特許の英語（特許翻訳分野）

しかし、これらの従来のシリコン源を用いる成膜法では、通常、単結晶シリコンとシリコン酸化物の両者を含む表面のような混合基板への成膜をコントロールすることが困難である。

However, deposition using these conventional silicon sources is generally difficult to control over mixed substrates, such as surfaces containing both single crystal silicon and silicon dioxide.

特許公表２００５－５０３０００
WO02065517より引用

●deposition [UC] 堆積
（研究社　新英和中辞典より引用）

半導体分野で、翻訳を発注するお客により、「deposition＝堆積」、「deposition＝成膜」、あるいは「deposition＝成長」と指定する場合がある。
つまり、お客により指示する訳語がまちまちである。
このような時は、語学的や技術的に正しいかどうかで判断するのではなく、あくまでも、お客の指示に従うべきである。
翻訳者は、いわば床屋のようなものである。
お客が指示した髪型が「変」だと思っても、あくまでも、お客の指示に従うべきである。
ただし、翻訳済文章の後に、「翻訳メモ」のようなコーナーを作っておくと、後々、トラブルが少なくなる。
そのコーナーに、「○○は△△だと解釈しましたが、御社の指示どおり訳しました。」とメモを入れておけば、お客は、翻訳者は内容を理解しつつも、お客の指示に従っていることを理解してくれるので、この「翻訳メモ」を活用するとよい。

受信機は、同一テストシーケンスを記憶するコントローラと、同調インピーダンスによって設定されたそれぞれのわずかに異なる中心動作周波数で送信機によって生成されたテストシーケンスを受信するように受信機を同調させるための等しい数の同調インピーダンスの間で選択する回路とを組み込んでいる。

The receiver incorporates a controller for storing an identical test sequence and circuitry for selecting between a like number of tuning impedances for tuning the receiver to receive the test sequences generated by the transmitter at respective slightly different centre operating frequencies set by the tuning impedances.

特許公表平９－５１１８７７
WO9522197より引用

＊impedance
[名][U] [また an ～] 【電】 インピーダンス《交流における電圧の電流に対する比》.
（研究社　新英和中辞典より引用）

インピーダンスは、交流回路における電圧と電流の比である。単位としてはオーム（表記は[Ω]）が用いられる。 インピーダンスは、直流電流におけるオームの法則の電気抵抗の概念を拡張し、交流電流に適用したものである。
（研究社　Wikipediaより引用）

organic electroluminescent display
6849922
LG
An organic electro-luminescent display device, comprising: a plurality of pixels on a substrate; a thin film transistor coupled to each pixel; an organic electro-luminescent device coupled to the thin film transistor; a packaging layer on the organic electro-luminescent device, wherein the packaging layer comprises first and second inorganic layers having opposite stresses; and a first organic layer between the first and second inorganic layers.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6995742
LG
A flat panel display device having a circuit unit and a display panel, comprising: a DC/DC converter supplying a DC voltage; a timing controller connected to the DC/DC converter, the timing controller outputting a gate control signal and a data control signal; a first level shifter at the circuit unit amplifying the gate control signal and the data control signal from the timing controller; a second level shifter at the display panel amplifying the gate control signal and the data control signal amplified by the first level shifter; a plurality of gate lines and data lines crossing one another; a gate driver connected to a first end of each of the gate lines, the gate driver outputting a scan signal according to the gate control signal amplified by the second level shifter; and a data driver connected to a second end of each of the data lines, the data driver outputting a gray level voltage according to the data control signal amplified by the second level shifter.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7132796
LG
An organic electroluminescent device, comprising: first and second substrates facing and spaced apart from each other, the first and second substrates including a pixel region; a gate line on an inner surface of the first substrate; a data line crossing the gate line; a switching thin film transistor connected with the gate line and the data line; a driving thin film transistor connected with the switching thin film transistor; a power line connected with the driving thin film transistor; a first electrode on an inner surface of the second substrate; a first sidewall and a second sidewall on the first electrode at a boundary of the pixel region, the first sidewall and the second sidewall spaced apart from each other; an electroluminescent layer on the first electrode in the pixel region; a second electrode on the electroluminescent layer in the pixel region; and a connection electrode electrically connected to the first and second substrates.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6717356
LG
An electroluminescent device having a plurality of pixels each with a first electrode stripe, an organic electroluminescent multilayer and a second electrode stripe, the device comprising: a partition wall of an electrically insulating material projected from each of the first electrode stripes, the partition wall having a trapezoidal structure with a base closer to a substrate wider than a base away from the substrate, wherein side surfaces of the partition wall are substantially covered by the organic luminescence multilayer, and wherein the partition wall electrically isolates two adjacent pixels.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6099746
LG
A method for fabricating an electroluminescent device, comprising the steps of: forming a plurality of first electrode stripes at fixed intervals on a transparent substrate; forming an array of partition walls made of an electrically insulating material on the first electrode stripes in a vertical direction with respect to the plurality of first electrode stripes, the array of partition walls having a trapezoidal structure with a base closer to the substrate wider than a base away from the substrate; forming an organic electroluminescent multilayer, a second electrode layer, and a first protection layer in succession on an entire surface including on a top surface of the partition walls; etching the organic electroluminescent multilayer, the second electrode layer and the first protection layer on the top surface of the partition walls so that the organic multilayer, the second electrode layer and the first protection layer remain between the partition walls; and, forming a second protection layer on an entire surface of the etched substrate.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6795045
LG
A driving circuit for a panel of electroluminescent (EL) display device, comprising: a current control circuit for supplying an electric current to the panel of the EL display device; a luminescence time detecting circuit for detecting a luminescence time of the panel of the EL display device based on a voltage difference obtained by comparing a voltage applied to the panel of the EL display device with a luminescence critical voltage of the panel of the EL display device; and a digital signal processing circuit for controlling the electric current on the basis of the detected luminescence time.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7132801
LG
A dual panel-type active matrix organic electroluminescent device, comprising: first and second substrates spaced apart from each other; a driving thin film transistor on an inner surface of the first substrate; a connection electrode layer connected to the driving thin film transistor and formed of a first conductive material having a first hardness; a first electrode on an inner surface of the second substrate; an organic electroluminescent layer on the first electrode; and a second electrode on the organic electroluminescent layer, the second electrode connected to the connection electrode layer and formed of a second conductive material having a second hardness, wherein the first hardness is different from the second hardness.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7129632
LG
An organic electroluminescent display device, comprising: a substrate having a plurality of sub-pixel regions for red, green and blue; a driving device on the substrate; a first electrode connected to the driving device, a hole being injected from the first electrode; a second electrode over the first electrode, an electron being injected from the second electrode; and a light emitting material layer interposed between the first and second electrodes within each of the sub-pixel regions, the light emitting material layer within at least one of the plurality of sub-pixel regions includes a fluorescent material and excludes a phosphorescent material and the light emitting material layer within the other ones of the plurality of sub-pixel regions include a phosphorescent material.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6873100
LG
