Source: https://insight.rpxcorp.com/pat/US20080093990A1
Timestamp: 2019-09-19 23:01:56
Document Index: 146593197

Matched Legal Cases: ['art 100', 'art 100', 'art 100', 'art 100', 'art 100', 'art 100', 'art 100', 'art 100', 'art 100', 'art 100', 'art 100', 'art 100', 'art 100', 'art 100', 'arts 100', 'art 100', 'art 100', 'art 100', 'art 100', 'art 100', 'art 100']

Patent US 20080093990A1
A cap comprising a first region attached on the substrate; and
a second region having a position different from a position of the first region, connected with the first region, and corresponding to the pixel part;
US 7,656,088 B2
US 20090115317A1
US 7,355,204 B2
US 20060158077A1
US 20040012332A1
US 6,551,724 B2
Curable epoxy resin compositions and use in preparing formed, shaped, filled bodies
US 4,806,576 A
8. The display device according to claim 1, wherein a width ratio of the getter layer and the protecting layer is between 10:
9. The display device according to claim 1, wherein a thickness ratio of the getter layer and the protecting layer is between 10:
FIG. 5a is a cross-sectional view of the organic light-emitting device according to the first embodiment of the present invention taken along the line C-C of FIG. 4.
FIG. 5b is a cross-sectional view of an organic light-emitting device according to a second embodiment of the present invention, corresponding to FIG. 5a.
FIG. 5c is a cross-sectional view of an organic light-emitting device according to a third embodiment of the present invention, corresponding to FIG. 5a.
FIG. 5d is a cross-sectional view of an organic light-emitting device according to a fourth embodiment of the present invention, corresponding to FIG. 5a.
FIG. 3 is a cross-sectional view of the organic light-emitting device according to the first embodiment of the present invention taken along the line B-B of FIG. 2. The organic light-emitting device according to the first embodiment of the present invention comprises a pixel part 100a having an anode electrode, an organic light-emitting layer disposed on the anode electrode, and a cathode electrode disposed on the organic light-emitting layer. The anode electrode and the cathode electrode are connected with a data line 112 and a scan line 114 respectively, which are disposed on the outside of the pixel part 100a.
After the pixel part 100a, the data line 112 and the scan line 114 are formed on the substrate 100, they are isolated from the outside by the cap 120 attached to the substrate 100 using a sealant. A cap-attaching area 113 is defined as an outer region of the pixel part 100a, disposed on the substrate 100, to which the cap 120 is attached.
The cap 120 of the organic light-emitting device according to the first embodiment of the present invention comprises a first region 121 which is attached to the cap-attaching area 113 of the substrate 100 by a sealant; a second region 122 disposed on a plane different from a plane of the first region 121, the second region 122 corresponding to the pixel part 100a disposed on the substrate 100; and a connecting region 123 connecting the first region 121 with the second region 122.
FIG. 3 shows that the second region 122 corresponding to the pixel part 100a is composed of a plane member, but a shape of the cap 120 is not limited to the shape shown in FIG. 3. For example, the second region 122 may be composed of a plurality of plane parts having different heights from the pixel part 100a.
In the cap 120 of the organic light-emitting device according to the first embodiment of the present invention, a protecting layer 140 is disposed on a predetermined area of the getter layer 130 which is attached to an inner surface of the second region 122 corresponding to the pixel part 100a.
The protecting layer 140 prevents the getter layer 130 from contacting the cathode electrode disposed on the pixel part 100a. A detailed shape of the protecting layer 140 will be explained referring to FIG. 4.
In the present specification, a horizontal length L<sub>P </sub>of the protecting layer 140 and a horizontal length L<sub>G </sub>of the getter layer 130 are defined as “length.” Also, a vertical length W<sub>P </sub>of the protecting layer 140 and a vertical length W<sub>G </sub>of the getter layer 130 are defined as “width.”
In the first embodiment of the present invention, the length L<sub>P </sub>of the protecting layer 140 is the same as the length L<sub>G </sub>of the getter layer 130, and the width W<sub>P </sub>of the protecting layer 140 is shorter than the width W<sub>G </sub>of the getter layer 130. Therefore, as shown in FIG. 4, the protecting layer 140 does not cover predetermined areas P1 and P2 of the getter layer.
The width W<sub>P </sub>of the protecting layer 140 is determined to the extent that the absorbing function of the getter layer 130 is not affected. A width ratio W<sub>G</sub>:W<sub>P </sub>between the width W<sub>G </sub>of the getter layer 130 and the width W<sub>P </sub>of the protecting layer 140 can be in the range between 10:1 and 2:1. The detailed reason for this range will be explained below.
