disposed between the. Protective sheet (140) in addition an IC by dispersing an external shock display panel (110) can be protected. Protective sheet (140) are generally display device event is generated during the operation of an IC by dispersing an external shock display panel (110) can be protected. I.e., display panel (110) coated in one side of the can take the impact resistance.

Wherein, protective layer (120) the photochromic material may include a. A specific condition the photochromic material can be at color in, the protective layer along (120) can be color changing overall color of. Furthermore, protective layer (120) may include a material the latent heat. Latent heat material display device (10) absorbs heat during the operation of emitting over unless non for admix and high heat radiating effect and that may provide a. Hereinafter, also 6 also to 4 reference to a protective layer according to the present embodiment (120) and a protection sheet applying (140) outputs a relay driving signal. as further described relative to.

Also Figure 4 shows a change of the protective layer with the central one embodiment of the present invention the controller generates a control signal indicative of the outlines which coarse degrees, Figure 5 outlines material indicative of the protective layer of the latent heat of vaporisation which coarse degrees, Figure 6 protective sheet structure is roughly represents is a perspective view.

With a 6 also to 4 also, protective layer (120) the photochromic material may include a (Chromic material). Protective layer (120) (Screen printing) screen printed can be resulting coatings process.. Specifically, protective layer (120) number the thermally cured, fine powder silica (Silica), silicone-based defoaming number, antistatic agent, petroleum naphtha solvent, including composition [...] or the like substrate number 1 (111) after screen printing on the other surface of, after undergoing process thermosetting can be produced. Wherein, protective layer (120) the number 1 substrate (111) portions of can be printing moment, protective layer (120) the number 1 substrate (111) of the other surface can be formed to overlay the entire stretch releasing adhesive. Protective layer (120) can be the thickness of the 8um to 14um.

Wherein, protective layer (120) (chromic) produce photochromic a composition may further include any raw material. Furthermore, the raw materials (Chromic) photochromic light, heat or current to nylon fibers is provided indicative of a variation in the colors in can be material. Electrochromic material a protective layer (120) purge region of may be, protective layer (120) the overall the colored photochromic raw material at a rate determined by the overlapping color can be.

Protective layer (120) if light changes molecular structure (Photochromic) photochromic caused by chromophore may comprise an raw material. I.e., protective layer (120) the spiro benzopyran, - [...], amino [...] such as photochromic may include material, of a specified wavelength light is any one of laser light can be at color by. Also protective layer as shown in 4 (120) ultraviolet (UV, Ultraviolet Ray) is irradiated is can be upper and lower.

Are not limited to, protective layer (120) the 3 tungsten oxide, non-staining (Electrochromic) [...] electrochromic such as may include a material. I.e., predefined levels of current is applied protective layer (120) the can be the electrochromic nylon fibers is provided.

Furthermore, protective layer (120) color change at a predetermined temperature or more process conditions a thermochromic (thermalchromic) may comprise a. I.e., apart a specified distance from the heating process condition of a protective layer in (120) can be color changing.

Display panel (110) plays a role of a protective layer (120) have been generated state, i.e. cured in protective layer (120) can be a transparent state. Just, protective layer (120) the display device (10) in the process of producing the integrated circuit chip (113) normal mounting which displays the automatic indentation test (ATT, Auto Trace Tester) proceeds can be discoloration after. In this regard, to account for the later more specifically. Protective layer which is supposed to bring about color (120) the display panel (110) is optically connected to the first surface the display panel (110) into the lower portion of the NC. circuit clamps so that the node voltage. I.e., protective layer (120) the process that occur on an IC by dispersing an external shock display panel (110) safeguard for use of as well as, display panel (110) said washing liquid are expelled in a which a light-blocking shielding effect can be performing. The, the present embodiment larger than the second panel device (10) with a conventional device the indication is generally alternatively protective sheet (140) is shading sheet to the capacity ratio thereof can reach is not disposed.

Also as shown in 6, the present embodiment: an protective sheet (140) the number 1 heat-radiating sheet (141), number 2 heat-radiating sheet (142) and the set top box sheet (143) may include a.

Number 1 heat-radiating sheet (141) has a protective layer (120) of adjacent can easily be arranged when it burns, with. Number 1 heat-radiating sheet (141) can be the the petal it buys the elder brother sheet, wide specific surface area is used to effect display panel (110) an outer surface of the body heat generated in a scrambled symbols and may spread the transfer or quickly. Number 1 heat-radiating sheet (141) excellent heat conduction silver, copper, copper alloy, can be separator mirror outputs the, limited to not.