An organic electroluminescent display (ELD) device, comprising: a first substrate; a second substrate spaced apart and facing the first substrate; a plurality of switching elements and a plurality of driving elements interconnected on the first substrate; a plurality of connecting electrodes connected to each of the driving elements; a plurality of subsidiary electrodes formed on an inner surface of the second substrate in spaces between two adjacent pixel regions; a first electrode formed on the inner surface of the second substrate covering each of the subsidiary electrodes; an organic light-emitting layer disposed on the first electrode; and a second electrode having first portions disposed on the organic light-emitting layer.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7132792
LG
An organic electroluminescence display device, comprising: a substrate where a plurality of red (R), green (G) and blue (B) pixel regions are defined; a plurality of transparent electrodes on the substrate, each transparent electrode disposed in each pixel region; a buffer layer on the substrate in intervals among the transparent electrodes, the buffer layer overlapping side portions of the transparent electrodes; a separator on the buffer layer and extending in one direction, the separator disposed between adjacent pixel regions; a hole injection/transporting layer over the substrate and continuously covering the plurality of transparent electrodes, the buffer layer and the separator; a luminous layer on the hole injection/transporting layer and divided into each R, G or B pixel region; and a cathode electrode on the hole injection/transporting layer covering the divided luminous layer, the cathode electrode disposed all over the substrate to connect the R, G and B pixel regions.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7012366
LG
An organic electroluminescent device, comprising: first and second substrates attached by a seal pattern: array elements including a plurality of switching devices on the first substrate; a color changing medium on a rear surface of the second substrate, wherein the color changing medium has a black matrix that defines sub-pixel regions and has red, green, and blue color changing layers respectively corresponding to the sub-pixel regions; a planarizing layer being continuous and on the color changing medium; a first electrode on a rear surface of the planarizing layer; an organic electroluminescent layer on a rear surface of the first electrode; second electrodes on a rear surface of the organic electroluminescent layer that correspond to respective sub-pixel regions; and a plurality of electrical connectors between the first and second substrates, wherein the plurality of electrical connectors connect the array elements on the first substrate to the second electrodes on the second substrate, respectively, and wherein the plurality of electrical connectors include a material different from the second electrodes.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6979956
LG
An organic electroluminescent device, comprising: a gate line and a data line formed over a substrate, the gate and data lines perpendicularly crossing each other and defining a pixel therebetween; a first driving unit formed in the pixel and comprised of a first switching TFT and a first driving TFT; a power line delivering a current signal to the first driving TFT; an organic electroluminescent diode contacting the first driving TFT and receiving the current signal from the first driving TFT; and a second driving unit formed in the pixel and comprised of a second switching TFT and a second driving TFT, the second driving unit being a backup circuit that can deliver the current signal from the power line to the organic electroluminescent diode when the first driving unit malfunctions, wherein the first and second driving units are connected in parallel.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7071613
LG
An organic electroluminescent device, comprising: a substrate; a first electrode disposed over the substrate, the first electrode causing optical interference of incident light; at least one organic electroluminescent layer disposed on the first electrode; a second electrode disposed on the at least one organic electroluminescent layer, the second electrode including a transparent conductive material; a top passivation layer disposed on the second electrode; and a compensation layer disposed on the top passivation layer, the compensation layer including at least one of an antireflection coating material and an antiglare coating material.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6781321
LG
An active matrix organic electroluminescent device, comprising: a substrate; a gate line on the substrate; a data line on the substrate, the data line crossing the gate line to define a pixel region; a first switching thin film transistor connected to the gate line and the data line; a first driving thin film transistor connected to the first switching thin film transistor; a power line connected to the first driving thin film transistor and parallel to the gate line; a capacitor electrode connected to the first driving thin film transistor and overlapping the power line; and a pixel electrode connected to the first driving thin film transistor and covering the pixel region, wherein the power line extends across the data line.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6320312
LG
An organic electroluminescent (EL) display panel comprising: a plurality of emitting portions laminated between a plurality of first and second electrodes, wherein each of said plurality of first and second electrodes comprises a plurality of conductive layers arranged in a matrix of at least one row and at least one column and said conductive layers being electrically isolated from each other, wherein said matrix of at least one row and at least one column is divided into n.times.m sub-panels, where n and m are integers equal to at least one; a substrate, wherein said plurality of first electrodes are formed on said substrate and each of said plurality of first electrodes are electrically connected to a first bus electrode; and organic function layers formed on said first electrodes, wherein each of said organic function layers comprises at least one organic EL medium layer, wherein said plurality of second electrodes are formed on said organic function layers and each of said plurality of second electrodes are electrically connected to a second bus electrode, wherein each of said first bus electrodes or second bus electrodes comprises a portion of a multilayer vertically stacked structure with an electrically insulating layer in between, wherein each of said multilayer vertically stacked structures comprises one of said plurality of first and second bus electrodes arranged side by side with an electrically insulating gap in between.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6927536
LG
An organic electroluminescent display (ELD) device, comprising: a first substrate having a plurality of pixel regions including a plurality of pixels; a second substrate spaced apart and facing the first substrate; a plurality of switching elements and a plurality of driving elements interconnected on the second substrate; a plurality of connecting electrodes connected to each of the driving elements; a first electrode formed on an inner surface of the first substrate; a plurality of partitions formed on the first electrode, the partitions being formed along boundaries of neighboring pixels; a plurality of organic light-emitting layers disposed on the first electrode; a plurality of second electrodes formed on the organic light-emitting layers, each of the second electrodes are independently formed in each of the pixel regions, are separated by the partitions, and are electrically connected to one of the connecting electrodes; and a plurality of insulating layer patterns formed between the first electrode and the partitions, the insulating layer pattern being formed along the partitions and extending to contact regions of the connecting electrodes and the second electrodes.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7064482
LG