If the width ratio W<sub>G</sub>:W<sub>P </sub>is more than 10:1, the area of the protecting layer 140 is too small to effectively prevent the getter layer 130 from contacting the pixel part 100a.
Also, if the width ratio W<sub>G</sub>:W<sub>P </sub>is less than 2:1, the area of the protecting layer 140 is too large to effectively absorb moisture because the protecting layer 140 covers almost the whole area of the getter layer 130. However, even in this width ration, if the protecting layer 140 is thin enough, the getter layer 130 can effectively absorb moisture through the protecting layer 140. If the protecting layer 140 is made from a water-permeable material, the getter layer 130 can also effectively absorb the moisture through the protecting layer 140.
However, even though the second region 122 of the cap 120 is pressed or sagged, the getter layer 130 does not contact the cathode electrode of the pixel part 100a because of the protecting layer 140 attached to the surface of the getter layer 130.
The protecting layer 140 can be made from epoxy base material having an electrical insulation characteristic and a water permeability characteristic, or made from polyimide for the function of the protecting layer 140 explained above, such as preventing the getter layer 130 from contacting the cathode electrode disposed in the pixel part 100a, preventing the cathode electrodes from being shorted, and maintaining the moisture absorption function of the getter layer 130.
FIG. 5b is a cross-sectional view of an organic light-emitting device according to a second embodiment of the present invention, corresponding to FIG. 5a. As explained above, in case a protecting layer 240 composed of a water-permeable material comprises at least one aperture 241 passing through the protecting layer 240, the water absorption function of the getter layer 130 is advanced because moisture can be transmitted to the getter layer 130 directly through the aperture 241.
The area and the thickness of the protecting layer 140 or 240 can be variously determined according to the size of the organic light-emitting device. The thickness of the protecting layer 140 or 240 can be determined to the extent that a predetermined distance between the getter layer 130 and pixel part 100a (or the cathode electrode) maintains. Also, the area of the protecting layer 140 or 240 can be determined to the extent that the water/oxygen absorption function of the getter layer 130 is not affected.
As shown in FIG. 3, the deflected displacement is the largest value in the center area of the second region 122. Therefore, in case the excessive external force is exerted on the second region 122, the protecting layer corresponding to the center area of the second region 122 presses the pixel part 100a with the excessive pressure, whereby the elements of the pixel parts 100a may be damaged by the protecting layer.
In order to prevent the protecting layer 340 from excessively pressing the pixel part 100a, a thickness of the protecting layer 340 can be determined to increase in a direction from the center area of the protecting layer 340 to edges of the protecting layer 340.
In case the center area of the second region 122 of the cap 120 excessively is pressed toward the pixel part 100a, the protecting layer 340 does not contact the pixel part 100a. Therefore, the element of the pixel part 100a is not damaged by the pressed protecting layer.
FIG. 5d is a cross-sectional view of an organic light-emitting device according to a fourth embodiment of the present invention, corresponding to FIG. 5a. A protecting layer 340a shown in FIG. 5d is attached to the getter layer 130 in the manner that a center area of the protecting layer 340a does not correspond to a center area Ca of the second region 122 of the cap 120. Also, the thickness of the protecting layer 340a can be determined to increase in a direction from the center area Ca of the second region 122 to edges of the protecting layer 340a.
Therefore, only if the protecting layer 440 is disposed corresponding to the center area of the second region 122 of the cap 120, the getter layer 130 can be effectively prevented from contacting the cathode electrode of the pixel part 100a. If this requirement is met, the location of the edge of the protecting layer 440 is not limited.
To minimize the area of the protecting layer 440 can prevent the water absorption function of the getter layer 130 from being deteriorated. Therefore, the water absorption function of the getter layer 130 can be maximized by minimizing the area of the protecting layer 440 to prevent the getter layer 130 from contacting the cathode electrode of the pixel part 100a.
Although the protecting layer 140, 240, 340, 340a or 440 is explained as one continuous layer, the constitution of the protecting layer is not limited thereto. For example, a multi-layer constitution and/or multi-material constitution can be used as the protecting layer.