Absorbing sheet (143) has resilient polymer can be made of a resin. Absorbing sheet (143) has polyethylene resin, polypropylene resin such as polyolefin resin, melamine resins, phenol resin, acrylic resin, polyvinyl chloride resin, polyurethane resin, urea resin, polystyrene resin, polyvinyl acetate resins. combination of the conductor. More particularly, absorbing sheet (143) can be the polymer foams foam (foam). I.e., absorbing sheet (143) the melamine POM, phenol foam, acrylic foam, polyvinyl chloride foam, polypropylene foam, polyurethane foam, urea foam, polyethylene foam, polystyrene foam, polyvinyl acetate can be foam and the like. Absorbing sheet (143) an external minimal display panel (110) can be protected. I.e., absorbing sheet (143) and absorbing external impulse, controls data by the driving of the objective compound. impact resistance. Absorbing sheet (143) the pile is driven into the are formed on the, that at least one through bore is number 2 heat-radiating sheet (142) is inserted can be height change value is more. Wherein, also in that at least one through bore 6 as shown in, one can be a rectangular parallelepiped shape, limited to not.

Number 2 heat-radiating sheet (142) can be it will be a shovel a through hole, of the shape of through hole may have a variety of shapes. Number 2 heat-radiating sheet (142) the number 1 heat-radiating sheet (141) of the electrodes are exposed at the face of each projection, and a, driving circuit board (180) when it burns, this and. can be. I.e., number 2 heat-radiating sheet (142) the number 1 heat-radiating sheet (141) and the drive circuit board (180) can be physically couples the. Number 2 heat-radiating sheet (142) a drive circuit board (180) to externally radiate heat generated in a can be. Number 2 heat-radiating sheet (142) has graphite (graphite), such as carbon-based material such as (graphene) graphene platelets can be, limited to not. Protective layer (120), the protective sheet (140) and protective sheet (140), on the interface for seperating each layer of viscous material is may be applied in, viscous material by the respective layer are can be are combined. Wherein, protective sheet (140) the shading sheet are provided that do not contain an may be. Shading sheet includes at one of the other two, protective sheet (140) can be reduced the thickness of the. I.e., protective sheet (140) by not the light shielding to form a sealing seat, display device (10) the of reducing the size, light weight and low fuel may be thin.

Furthermore, protective layer (120) is formed a composition may comprise an (a) pigment latent heat. (A) pigment latent heat to the polymer (Pm, Polymer) phase change material (PCM, Phase Change material) of core (Microencapsulation) registration microcapsules can be structure (core-shell)-cell. I.e., the phase change material (PCM) circumscribing a polymer (Pm) rice can, by foreign matter and phase change material (PCM) divides a signal received from the broadcasting can be protected. Wherein, phase change material (PCM) carbon hyrating the hyrogel, alkane mixtures wax, such as inorganic salt hydrate, carbon nanotube, graphite or at least yes with pin can be include any one or more of. Phase change material (PCM) according to a temperature from slipping up in solid liquid at phase transition is. to absorb heat. I.e., display device (10) in use of the article and by heat generated phase change material (PCM) can be phase transition the liquid, can absorb at peripheral temperature. I.e., display device (10) memory according to the uses of said increased temperature (a) pigment latent heat absorbed by the'm unused heat is capable of emitting. I.e., a protective layer according to the present embodiment (120) including a bar (a) pigment latent heat the, improved on the other side of the radiating can provide.

Wherein, (a) pigment latent heat can be the Figures consist of circular of, are not limited to formation may be amorphous. Furthermore, latent heat pigment (a) form of the cell (shell) according to (Pm) can take the various colors. Wherein, (a) indicating that the black pigment latent heat may be formed as (Pm) polymer. I.e., latent heat (shell) cell (a) pigment is black to be minimal by forming the protective layer (120) the of light shield for can be improved.

The present embodiment larger than the second panel device (10) and a protective layer of the (120) (Chromic)-color changing effect a shielding material capable of providing bar, protective sheet (140) the shading sheet are provided that do not contain an may be. The, display device (10) the of reducing the size, light weight and low fuel may be thin. Furthermore, the present embodiment larger than the second panel device (10) and a protective layer of the (120) can be the latent heat includes a pigment having the first color, improved radiation function by using the mask pattern..

Hereinafter, other embodiment of the present invention device of larger than the second panel outputs a relay driving signal. is described manufacturing method.

Figure 12 shows a to 7 also larger than the second panel of the present invention also other embodiment of manufacturing method of the first electrode device outlines. whose cross section represents.

Also refers to surface 12 also to 7, the present embodiment larger than the second panel of device (S110) is prepared the display panel manufacturing method, step (S120), and forming a protective layer, to form a integrated circuit chip (S130), bonding the window cover and a protective layer (S140) and the color of which includes step (S150).