An organic electroluminescent device, comprising: first and second substrates facing and spaced apart from each other, the first and second substrates having a display area including a plurality of pixel regions and a first peripheral region at one side of the display area; a first common electrode at the first peripheral region on an inner surface of the first substrate; a driving thin film transistor at each of the pixel regions on the inner surface of the first substrate, the driving thin film transistor including an active layer, a gate electrode, and source and drain electrodes; a first connection electrode connected to the drain electrode of the driving thin film transistor at each of the pixel regions; a second connection electrode connected to the first common electrode at the first peripheral region; a first electrode on an entire inner surface of the second substrate; isolating patterns on the first electrode corresponding to each border between the pixel regions; a first insulating pattern at the first peripheral region on the first electrode corresponding to the second connection electrode; partition walls on the isolating patterns; an organic luminescent layer at each of the pixel regions on the first electrode; a second electrode on the organic luminescent layer connected to the first connection electrode at each of the pixel regions; a first contacting electrode on the first insulating pattern contacting the first electrode; and a sealant attaching the first and second substrates.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7131884
LG
A method of fabricating an organic electroluminescent device, comprising: forming an insulating layer on a first substrate having a display area including a plurality of pixel regions and a first peripheral region at one side of the display area; forming a driving thin film transistor at each of the plurality of pixel regions on the insulating layer, the driving thin film transistor including an active layer, a gate electrode, and source and drain electrodes; forming a first common electrode at the first peripheral region on the insulating layer; forming a first connection electrode and a second connection electrode, the first connection electrode connected to the drain electrode, the second connection electrode connected to the first common electrode; forming a first electrode on a second substrate; forming isolating patterns and a first insulating pattern on the first electrode, the isolating patterns corresponding to each border between the pixel regions, the first insulating pattern at the first peripheral region; forming partition walls on the isolating patterns; forming an organic luminescent layer at each of the plurality of pixel regions on the first electrode; forming a second electrode on the organic luminescent layer; forming a first contacting electrode on the first insulating pattern and contacting the first electrode; and attaching the first and second substrates with a sealant such that the first connection electrode contacts the second electrode and the second connection electrode contacts the first contacting electrode.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7164230
LG
A dual panel-type organic electroluminescent device, comprising: first and second substrates spaced apart from each other; a gate line, a data line, and a power line formed over the first substrate; a switching thin film transistor connected to the gate and data lines; a driving thin film transistor connected to the power line and the switching thin film transistor, the driving thin film transistor including a driving semiconductor layer, a driving source, a driving drain, a first driving gate underneath the driving semiconductor layer, and a second driving gate above the driving semiconductor; an electrical connector over the first substrate, the electrical connector including a connection electrode layer connected to the driving thin film transistor; first and second thin film transistor connectors connecting the switching thin film transistor to the driving thin film transistor; and an organic electroluminescent diode on the second substrate, the organic electroluminescent diode connected to the electrical connector.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7173371
LG
A transmissive-type organic electroluminescent display device, comprising: a substrate including sub-pixel regions thereon; an array element in each sub-pixel area that includes thin film transistors; a partition wall at a border portion between adjacent sub-pixel regions made of a transparent insulating material; a first electrode made of a transparent conductive material in each sub-pixel region between adjacent partition walls, the transparent conductive material disposed on an upper surface of the partition wall; an organic electroluminescent layer on the first electrode in each sub-pixel region between the adjacent partition walls; a second electrode made of a transparent conductive material on the organic electroluminescent layer; and a passivation layer covering the second electrode, wherein the partition wall is provided with an organic electroluminescent material such that the organic electroluminescent material is formed on the partition wall and separate from the organic electroluminescent layer by the partition wall.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6940476
LG
An active matrix organic electroluminescent display device, comprising: a substrate; a gate line disposed on the substrate; a data line disposed on the substrate crossing the gate line to form a pixel region; a first switching thin film transistor disposed on the substrate and electrically connected to the gate line and the data line; a first driving thin film transistor disposed on the substrate and electrically connected to the first switching thin film transistor; a capacitor electrode formed on the substrate and electrically connected to the first switching thin film transistor, the capacitor electrode having first and second parts disposed in parallel to the data line and spaced apart from each other, and a third part connecting a first end of the first part to a first end of the second part; a power line electrically connected to the first driving thin film transistor, the power line having first, second, and third portions overlapping the capacitor electrode to form a storage capacitor; a pixel electrode disposed within the pixel region and electrically connected to the first driving thin film transistor; an organic emissive layer disposed on the pixel electrode; and a partition wall disposed between adjacent organic layers to overlap the data line and the first and second parts of the capacitor electrode.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6982524
LG
An organic electroluminescent display device, comprising: first and second substrates bonded together, the first and second substrates having a plurality of pixel regions, each pixel region includes a central portion and first and second portions at both sides of the central portion; a driving element on an inner surface of the first substrate within each of the plurality of pixel regions, the driving element being disposed in the central portion; first and second connection electrodes contacting the driving element and disposed in the first and second portions; a first electrode on an inner surface of the second substrate; an organic electroluminescent layer on the first electrode; and a second electrode on the organic electroluminescent layer, wherein the second electrode contacts the first and second connection electrodes.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7132308
LG
A method of fabricating an organic electroluminescent display device, comprising: forming a thin film transistor on a first substrate having a plurality of sub-pixel regions, the thin film transistor corresponding to each of the plurality of sub-pixel regions; forming a passivation layer on the thin film transistor, the passivation layer having a contact hole exposing the thin film transistor; forming a connection pattern on the passivation layer, the connection pattern contacting the thin film transistor through the contact hole and having a first portion contacting the second electrode and a second portion adjacent to the first portion such that a cross sectional area of the first portion is larger than a cross sectional area of the second portion; forming a first electrode on a second substrate having the plurality of sub-pixel regions; forming an organic electroluminescent layer on the first electrode; forming a second electrode on the organic electroluminescent layer, the second electrode corresponding to each of the plurality of sub-pixel regions; and attaching the first and second substrates such that the connection pattern contacts the second electrode, wherein a melting temperature of the connection pattern is lower than a melting temperature of the second electrode.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6909110