<tables id="TABLE-US-00001" num="00001"><table frame="none" colsep="0" rowsep="0" pgwide="1"><tgroup align="left" colsep="0" rowsep="0" cols="5"><colspec colname="offset" colwidth="42pt" align="left"/><colspec colname="1" colwidth="63pt" align="center"/><colspec colname="2" colwidth="63pt" align="center"/><colspec colname="3" colwidth="56pt" align="center"/><colspec colname="4" colwidth="56pt" align="left"/><thead><row><entry/><entry namest="offset" nameend="4" rowsep="1">TABLE 1</entry></row><row><entry/><entry namest="offset" nameend="4" align="center" rowsep="1"/></row><row><entry/><entry/><entry/><entry/><entry>Thickness of</entry></row><row><entry/><entry/><entry/><entry>Size of Protecting</entry><entry>Cap:Thickness of</entry></row><row><entry/><entry>Size of Metal Cap</entry><entry>Size of Getter Layer</entry><entry>Layer</entry><entry>Protecting Layer</entry></row><row><entry/><entry namest="offset" nameend="4" align="center" rowsep="1"/></row></thead><tbody valign="top"><row><entry/></row></tbody></tgroup><tgroup align="left" colsep="0" rowsep="0" cols="5"><colspec colname="1" colwidth="42pt" align="left"/><colspec colname="2" colwidth="63pt" align="center"/><colspec colname="3" colwidth="63pt" align="center"/><colspec colname="4" colwidth="56pt" align="center"/><colspec colname="5" colwidth="56pt" align="left"/><tbody valign="top"><row><entry>Comparative</entry><entry>44 mm × 32.75 mm</entry><entry>9 mm × 17 mm</entry><entry>none</entry><entry>10 μm:—</entry></row><row><entry>Example</entry></row><row><entry>Experimental</entry><entry>44 mm × 32.75 mm</entry><entry>9 mm × 17 mm</entry><entry>4.5 mm × 17 mm</entry><entry>10 μm:1.0 μm</entry></row><row><entry>Example 1</entry></row><row><entry>Experimental</entry><entry>44 mm × 32.75 mm</entry><entry>8 mm × 14 mm</entry><entry>4.0 mm × 17 mm</entry><entry>10 μm:1.0 μm</entry></row><row><entry>Example 2</entry></row><row><entry namest="1" nameend="5" align="center" rowsep="1"/></row></tbody></tgroup></table></tables>
<tables id="TABLE-US-00002" num="00002"><table frame="none" colsep="0" rowsep="0"><tgroup align="left" colsep="0" rowsep="0" cols="2"><colspec colname="offset" colwidth="63pt" align="left"/><colspec colname="1" colwidth="154pt" align="center"/><thead><row><entry/><entry namest="offset" nameend="1" rowsep="1">TABLE 2</entry></row></thead><tbody valign="top"><row><entry/><entry namest="offset" nameend="1" align="center" rowsep="1"/></row><row><entry/><entry>Force (unit: kg)</entry></row></tbody></tgroup><tgroup align="left" colsep="0" rowsep="0" cols="5"><colspec colname="offset" colwidth="63pt" align="left"/><colspec colname="1" colwidth="14pt" align="center"/><colspec colname="2" colwidth="42pt" align="center"/><colspec colname="3" colwidth="42pt" align="center"/><colspec colname="4" colwidth="56pt" align="center"/><tbody valign="top"><row><entry/><entry>5</entry><entry>10</entry><entry>15</entry><entry>20</entry></row><row><entry/><entry namest="offset" nameend="4" align="center" rowsep="1"/></row></tbody></tgroup><tgroup align="left" colsep="0" rowsep="0" cols="6"><colspec colname="1" colwidth="42pt" align="left"/><colspec colname="2" colwidth="21pt" align="center"/><colspec colname="3" colwidth="14pt" align="center"/><colspec colname="4" colwidth="42pt" align="center"/><colspec colname="5" colwidth="42pt" align="center"/><colspec colname="6" colwidth="56pt" align="center"/><tbody valign="top"><row><entry>Comparative</entry><entry>1</entry><entry>x</entry><entry>Line Defect</entry><entry>Line Defect</entry><entry>*</entry></row><row><entry>Example</entry><entry>2</entry><entry>X</entry><entry>Line Defect</entry><entry>Line Defect</entry><entry>*</entry></row><row><entry/><entry>3</entry><entry>x</entry><entry>Line Defect</entry><entry>*</entry><entry>*</entry></row><row><entry/><entry>4</entry><entry>x</entry><entry>x</entry><entry>*</entry><entry>*</entry></row><row><entry/><entry>5</entry><entry>x</entry><entry>x</entry><entry>*</entry><entry>*</entry></row><row><entry>Experimental</entry><entry>1</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>Line