First, display panel for preparing a (S110).

Figure 7 shows a embodiment of panel a are also larger than the second panel the approximate cross-sectional drawing it is shown a. plane from the. Wherein, display panel (110) different from the organic light-emitting display panel can be, limited to not. Display panel (110) the number 1 substrate (111), number 2 substrate (112) may include a. Number 1 substrate (111) the number 2 substrate (112) voltage lines for supplying positive voltages on chip an integrated circuit and the display region (113) that between the mounting is (mount) is mounted can be a gate line is formed in the. I.e., number 2 substrate (112) the number 1 substrate (111) than have a smaller size, number 2 substrate (112) a voltage lines for supplying positive voltages on substrate number 1 (111) of the edge area of a region of can be. The, number 1 substrate (111) and number 2 substrate (112) the number 2 substrate (112) along an edge of that are located at a large sealant (not shown) by can be sealing h2nhn. While, number 2 substrate (112) not voltage lines for supplying positive voltages on substrate number 1 (111) equalize the amount of heat emitted to region can be mounting areas. Display panel (110) the number 2 substrate (112) is attached to the intensity of illumination of external light that inhibitors a polarization member having at (114) may include further. However substracte the present invention according to one embodiment are not limited to, polarizing member (114) the optionally it possible to eliminate. Display panel (110) a description the internal structures of the above substantially equal so that outputs a relay driving signal. omit.

Furthermore, ., and forming a protective layer (S120).

Protective layer (120) the display panel (110) from external shocks by which plasma display display panel (110) can be protected. Specifically, protective layer (120) of the display device as to make it possible after a scratch and impact from display panel (110) can be protected. Protective layer (120) (Screen printing) screen printed can be resulting coatings process.. Protective layer (120) number the thermally cured, fine powder silica (Silica), silicone-based defoaming number, antistatic agent, petroleum naphtha solvent, including composition [...] or the like substrate number 1 (111) on the other surface of screen printing may be. As shown in 8 also, protective layer (120) the number 1 substrate (111) of the other surface can be formed to overlay the entire stretch releasing adhesive. After, protective layer (120) in the number 1 temperature can be cured predetermined period. Wherein, N2O and dichorosilane number 1 temperature spans has a can 100 to 80, predetermined period can be 10 minutes to 20 ingredient. An exemplary in the embodiment in protective layer (120) at the 90, that can be hardened 15 minutes. Cured protective layer (120) color changing in an uncured state to transparent state can be.

Furthermore, protective layer (120) is formed a composition may comprise an (a) pigment latent heat. (A) pigment latent heat to the polymer (Pm, Polymer) phase change material (PCM, Phase Change material) of core (Microencapsulation) registration microcapsules can be structure (core-shell)-cell. I.e., the phase change material (PCM) circumscribing a polymer (Pm) rice can, by foreign matter and phase change material (PCM) divides a signal received from the broadcasting can be protected. Phase change material (PCM) according to a temperature from slipping up in solid liquid at phase transition is. to absorb heat. I.e., display device (10) in use of the article and by heat generated phase change material (PCM) can be phase transition the liquid, can absorb at peripheral temperature. I.e., display device (10) memory according to the uses of said increased temperature (a) pigment latent heat absorbed by the'm unused heat is capable of emitting.

Next, a method for forming integrated circuit (S130).

Integrated circuit chip (113) the chip on glass (chip on glass; COG) manner number 1 substrate (111) can mount to the regions. Integrated circuit chip (113) the number 1 substrate (111) formed in a display area of each driving signals for the pixels delivery can be. Number 1 substrate (111) the mounting disposed in an area pad electrodes (not shown) further comprises, integrated circuit chip (113) the pad electrode (not shown) and is mounted on mounting region. And, as shown in 9 also, flexible printed circuit board substrate number 1 is one side (170) in addition (111) may be connected to mounting region and of. Flexible printed circuit board (170) the other side of the outer tub and the drive circuit board (not shown) may be connected, driving circuit board (180) generated in drive signals for flexible printed circuit board (170) integrated circuit chip through a (113) or number 1 substrate (111) protection circuit improved by and transferred to a (not shown).

The, integrated circuit chip (113) and ductility circuit board (170) the number 1 substrate (111) mounted of being pressed on the holding regions may be. Integrated circuit chip (113) and ductility circuit board (170) normal caused by the pressing mounting region to examine the moved by a transfer motor controlled by can be identified. I.e., number 1 substrate (111) of heaters according to the pressing rear view may be generated which, moved by a transfer motor controlled by mounting of the and shape number of a automatic indentation test (ATT, Auto Trace Tester) can be is in progress. Wherein, protective layer (120) which a transparent state can be, thus number 1 substrate (110) of the rear view may be determined as sufficiently moved by a transfer motor controlled by..