LG
An organic electroluminescent display device, comprising: first and second substrates facing and spaced apart from each other, the first and second substrates having a plurality of sub-pixel regions; a thin film transistor provided at each of the plurality of sub-pixel regions on an inner surface of the first substrate; a first electrode on an inner surface of the second substrate; an organic electroluminescent layer on the first electrode; a second electrode on the organic electroluminescent layer at each of the plurality of sub-pixel regions; and a connection pattern contacting the thin film transistor and the second electrode, wherein a melting temperature of the connection pattern is lower than a melting temperature of the second electrode.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7005677
LG
An organic electroluminescent display (ELD) device having a first substrate having an array element layer and a second substrate having an organic electroluminescent diode, comprising: a gate line formed on the first substrate in a first direction; a data line formed on the first substrate in a second direction perpendicular to the first direction; a power supply line spaced apart from the data line and formed on the first substrate in the second direction, the power supply line being formed with same material as the gate line in a same process as the gate line, the power supply line having an additional power supply link line near a crossing portion of the gate line and the power supply line; a switching thin film transistor formed near a crossing portion of the gate and data lines, the switching thin film transistor having a semiconductor layer formed of amorphous silicon; a driving thin film transistor formed near a crossing portion of the switching thin film transistor and the power supply line, the driving thin film transistor having a semiconductor layer formed of same material as the semiconductor layer of the switching thin film transistor; a connecting electrode connected to the driving thin film transistor; and an electrical connecting pattern formed between the first substrate and the second substrate for electrically connecting the connecting electrode to the organic electroluminescent diode.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6806504
LG
An active matrix organic electroluminescent device, comprising: a substrate; a buffer layer on the substrate; a thin film transistor on the buffer layer; a passivation layer on an entire surface of the substrate covering the thin film transistor; a first electrode disposed on the passivation layer to contact the thin film transistor through a contact hole formed in the passivation layer; a first bank layer disposed on the first electrode and on the passivation layer, the first bank layer having a first bank opening exposing a portion of the first electrode; a second bank layer disposed on the first bank layer to have a second bank opening aligned with the first bank opening; an organic electroluminescent layer confined within the first bank opening to electrically contact the first electrode and the first bank layer; and a second electrode formed on the organic electroluminescent layer and on the second bank layer within the first and second bank openings.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7105999
LG
An organic electroluminescent display device, comprising: first and second substrates facing and spaced apart from each other, the first and second substrates having a plurality of pixel regions and a peripheral region surrounding the plurality of pixel regions; a first pad disposed at the peripheral region on an inner surface of the first substrate; a driving thin film transistor disposed at each of the plurality of pixel regions on the inner surface of the first substrate, the driving thin film transistor including an active layer, a gate electrode, and source and drain electrodes; a first connection electrode structure connected to the drain electrode; a second connection electrode structure connected to the first pad, the second connection electrode structure being the same as the first connection electrode structure; a first electrode on an entire inner surface of the second substrate, the first electrode being connected to the second connection electrode structure; an organic emission layer on the first electrode; a second electrode on the organic emission layer at each of the plurality of pixel regions, the second electrode being connected to the first connection electrode structure; a plurality of first auxiliary electrodes disposed between the plurality of pixel regions; and a sealant attaching the first and second substrates together, wherein the plurality of first auxiliary electrodes have lower resistance than the first electrode.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7109650
LG
An active matrix organic electroluminescent display device, comprising: a substrate including a light emitting region having sub pixel regions; a plurality of switching elements on the substrate in the sub pixel regions; a first passivation layer covering the plurality of switching elements and having a plurality of first contact holes exposing the plurality of switching elements; a plurality of first electrodes on the first passivation layer, each first electrode connected to each switching element through each first contact hole; a second passivation layer on the plurality of first electrodes, the second passivation layer having a plurality of openings exposing the plurality of first electrodes and an end portion covering edge portions of the plurality of first electrodes; a plurality of organic electroluminescent layers on the second passivation layer, each organic electroluminescent layer contacting each first electrode through each opening; and a second electrode on the plurality of organic electroluminescent layers, wherein the first passivation layer is made of a first organic material having a planarized upper surface and the second passivation layer is made of a second organic material having a formation temperature lower than a formation temperature of the first organic material, and the end portion of the second passivation is disposed between a terminal end portion of each of the plurality of organic electroluminescent layers and a terminal end portion of each of the plurality of first electrodes.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6744197
LG
An organic electroluminescent display (ELD) device, comprising: a first substrate; a second substrate spaced apart and facing the first substrate; a plurality of switching thin film transistors and a plurality of driving thin film transistors interconnected on the first substrate, each of the switching thin film transistor and the driving thin film transistor having an active layer, a gate electrode, a source electrode, and a drain electrode, the drain electrode of the driving thin film transistor being extended to the pixel region to have an extended portion; a contact electrode contacting the extended portion of the drain electrode of the driving thin film transistor; a first electrode formed on the second substrate; an organic light-emitting layer on the first electrode; and a second electrode on the organic light-emitting layer.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6870197
LG
A dual panel type organic electroluminescent display device, comprising: first and second substrates bonded together by a seal pattern, the first and second substrates including a plurality of sub-pixel regions; a plurality of array elements including a plurality of thin film transistors on the first substrate; a plurality of organic electroluminescent diodes on the second substrate, each of the organic electroluminescent diodes having a first electrode on a rear surface of the second substrate, an organic electroluminescent layer on a rear surface of the first electrode, a second electrode on a rear surface of the organic electroluminescent layer that corresponds to respective ones of the sub-pixel regions; a plurality of connecting electrodes connected to the thin film transistors over the first substrate; a plurality of electrical connecting patterns formed on each of the connecting electrodes, each of the electrical connecting patterns electrically interconnecting each of the thin film transistors to one of the organic electroluminescent diodes; and a plurality of hygroscopic patterns formed on portions of the connecting electrodes.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6967435