Defect</entry></row><row><entry>Example 1</entry><entry>2</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>x</entry></row><row><entry/><entry>3</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>x</entry></row><row><entry/><entry>4</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>x</entry></row><row><entry/><entry>5</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>x</entry></row><row><entry/><entry>6</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>x</entry></row><row><entry>Experimental</entry><entry>1</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>x</entry></row><row><entry>Example 2</entry><entry>2</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>Line Defect</entry></row><row><entry/><entry>3</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>x</entry></row><row><entry/><entry>4</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>x</entry></row><row><entry/><entry>5</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>x</entry></row><row><entry/><entry>6</entry><entry>x</entry><entry>x</entry><entry>x</entry><entry>x</entry></row><row><entry namest="1" nameend="6" align="center" rowsep="1"/></row><row><entry namest="1" nameend="6" align="left" id="FOO-00001">*: Samples #1 and #2 for the comparative example were evaluated as being in “Line Defect” status for the force 15 kg, and thus the experiments of the remaining samples were omitted for the force 15 kg and 20 kg.</entry></row><row><entry namest="1" nameend="6" align="left" id="FOO-00002">x: “x” means that the sample emitted normally without “Line Defect.”</entry></row></tbody></tgroup></table></tables>
FIG. 7a is a graph showing the average moisture absorption velocities of six samples for the experimental example 1 and the average moisture absorption velocities of five samples for the comparative example under the temperature of 20° C. and the moisture condition of 60%. A dotted line means the standard moisture absorption velocity for a standard sample.
FIG. 7b is a graph showing the average moisture absorption velocities of six samples for the experimental example 2 and the average moisture absorption velocities of five samples for the comparative example under the temperature of 25° C. and the moisture condition of 60%. A dotted line means a standard moisture absorption velocity for a standard sample.
In FIGS. 7a and 7b, the moisture absorption velocities of the samples for the experimental examples 1 and 2 were lower than those of the samples for the comparative example.
FIG. 8a is a graph showing the accumulated moisture absorption amount of six samples for the experimental example 1 and the accumulated moisture absorption amount of five samples for the comparative example under the severe condition, the temperature of 32° C. and the moisture condition of 83%, and shows the change of the accumulated moisture absorption amount in time domain.
FIG. 8b is a graph showing the accumulated moisture absorption amount of six samples for the experimental example 2 and the accumulated moisture absorption amount of five samples for the comparative example under the temperature of 32° C. and the moisture condition of 83%.
As shown in FIGS. 8a and 8b, compared with the samples for the comparative example, the accumulated moisture absorption amounts of the samples for the experimental examples 1 and 2 were lower than those of the samples for the comparative example in the beginning. However, after about 450 minutes, there was no big difference between the samples for the comparative example and the experimental examples 1 and 2. This means that although the protecting layer was attached to the getter layer, the getter layer normally performed the moisture absorption function.