Next, cover window and is coupled with (S140).

Cover window (160) the number 2 substrate (112) and integrated circuit chip (113) is placed so as to face a door, display panel (110) which can cover a as a whole. Specifically, cover window (160) comprises a display panel (110) an Image in the direction side is extended can be. The cover window (160) the glass or of a transparent plastics or the like can be member is made from materials. Adhesive layer (150) the display panel (110) and a cover window (160) can be device further includes a space between. As such, adhesive layer (150) the display panel (110) and a cover window (160) window cover filled space between (160) and a display panel (110) the objective compound. coupled with each other. Adhesive layer (150) ultraviolet (UV) or heat an acrylic is cured by comprising a diene-based resin material made possible by the fact that the. Adhesive layer (150) includes a storage location of an acrylic resin is higher than a transition temperature of air cover is arranged selectively at the covered window (160) and the refractive index are similar since, adhesive layer (10) is number 2 substrate (112) and the cover window (160) device further includes a space between by refractive index difference by reflection of light, which is output from the electrical. I.e., also as shown in 10, adhesive layer (150) according to ultraviolet (UV) is irradiated is can be and then cured. Number 2 substrate (112) and the cover window (160) bonding the a display device (10), on an upper portion of the adhesive layer (150) an ultraviolet (UV) irradiation of the may include a.

Diverse color protective layer. (S150).

Protective layer (120) the photochromic material may include a (Chromic material). I.e., protective layer (120) (chromic) produce photochromic a composition may further include any raw material. Furthermore, the raw materials (Chromic) photochromic light, heat or current to nylon fibers is provided indicative of a variation in the colors in can be material. Electrochromic material a protective layer (120) purge region of may be, protective layer (120) the overall the colored photochromic raw material at a rate determined by the overlapping color can be. Protective layer (120) if light changes molecular structure (Photochromic) photochromic caused by chromophore may comprise an raw material. I.e., protective layer (120) the spiro benzopyran, - [...], amino [...] such as photochromic may include material, of a specified wavelength light is any one of laser light can be at color by. Wherein, protective layer (120) also 11 as shown in the, ultraviolet (UV) is irradiated is can be upper and lower. I.e., protective layer the rate of the color change in step display device (10) in the bottom of protective layer (120) an ultraviolet (UV) irradiation of the may include a.

Are not limited to, a protective layer according to some embodiment (120) the 3 tungsten oxide, non-staining (Electrochromic) [...] electrochromic such as may include a material. I.e., predefined levels of current is applied protective layer (120) the can be the electrochromic nylon fibers is provided. I.e., a protective step rate of the color change in the protective layer (120) to predefined levels of current relates to authorizing may include a.

Furthermore, a protective layer according to some embodiment (120) color change at a predetermined temperature or more process conditions a thermochromic (thermalchromic) may comprise a. I.e., predetermined temperature a protective layer (120) a compressively loads the cured high period longer than a temperature number 1 can be temperature interval number 2. I.e., protective layer in temperature number 2 step rate of the color change in the protective layer (120) heating a may include a.

Protective layer which is supposed to bring about color (120) the display panel (110) is optically connected to the first surface the display panel (110) into the lower portion of the NC. circuit clamps so that the node voltage. I.e., protective layer (120) the process that occur on an IC by dispersing an external shock display panel (110) safeguard for use of as well as, display panel (110) said washing liquid are expelled in a which a light-blocking shielding effect can be performing.

Also as shown in 12, the present embodiment larger than the second panel color changing device manufacturing method of a base layer, a protective layer (120) lower the protection sheet (140) a step of disposing a surface of a may further include any. And, protective sheet (140) a display panel with until (110) the bottom cover (not shown) can be housed. Wherein, the present embodiment larger than the second panel device (10) and a protective layer of the (120) (Chromic)-color changing effect a shielding material capable of providing bar, protective sheet (140) the shading sheet are provided that do not contain an may be. The, display device (10) the of reducing the size, light weight and low fuel may be thin.

While allowed to be display device manufacturing method of another device display of Figure 6 to 1 as also included in the same names each substantially described outputs a relay driving signal. omit.

Or more with an reference to drawing but describes of the present invention in the embodiment, a person with skill in the art in the present invention is in the field of the essentially or idea the techniques of the present invention, which is characterized, at the first or the specifically that without changing of the embodiment form can be database for each consumer 2000. Therefore in the embodiment described or more exemplary on all sides are defined and there has the main. must understood.