LG
An active matrix organic electroluminescent display device, comprising: a first substrate and a second substrate facing and spaced apart from each other; a thin film transistor on an inner surface of the first substrate; a first electrode connected to the thin film transistor; an organic electroluminescent layer on the first electrode; a second electrode on the organic electroluminescent layer; a passivation layer on the second electrode; a black matrix on an inner surface of the second substrate, the black matrix includes a plurality of open portions; a color filter layer at the plurality of open portions, the color filter layer includes first, second, and third sub-color filters; a color changing layer on the color filter layer, the color changing layer includes a first color changing medium on the first sub-color filter and a second color changing medium on the second sub-color filter; an overcoat layer on the color changing layer; and an adhesive film between the passivation layer and the overcoat layer, wherein a sum of a thickness of the first color changing medium and a thickness of the first sub-color filter is substantially equal to a thickness of the third sub-color filter.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6933574
LG
A method of fabricating an organic electroluminescent display device, comprising steps of: forming a switching thin film transistor and a driving thin film transistor electrically interconnected on a first substrate; forming a connecting electrode electrically contacting the driving thin film transistor; forming a first electrode on a second substrate; forming a partition wall on the first electrode to have a transmissive hole corresponding to a pixel region between the first and second substrates; forming an organic layer on the first electrode within the transmissive hole; forming a second electrode on the organic layer; and bonding the first and second substrates together, wherein the connecting electrode electrically contacts the second electrode.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7064350
LG
An organic electroluminescent device, comprising: first and second substrates spaced apart from and attached to each other, the first and second substrates including a plurality of pixel regions and a periphery region surrounding the plurality of pixel regions; a plurality of gate lines on an inner surface of the first substrate; a plurality of data lines crossing the plurality of gate lines; a plurality of driving thin film transistors, each of the driving thin film transistors adjacent to one of the plurality of pixel regions; a plurality of power lines connected to the driving thin film transistors; a plurality of gate pads connected to an end portion of the gate lines within the periphery region; a plurality of data pads connected to an end portion of the data lines within the periphery region; a plurality of power pads connected to an end portion of the power lines within the periphery region; at least one dummy pad within the periphery region, the at least one dummy pad being independent of each of the gate pads, the data pads, and the power pads; a first electrode on an inner surface of the second substrate, the first electrode connected to the dummy pad; an organic electroluminescent layer on the first electrode; a plurality of second electrodes on the organic electroluminescent layer within each of the pixel regions; and a plurality of connection electrodes electrically interconnecting the first substrate with the second substrate.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6922015
LG
An organic electroluminescent display device, comprising: a first substrate; a second substrate spaced apart from and facing the first substrate to form a space therebetween, the first and second substrates include a pixel region having sub-pixel regions; an array element on an inner surface of the first substrate; an organic electroluminescent diode on an inner surface of the second substrate, the organic electroluminescent diode includes a first electrode, an organic electroluminescent layer, and a second electrode positioned by the sub-pixel regions; a seal pattern along a peripheral portion between the first and second substrates; a plurality of partition walls formed on the second substrate each adjacent to the organic electroluminescent diode; and a connection pattern electrically interconnecting the array element and the organic electroluminescent diode, and positioned between the plurality of partition walls, the connection pattern connects the thin film transistor and the second electrode adjacent to the sub-pixel regions, wherein a pressure within the space between the first and second substrates is lower than an ambient atmospheric pressure.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7021984
LG
A method of fabricating an organic electroluminescent display device, comprising steps of: forming an array element and connection pattern on a first substrate; forming a connection pattern electrically connected to the array element; forming an organic electroluminescent diode on a second substrate; forming a seal pattern along a peripheral portion between the first and second substrates such that the array element and the organic electroluminescent diode face each other; performing a first bonding of the first and second substrates within a vacuum chamber by pressing the seal pattern to electrically interconnect the connection pattern and the organic electroluminescent diode, the first bonding providing a first space between the first and second substrates having a first pressure less than an atmospheric pressure; and performing a first hardening of the seal pattern; and performing a second bonding of the first and second substrate in the vacuum chamber at the atmospheric pressure.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6146715
LG
A method of fabricating an organic electroluminescent (EL) display panel, comprising: forming a first electrode layer on a transparent substrate; forming an insulating layer having an insulating surface on the first electrode layer; selectively removing portions of the insulating layer at predetermined first regions using at least one laser beam to expose a first set of first sub-pixel electrodes; forming a set of organic function layers on the first set of first sub-pixel electrodes and on remaining portions of the insulating surface, said organic function layers comprising at least one organic EL medium layer; and forming a set of second electrode layers on the organic function layers to form a second set of first sub-pixel electrodes, wherein the first set of first sub-pixel electrodes, the portions of the organic function layers electrically communicating with the first set of first sub-pixel electrodes and the second set of the sub-pixel electrodes and the second set of first sub-pixel electrodes form a first set of first sub-pixels wherein the remaining portions of the insulating layer following selective removal of the predetermined first regions separate a sub-pixel from other sub-pixels.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7052930
LG