<tables id="TABLE-US-00003" num="00003"><table frame="none" colsep="0" rowsep="0"><tgroup align="left" colsep="0" rowsep="0" cols="3"><colspec colname="1" colwidth="49pt" align="center"/><colspec colname="2" colwidth="77pt" align="center"/><colspec colname="3" colwidth="91pt" align="center"/><thead><row><entry namest="1" nameend="3" rowsep="1">TABLE 3</entry></row><row><entry namest="1" nameend="3" align="center" rowsep="1"/></row><row><entry/><entry>Thickness percentage of</entry><entry>Width percentage of</entry></row><row><entry>Sample</entry><entry>the protecting layer</entry><entry>the protecting layer</entry></row><row><entry>no.</entry><entry>over the getter layer (%)</entry><entry>over the getter layer (%)</entry></row><row><entry namest="1" nameend="3" align="center" rowsep="1"/></row></thead><tbody valign="top"><row><entry/></row></tbody></tgroup><tgroup align="left" colsep="0" rowsep="0" cols="3"><colspec colname="1" colwidth="49pt" align="char" char="."/><colspec colname="2" colwidth="77pt" align="center"/><colspec colname="3" colwidth="91pt" align="center"/><tbody valign="top"><row><entry>1</entry><entry>No protecting layer</entry><entry>No protecting layer</entry></row><row><entry>2</entry><entry>10</entry><entry>100</entry></row><row><entry>3</entry><entry>10</entry><entry>50</entry></row><row><entry>4</entry><entry>15</entry><entry>100</entry></row><row><entry>5</entry><entry>15</entry><entry>50</entry></row><row><entry>6</entry><entry>20</entry><entry>100</entry></row><row><entry>7</entry><entry>20</entry><entry>50</entry></row><row><entry>8</entry><entry>30</entry><entry>100</entry></row><row><entry>9</entry><entry>30</entry><entry>50</entry></row><row><entry>10</entry><entry>50</entry><entry>100</entry></row><row><entry>11</entry><entry>50</entry><entry>50</entry></row><row><entry namest="1" nameend="3" align="center" rowsep="1"/></row></tbody></tgroup></table></tables>
<tables id="TABLE-US-00004" num="00004"><table frame="none" colsep="0" rowsep="0" pgwide="1"><tgroup align="left" colsep="0" rowsep="0" cols="13"><colspec colname="1" colwidth="21pt" align="center"/><colspec colname="2" colwidth="35pt" align="center"/><colspec colname="3" colwidth="35pt" align="center"/><colspec colname="4" colwidth="35pt" align="center"/><colspec colname="5" colwidth="35pt" align="center"/><colspec colname="6" colwidth="35pt" align="center"/><colspec colname="7" colwidth="35pt" align="center"/><colspec colname="8" colwidth="35pt" align="center"/><colspec colname="9" colwidth="35pt" align="center"/><colspec colname="10" colwidth="35pt" align="center"/><colspec colname="11" colwidth="35pt" align="center"/><colspec colname="12" colwidth="35pt" align="center"/><colspec colname="13" colwidth="35pt" align="center"/><thead><row><entry namest="1" nameend="13" rowsep="1">TABLE 4</entry></row><row><entry namest="1" nameend="13" align="center" rowsep="1"/></row><row><entry>Time</entry><entry/><entry/><entry/><entry/><entry/><entry/><entry/><entry/><entry/><entry/><entry/><entry/></row><row><entry>(min)</entry><entry>Standard</entry><entry>sample 1</entry><entry>sample 2</entry><entry>sample 3</entry><entry>sample 4</entry><entry>sample 5</entry><entry>sample 6</entry><entry>sample 7</entry><entry>sample 8</entry><entry>sample 9</entry><entry>sample 10</entry><entry>sample 11</entry></row><row><entry namest="1" nameend="13" align="center" rowsep="1"/></row></thead><tbody valign="top"><row><entry/></row></tbody></tgroup><tgroup align="left" colsep="0" rowsep="0" cols="13"><colspec colname="1" colwidth="21pt" align="char" char="."/><colspec colname="2" colwidth="35pt" align="char" char="."/><colspec colname="3" colwidth="35pt" align="char" char="."/><colspec colname="4" colwidth="35pt" align="char" char="."/><colspec colname="5" colwidth="35pt" align="char" char="."/><colspec colname="6" colwidth="35pt" align="char" char="."/><colspec colname="7" colwidth="35pt" align="char" char="."/><colspec colname="8" colwidth="35pt" align="char" char="."/><colspec colname="9" colwidth="35pt" align="char" char="."/><colspec colname="10" colwidth="35pt" align="char" char="."/><colspec colname="11" colwidth="35pt" align="char" char="."/><colspec colname="12" colwidth="35pt" align="char" char="."/><colspec colname="13" colwidth="35pt" align="char" char="."