A method of fabricating an active matrix organic electroluminescent device, comprising: forming a ground layer on a substrate; forming a buffer layer on the ground layer; forming a polycrystalline semiconductor layer on the buffer layer; forming a gate insulation layer on the buffer layer to cover the polycrystalline silicon layer; forming a gate electrode and a first capacitor electrode on the gate insulation layer, the gate electrode disposed above the polycrystalline silicon layer; doping ions into the polycrystalline semiconductor layer using the gate electrode as a mask so that the polycrystalline semiconductor layer has an active region, a drain region and a source region, wherein the active region is disposed in the middle of the polycrystalline silicon layer and under the gate electrode and the drain and source regions are disposed to both sides of the active region; forming an interlayer insulator on the gate insulation layer to cover the gate electrode and the first capacitor electrode; forming first, second, third and fourth contact holes, wherein the first and second contact holes expose the drain and source regions, respectively, by penetrating both the interlayer insulator and the gate insulation layer, and the third and fourth contact holes expose portions of the ground layer by penetrating the interlayer insulator, the gate insulation layer and the buffer layer; forming drain and source electrodes on the interlayer insulator, the drain and source electrode contacting the drain and source regions, through the first contact hole and through the second contact hole, respectively; forming a cathode electrode on the interlayer insulator, the cathode electrode connected to the drain electrode; forming a second capacitor electrode on the interlayer insulator; forming a passivation layer on the interlayer insulator to cover the drain and source electrodes, the cathode electrode and the second capacitor electrode, the passivation layer having a well that exposes the cathode electrode; forming an organic electroluminescent layer on the passivation layer and into the well, the organic electroluminescent layer contacting the cathode electrode through the well; and forming an anode electrode on the exposed portion of the passivation layer and on the organic electroluminescent layer.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6921918
LG
An active matrix organic electroluminescent device, comprising: a substrate; a ground layer on the substrate; a buffer layer on the ground layer; a polycrystalline semiconductor layer on the buffer layer, the polycrystalline semiconductor layer having an active region, a drain region and a source region, wherein the active region is in the middle of the polycrystalline silicon layer and the drain and source regions are disposed in both sides of the active region; a gate insulation layer on the buffer layer to cover the polycrystalline silicon layer; a gate electrode on the gate insulation layer, above the active region of the polycrystalline silicon layer; a first capacitor electrode on the gate insulation layer; an interlayer insulator on the gate insulation layer to cover the gate electrode and the first capacitor electrode; drain and source electrodes on the interlayer insulator, the drain and source electrode contacting the drain and source regions, respectively, through first and second contact holes that penetrate the interlayer insulator and the gate insulation layer; a cathode electrode on the interlayer insulator, the cathode electrode extended from and integrally formed as one unit with the drain electrode; a second capacitor electrode on the interlayer insulator; a passivation layer on the interlayer insulator to cover the drain and source electrodes, the cathode electrode and the second capacitor electrode, the passivation layer having a well that exposes the cathode electrode; an organic electroluminescent layer on the passivation layer and into the well, the organic electroluminescent layer contacting the cathode electrode through the well; and an anode electrode on the exposed portion of the passivation layer and on the organic electroluminescent layer.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6831298
LG
A dual panel-type organic electroluminescent display device, comprising: a first substrate and a second substrate bonded together to include a plurality of sub-pixel regions; a first electrode on an inner surface of the second substrate; an insulating pattern on the first electrode along a border portion between adjacent sub-pixel regions; a plurality of partition walls on the insulating pattern; a plurality of organic electroluminescent layers, each within one of the sub-pixel regions between adjacent partition walls; a second electrode on the organic electroluminescent layer; a plurality of thin film transistors on an inner surface of the first substrate each within one of the sub-pixel regions, and including a semiconductor layer, a gate electrode, a source electrode, and a drain electrode; a passivation layer covering the thin film transistors and including a contact hole exposing the drain electrode; and a plurality of connection patterns on the passivation layer, each including a first pattern and a second pattern, wherein the first pattern corresponds to the second electrode and has a height larger than a height of the partition walls and the second pattern covers the first pattern and is connected to the drain electrode and the second electrode.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6835954
LG
An active matrix organic electroluminescent device, comprising: a substrate; a ground layer on the substrate; a buffer layer on the ground layer; a polycrystalline semiconductor layer on the buffer layer, the polycrystalline semiconductor layer having an active region, a drain region and a source region, wherein the active region is disposed in the middle of the polycrystalline silicon layer and the drain and source regions are disposed to both sides of the active region; a gate insulation layer on the buffer layer to cover the polycrystalline silicon layer; a gate electrode on the gate insulation layer, the gate electrode above the active region of the polycrystalline silicon layer; a first capacitor electrode on the gate insulation layer; an interlayer insulator made of an organic material on the gate insulation layer covering the gate electrode and the first capacitor electrode; drain and source electrodes on the interlayer insulator, the drain and source electrodes contacting the drain and source regions through first and second contact holes that penetrate the interlayer insulator and the gate insulation layer, respectively a cathode electrode on the interlayer insulator and connected to the drain electrode; a second capacitor electrode on the interlayer insulator, the second capacitor electrode being electrically connected to the ground layer; a passivation layer on the interlayer insulator covering the drain and source electrodes, the cathode electrode and the second capacitor electrode, the passivation layer having a well that exposes the cathode electrode; an organic electroluminescent layer on the passivation layer and into the well, the organic electroluminescent layer contacting the cathode electrode through the well; and an anode electrode on the exposed portion of the passivation layer and on the organic electroluminescent layer.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7102198
LG
An organic electroluminescent display device, comprising: a first substrate; a second substrate spaced apart and facing the first substrate; a switching thin film transistor disposed on an inner surface of the first substrate; a driving thin film transistor electrically connected to the switching thin film transistor; a connecting electrode electrically connected to the driving thin film transistor; a first electrode disposed on an inner surface of the second substrate; a partition wall disposed on the first electrode and having a transmissive hole corresponding to a pixel region between the first and second substrates; an organic layer disposed within the transmissive hole on the first electrode; and a second electrode disposed on the organic layer, wherein the second electrode is electrically connected to the driving thin film transistor through the connecting electrode and the second electrode is spaced apart from the driving thin film transistor with a vacant space therebetween.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6870186
LG
An organic electroluminescent device, comprising: first and second substrates attached by a seal pattern; array elements including a plurality of thin film transistors formed on the first substrate; a first electrode formed on a rear surface of the second substrate; a plurality of electrode separators formed on the rear surface of the first electrode, wherein the plurality of electrode separators is made of an insulating material defining sub-pixel regions that correspond to each thin film transistor, an organic electroluminescent layer formed on a rear surface of the first electrode in each of the sub-pixel regions; a second electrode formed on a rear surface of the organic electroluminescent layer in each of sub-pixel regions; and a conductive connector formed within a cell gap between the first and second substrates in each sub-pixel region for connecting to the second electrode of a sub-pixel region.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6893744