/><tbody valign="top"><row><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry></row><row><entry>10</entry><entry>1.16329</entry><entry>1.23</entry><entry>0.48612</entry><entry>0.88385</entry><entry>0.47154</entry><entry>0.85734</entry><entry>0.34028</entry><entry>0.6187</entry><entry>0.27709</entry><entry>0.5038</entry><entry>0.14584</entry><entry>0.26516</entry></row><row><entry>20</entry><entry>1.61129</entry><entry>1.7</entry><entry>0.69907</entry><entry>1.27103</entry><entry>0.67809</entry><entry>1.2329</entry><entry>0.48935</entry><entry>0.88972</entry><entry>0.39847</entry><entry>0.72449</entry><entry>0.20972</entry><entry>0.38131</entry></row><row><entry>30</entry><entry>1.94956</entry><entry>2.02588</entry><entry>0.83804</entry><entry>1.52371</entry><entry>0.8129</entry><entry>1.478</entry><entry>0.58663</entry><entry>1.0666</entry><entry>0.47768</entry><entry>0.86851</entry><entry>0.25141</entry><entry>0.45711</entry></row><row><entry>40</entry><entry>2.23181</entry><entry>2.32404</entry><entry>0.94788</entry><entry>1.72341</entry><entry>0.91944</entry><entry>1.67171</entry><entry>0.66351</entry><entry>1.20639</entry><entry>0.54029</entry><entry>0.98234</entry><entry>0.28436</entry><entry>0.51702</entry></row><row><entry>50</entry><entry>2.47859</entry><entry>2.63038</entry><entry>1.04875</entry><entry>1.90681</entry><entry>1.01728</entry><entry>1.8496</entry><entry>0.73412</entry><entry>1.33477</entry><entry>0.59778</entry><entry>1.08688</entry><entry>0.31462</entry><entry>0.57204</entry></row><row><entry>60</entry><entry>2.70035</entry><entry>2.9122</entry><entry>1.13841</entry><entry>2.06983</entry><entry>1.10425</entry><entry>2.00774</entry><entry>0.79688</entry><entry>1.44888</entry><entry>0.64889</entry><entry>1.1798</entry><entry>0.34152</entry><entry>0.62095</entry></row><row><entry>70</entry><entry>2.90325</entry><entry>3.13276</entry><entry>1.23479</entry><entry>2.24508</entry><entry>1.19775</entry><entry>2.17773</entry><entry>0.86435</entry><entry>1.57155</entry><entry>0.70383</entry><entry>1.27969</entry><entry>0.37044</entry><entry>0.67352</entry></row><row><entry>80</entry><entry>3.0913</entry><entry>3.34107</entry><entry>1.31325</entry><entry>2.38772</entry><entry>1.27385</entry><entry>2.31609</entry><entry>0.91927</entry><entry>1.6714</entry><entry>0.74855</entry><entry>1.361</entry><entry>0.39397</entry><entry>0.71632</entry></row><row><entry>90</entry><entry>3.26725</entry><entry>3.56979</entry><entry>1.40067</entry><entry>2.54667</entry><entry>1.35865</entry><entry>2.47027</entry><entry>0.98047</entry><entry>1.78267</entry><entry>0.79838</entry><entry>1.4516</entry><entry>0.4202</entry><entry>0.764</entry></row><row><entry>100</entry><entry>3.43312</entry><entry>3.71683</entry><entry>1.46791</entry><entry>2.66893</entry><entry>1.42388</entry><entry>2.58886</entry><entry>1.02754</entry><entry>1.86825</entry><entry>0.83671</entry><entry>1.52129</entry><entry>0.44037</entry><entry>0.80068</entry></row><row><entry>110</entry><entry>3.59041</entry><entry>3.9088</entry><entry>1.5374</entry><entry>2.79527</entry><entry>1.49128</entry><entry>2.71141</entry><entry>1.07618</entry><entry>1.95669</entry><entry>0.87632</entry><entry>1.59331</entry><entry>0.46122</entry><entry>0.83858</entry></row><row><entry>120</entry><entry>3.74028</entry><entry>4.05176</entry><entry>1.59568</entry><entry>2.90124</entry><entry>1.54781</entry><entry>2.8142</entry><entry>1.11698</entry><entry>2.03087</entry><entry>0.90954</entry><entry>1.6537</entry><entry>0.4787</entry><entry>0.87037</entry></row><row><entry>130</entry><entry>3.88367</entry><entry>4.21514</entry><entry>1.66517</entry><entry>3.02758</entry><entry>1.61521</entry><entry>2.93675</entry><entry>1.16562</entry><entry>2.1193</entry><entry>0.94915</entry><entry>1.72572</entry><entry>0.49955</entry><entry>0.90827</entry></row><row><entry>140</entry><entry>4.02132</entry><entry>4.37443</entry><entry>1.73241</entry><entry>3.14984</entry><entry>1.68044</entry><entry>3.05535</entry><entry>1.21269</entry><entry>2.20489</entry><entry>0.98748</entry><entry>1.79541</entry><entry>0.51972</entry><entry>0.94495</entry></row><row><entry>150</entry><entry>4.15386</entry><entry>4.52147</entry><entry>1.79966</entry><entry>3.27211</entry><entry>1.74567</entry><entry>3.17395</entry><entry>1.25976</entry><entry>2.29048</entry><entry>1.02581</entry><entry>1.8651</entry><entry>0.5399</entry><entry>0.98163</entry></row><row><entry>160</entry><entry>4.28179</entry><entry>4.68893</entry><entry>1.86691</entry><entry>3.39437</entry><entry>1.8109</entry><entry>3.29254</entry><entry>1.30683</entry><entry>2.37606</entry><entry>1.06414</entry><entry>1.93479</entry><entry>0.56007</entry><entry>1.01831</entry></row><row><entry>170</entry><entry>4.40555</entry><entry>4.79921</entry><entry>1.92294</entry><entry>3.49626</entry><entry>1.86526</entry><entry>3.39137</entry><entry>1.34606</entry><entry>2.44738</entry><entry>1.09608</entry><entry>1.99287</entry><entry>0.57688</entry><entry>1.04888</entry></row><row><entry>180</entry><entry>4.5255</entry><entry>4.9585</entry><entry>1.9745</entry><entry>3.59</entry><entry>1.91526</entry><entry>3.4823</entry><entry>1.38215</entry><entry>2.513</entry><entry>1.12546</entry><entry>2.0463</entry><entry>0.59235</entry><entry>1.077</entry></row><row><entry namest="1" nameend="13" align="center" rowsep="1"/></row></tbody></tgroup></table></tables>
<tables id="TABLE-US-00005" num="00005"><table frame="none" colsep="0" rowsep="0" pgwide="1"><tgroup align="left" colsep="0" rowsep="0" cols="12"><colspec colname="1" colwidth="21pt" align="center"/><colspec colname="2" colwidth="35pt" align="center"/><colspec colname="3" colwidth="35pt" align="center"/><colspec colname="4" colwidth="35pt" align="center"/><colspec colname="5" colwidth="35pt" align="center"/><colspec colname="6" colwidth="35pt" align="center"/><colspec colname="7" colwidth="35pt" align="center"/><colspec colname="8" colwidth="35pt" align="center"/><colspec colname="9" colwidth="35pt" align="center"/><colspec colname="10" colwidth="35pt" align="center"/><colspec colname="11" colwidth="35pt" align="center"/><colspec colname="12" colwidth="35pt" align="center"/><thead><row><entry namest="1" nameend="12" rowsep="1">TABLE 5</entry></row><row><entry namest="1" nameend="12" align="center" rowsep="1"/></row><row><entry>Time</entry><entry/><entry/><entry/><entry/><entry/><entry/><entry/><entry/><entry/><entry/><entry/></row><row><entry>(min)</entry><entry>Standard</entry><entry>sample 1</entry><entry>sample 2</entry><entry>sample 3</entry><entry>sample 4</entry><entry>sample 5</entry><entry>sample 6</entry><entry>sample 7</entry><entry>sample 8</entry><entry>sample 9</entry><entry>sample 10</entry></row><row><entry namest="1" nameend="12" align="center" rowsep="1"/></row></thead><tbody valign="top"><row><entry/></row></tbody></tgroup><tgroup align="left" colsep="0" rowsep="0" cols="12"><colspec colname="1" colwidth="21pt" align="char" char="."/><colspec colname="2" colwidth="35pt" align="char" char="."/><colspec colname="3" colwidth="35pt" align="char" char="."/><colspec colname="4" colwidth="35pt" align="char" char="."/><colspec colname="5" colwidth="35pt" align="char" char="."/><colspec colname="6" colwidth="35pt" align="char" char="."/><colspec colname="7" colwidth="35pt" align="char" char="."/><colspec colname="8" colwidth="35pt" align="char" char="."/><colspec colname="9" colwidth="35pt" align="char" char="."/><colspec colname="10" colwidth="35pt" align="char" char="."/><colspec colname="11" colwidth="35pt" align="char" char="."/><colspec colname="12" colwidth="35pt" align="char" char="."/><tbody valign="top"><row><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry><entry>0</entry></row><row><entry>10</entry><entry>1.16329</entry><entry>0.2572</entry><entry>0.2572</entry><entry>0.3</entry><entry>0.8143</entry><entry>0.7995</entry><entry>0.85734</entry><entry>1.0586</entry><entry>1.0586</entry><entry>1.10513</entry><entry>1.10513</entry></row><row><entry>20</entry><entry>1.61129</entry><entry>0.36987</entry><entry>0.36987</entry><entry>0.39</entry><entry>1.1279</entry><entry>1.105</entry><entry>1.2329</entry><entry>1.46627</entry><entry>1.46627</entry><entry>1.53072</entry><entry>1.53072</entry></row><row><entry>30</entry><entry>1.94956</entry><entry>0.4434</entry><entry>0.4434</entry