LG
An organic electroluminescent display device comprising: a transparent substrate; an anode formed on the transparent substrate; an organic layer stacked on the anode; a cathode formed on the organic layer; and a buffer layer formed between the cathode and organic layer, the buffer layer including a first material selected from the group consisting of alkaline metals, alkaline earth metals, alkaline metal compounds and alkaline earth metal compounds and a second material wherein the second material is an aromatic amine having the following structural formula: ##STR12## where each of R1, R2, and R3 is selected from the group consisting of hydrogen, alkyl group, substituted or unsubstituted aromatic ring, and substituted or unsubstituted aromatic amine wherein at least one of R1, R2, and R3 is substituted or unsubstituted aromatic ring or substituted or unsubstituted aromatic amine and further, wherein a composition ratio between the first and second materials x and y constituting the buffer layer is x:y=(1.about.100):1 or x:y=1:(1.about.100) and a total thickness of the buffer layer is 0.1.about.10 nm.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6140765
LG
An organic electroluminescent (EL) display panel comprising: a plurality of sub-panels divided into a plurality of emitting portions formed on a substrate on which a plurality of first electrodes corresponding to the sub-panels and a plurality of first [signal buses] bus electrodes coupled to corresponding first electrodes are formed; a plurality of second [signal buses] bus electrodes insulatively projecting from the substrate for exposing at least portions of the first electrodes respectively; a plurality of ramparts formed on the plurality of second bus electrodes; at least one of first organic function layers, second organic function layers and third organic function layers formed on the exposed portions of the first electrodes, each of said first organic function layers, second organic function layers and third organic function layers including at least one organic electroluminescent medium; and a plurality of second electrodes formed on said at least one of first, second and third organic function layers and coupled to corresponding second bus electrodes.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6845140
Samsung
A shift register including a plurality of cascade-connected stages, the stages receiving a first clock signal and a second clock signal to sequentially produce a plurality of scan line driving signals for selecting a plurality of scan lines, each of the stages comprising: a carry buffer for providing a next stage with a carry signal corresponding to the first clock signal or the second clock signal, the second clock signal having an inverted phase with respect to the first clock signal; a pull-up part for providing an output terminal with a first scan line driving signal corresponding to the first clock signal or the second clock signal; a pull-down part for providing the output terminal with a first power voltage; a pull-up driver part for turning on the pull-up part in response to the carry signal provided from a previous stage and turning off the pull-up part in response to a is second scan line driving signal of the next stage; and a pull-down driver part for turning off the pull-down part in response to the carry signal provided from the previous stage and turning on the pull-up part in response to the second scan line driving signal of the next stage.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7106292
Samsung
A shift register comprising: a plurality of stages including odd numbered stages and even numbered stages, the odd numbered stages respectively receiving a first clock and a first control signal, the first clock being prevented from being outputted from each of the odd numbered stages in response to the first control signal, the even numbered stages respectively receiving a second clock and a second control signal, the second clock being prevented from being outputted from each of the even numbered stages in response to the second control signal, the second clock having a first phase 180.degree. different from a second phase of the first clock, the stages respectively delaying the first clock or the second clock by a first period to sequentially output the first clock end the second clock as a scan line driving signal; a dummy stage for generating a dummy output signal, the scan line driving signal of a last stage falling below a first predetermined voltage level in response to the dummy output signal of the dummy stage, the dummy output signal being delayed by a second period and falling below a second predetermined voltage level in response to the dummy output signal.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6894313
Samsung
A CMOS thin film transistor, comprising: an active channel of a P-type thin film transistor, the active channel being formed in polycrystalline silicon, an active channel of a N-type thin film transistor, the active channel being formed in polycrystalline silicon, primary grain boundaries in the P-type thin film transistor, primary grain boundaries in the N-type thin film transistor, wherein a direction of the active channel of the P-type transistor is different from a direction of the active channel of the N-type transistor such that the primary grain boundaries of the P-type thin film transistor are at an angle of about 60.degree. to about 120.degree. with respect to the active channel direction of the P-type thin film transistor and the primary grain boundaries of the N-type thin film transistor are out an angle of about -30.degree. to about 30.degree. with respect to the active channel direction of the N-type thin film transistor.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7183571
Samsung
A polycrystalline silicon thin film to be used in display devices, the thin film comprising primary grain boundaries, wherein adjacent ones of the primary grain boundaries are not parallel to each other, wherein an area surrounded by the primary grain boundaries is larger than 1 .mu.m.sup.2, wherein grains of polycrystalline silicon extend in a plurality of directions in the area from each of the primary grain boundaries, and wherein the area does not contain any substance added to promote crystallization of silicon in the area.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7184065
Samsung
A flat panel display comprising: a display panel including a plurality of scan lines and a plurality of data lines, intersecting each other, and a plurality of pixels for displaying pictures based on signals applied to the plurality of data lines in response to signals applied to the plurality of scan lines; a display period controller receiving a first signal and then producing a second signal including first and second enable intervals during one frame; and a scan driver for delivering said second signal to the plurality of scan lines in turn, with said one frame being divided into a first period between said first and second enable intervals and a second period between said second enable interval and an end point of the frame, and the pixels displaying pictures having a desired gray level in one of said first and second periods and pictures including a black level in the other of said first and second periods.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7026649
Samsung
A thin film transistor comprising: an active conductive layer a source region and a drain region; a gate conductive layer insulated from the active conductive layer, the gate conductive layer patterned to form a gate electrode; an insulating layer deposited on the gate conductive layer and patterned to form contact holes to the respective source region and drain region; a metal conductive layer deposited on the insulating layer forming a source electrode, a drain electrode and metal wiring; and a passivation layer formed on the metal conductive layer and including a via hole formed on the passivation layer and exposing a portion of the drain region; wherein one or more of the active conductive layer, the gate conductive layer, or the metal conductive layer, includes at least one conductive material layer having multiple edge portion profiles with multiple edge taper angles.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6855960
Samsung
A flat panel display comprising: a substrate; a pixel electrode formed on the substrate; a black matrix having a plurality of layers and formed on the same surface as the pixel electrode; a first insulating layer formed on a front surface of the substrate; a thin film transistor formed on the first insulating layer corresponding to the black matrix so as to be connected to the pixel electrode; a capacitor formed over the first insulating layer corresponding to the black matrix so as to be connected to the thin film transistor; and a second insulating layer formed on the front surface of the substrate having an opening part which exposes a part of the pixel electrode.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6906457
Samsung
An organic EL device comprising: a transparent substrate; a transparent electrode; a hole transport layer; a light emitting layer; an electron transport layer; and a cathode, wherein the layers are sequentially stacked, and wherein with a sum of a geometric thickness of the hole transport layer and a geometric thickness of the transparent electrode being denoted by l2, with the geometric thickness of the hole transport layer being denoted by d(HTL), and with the d(HTL) resulting in a maximum or minimum of luminance being denoted by a peak_d(HTL), the l2 is set such that a thickness distribution according to colors of red, green and blue at the peak_d(HTL), is within the range of 30 nm.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7173372
Samsung
A flat panel display device comprising: a power supply layer formed on an insulation substrate and connected with one of source/drain electrodes through a contact hole; and an insulating layer formed to insulate the power supply layer and a thin film transistor, wherein the thin film transistor is formed over the insulating layer and includes the source/drain electrodes, and wherein the power supply layer provides power supply required for driving the thin film transistor.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7091666
Samsung
An organic electroluminescent display (EL) device comprising: a substrate made of a transparent material; a first electrode unit having a plurality of electrodes formed on the substrate in a predetermined pattern; a second electrode unit having a plurality of electrodes arranged in a direction crossing the first electrode unit; an electroluminescent layer disposed between the first electrode unit and the second electrode unit and configured to cover at least the first electrode unit and to emit light at the intersection of the first and second electrode units; inter-insulators positioned under the electroluminescent layer to cover at least spaces between each of the respective electrodes of the first electrode unit, and configured to define the first electrode unit as a plurality of light emitting areas and to prevent a short-circuit between the first electrode unit and the second electrode unit; and insulating walls positioned on at least one of the top and bottom surfaces of the inter-insulators.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7026658
Samsung
An electroluminescent display device, comprising: a rear substrate comprising a first electrode layer, a light-emitting layer and a second electrode layer that are orderly formed on an upper surface of the rear substrate; a front substrate, that is coupled with the rear substrate, the front substrate comprising a patterned conductive black matrix layer formed on a lower surface of the front substrate, the patterned black matrix layer facing the second electrode layer on the rear substrate; and a plurality of conductive connecting members disposed between the second electrode layer and the black matrix layer, the conductive connecting members electrically connecting the second electrode layer to the patterned black matrix layer.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7052931
Samsung
A method of fabricating a flat panel display, the method comprising: forming a first electrode; forming at least one organic electroluminescent layer on the first electrode; forming a second electrode; wherein the first electrode comprises a first component of a transparent material and a second component of a metallic material, and the forming of the first electrode comprises depositing the first and second components so as to have a gradual concentration gradient in which the first component is decreased while the second component is increased at a part in contact with the exposed electrode, according to a thickness of the first electrode.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
7030558
Samsung
An organic electroluminescent (EL) panel, comprising: a substrate; an organic EL device formed on the substrate and including a first electrode layer, an organic layer, and a second electrode layer; an inorganic material layer comprising at least one transparent material stacked on the organic EL device; an organic material layer stacked on the inorganic material layer; an encapsulation plate formed over the organic EL device; a first sealant interposed between the substrate and the encapsulation plate and surrounding the outer periphery of the organic EL device; and a second sealant filled into a space produced by the substrate, the first sealant and the encapsulation plate.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6902943
Samsung
A method of fabricating a flat panel display, the method comprising: forming a thin film transistor having source/drain electrodes on an insulation substrate of the display; forming an insulation layer on the insulation substrate having the thin film transistor; forming a via hole which exposes one of the source/drain electrodes by etching a corresponding area of the insulation layer; and forming an anti-reflection layer connected to the one of the source/drain electrodes exposed through the via hole, wherein the anti-reflection layer comprises a first component of a transparent material and a second component of a metallic material, and the forming of the anti-reflection layer comprises depositing the first and second components so as to have a gradual concentration gradient in which the first component is decreased while the second component is increased at a part in contact with the exposed electrode, according to a thickness of the anti-reflection layer.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6897478
Samsung
A flat panel display device comprising: an insulation substrate; a thin film transistor having source/drain electrodes formed on the insulation substrate; a first insulation layer which is formed on the insulation substrate having the thin film transistor and includes a via hole which exposes a portion of one of the source/drain electrodes; and an anti-reflection layer formed over the first insulation layer and connected to the portion of the one of the source/drain electrodes exposed through the via hole, wherein the anti-reflection layer comprises a first component of a transparent material and a second component of a metallic material, which are arranged so that the anti-reflection layer has a gradual concentration gradient according to a thickness thereof.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。

organic electroluminescent display
6896572
Samsung
A method of encapsulating an organic electroluminescent (EL) device comprising steps of: applying a first sealant to a portion of an encapsulation plate facing a substrate that defines one selected from a plurality of organic EL devices formed on the substrate, each EL device including a first electrode layer, an organic layer, and a second electrode layer; filling with a second sealant a space produced by the encapsulation plate and the first sealant and having an open face; and bonding the substrate and the encapsulation plate together by applying pressure such that the first sealant and the second sealant bond the substrate and the encapsulation plate to each other.
＊KRからの出願だが、語学面より技術面の理解度を重視して、この明細書を引用した。