><entry>0.55</entry><entry>1.36469</entry><entry>1.3168</entry><entry>1.478</entry><entry>1.7741</entry><entry>1.7741</entry><entry>1.85208</entry><entry>1.85208</entry></row><row><entry>40</entry><entry>2.23181</entry><entry>0.50151</entry><entry>0.50151</entry><entry>0.75227</entry><entry>1.56227</entry><entry>1.5106</entry><entry>1.67171</entry><entry>2.03095</entry><entry>2.03095</entry><entry>2.12022</entry><entry>2.12022</entry></row><row><entry>50</entry><entry>2.47859</entry><entry>0.55488</entry><entry>0.55488</entry><entry>0.83232</entry><entry>1.73501</entry><entry>1.7097</entry><entry>1.8496</entry><entry>2.25552</entry><entry>2.25552</entry><entry>2.25552</entry><entry>2.35466</entry></row><row><entry>60</entry><entry>2.70035</entry><entry>0.60232</entry><entry>0.69267</entry><entry>0.92</entry><entry>1.89024</entry><entry>1.8929</entry><entry>2.10774</entry><entry>2.45732</entry><entry>2.45732</entry><entry>2.45732</entry><entry>2.56533</entry></row><row><entry>70</entry><entry>2.90325</entry><entry>0.65332</entry><entry>0.75132</entry><entry>0.98</entry><entry>2.03228</entry><entry>2.0363</entry><entry>2.27773</entry><entry>2.64196</entry><entry>2.64196</entry><entry>2.64196</entry><entry>2.75809</entry></row><row><entry>80</entry><entry>3.0913</entry><entry>0.69483</entry><entry>0.79905</entry><entry>1.07</entry><entry>2.16391</entry><entry>2.1717</entry><entry>2.41609</entry><entry>2.81308</entry><entry>2.81308</entry><entry>2.81308</entry><entry>2.93674</entry></row><row><entry>90</entry><entry>3.26725</entry><entry>0.74108</entry><entry>0.85224</entry><entry>1.11162</entry><entry>2.28708</entry><entry>2.3204</entry><entry>2.57027</entry><entry>2.9732</entry><entry>2.9732</entry><entry>2.9732</entry><entry>3.10389</entry></row><row><entry>100</entry><entry>3.43312</entry><entry>0.77666</entry><entry>0.89316</entry><entry>1.16499</entry><entry>2.40318</entry><entry>2.4159</entry><entry>2.68886</entry><entry>3.12414</entry><entry>3.12414</entry><entry>3.12414</entry><entry>3.26146</entry></row><row><entry>110</entry><entry>3.59041</entry><entry>0.81342</entry><entry>0.93544</entry><entry>1.22014</entry><entry>2.51328</entry><entry>2.5407</entry><entry>2.81141</entry><entry>3.26727</entry><entry>3.26727</entry><entry>3.26727</entry><entry>3.41089</entry></row><row><entry>120</entry><entry>3.74028</entry><entry>0.84426</entry><entry>0.9709</entry><entry>1.27</entry><entry>2.6182</entry><entry>2.6336</entry><entry>3.0142</entry><entry>3.40365</entry><entry>3.40365</entry><entry>3.40365</entry><entry>3.55327</entry></row><row><entry>130</entry><entry>3.88367</entry><entry>0.88103</entry><entry>1.01318</entry><entry>1.32154</entry><entry>2.71857</entry><entry>2.7398</entry><entry>3.19675</entry><entry>3.53414</entry><entry>3.53414</entry><entry>3.53414</entry><entry>3.68949</entry></row><row><entry>140</entry><entry>4.02132</entry><entry>0.9166</entry><entry>1.0541</entry><entry>1.365</entry><entry>2.81493</entry><entry>2.8434</entry><entry>3.25535</entry><entry>3.65941</entry><entry>3.65941</entry><entry>3.65941</entry><entry>3.82026</entry></row><row><entry>150</entry><entry>4.15386</entry><entry>0.95218</entry><entry>1.09501</entry><entry>1.44</entry><entry>2.9077</entry><entry>2.939</entry><entry>3.32395</entry><entry>3.78001</entry><entry>3.78001</entry><entry>3.78001</entry><entry>3.94617</entry></row><row><entry>160</entry><entry>4.28179</entry><entry>0.98776</entry><entry>1.13593</entry><entry>1.48164</entry><entry>2.99725</entry><entry>3.0478</entry><entry>3.45254</entry><entry>3.89643</entry><entry>3.89643</entry><entry>3.89643</entry><entry>4.0677</entry></row><row><entry>170</entry><entry>4.40555</entry><entry>1.01741</entry><entry>1.17002</entry><entry>1.52612</entry><entry>3.08388</entry><entry>3.1195</entry><entry>3.55614</entry><entry>4.00905</entry><entry>4.00905</entry><entry>4.00905</entry><entry>4.18527</entry></row><row><entry>180</entry><entry>4.5255</entry><entry>1.04469</entry><entry>1.20139</entry><entry>1.56703</entry><entry>3.16785</entry><entry>3.223</entry><entry>3.7523</entry><entry>4.11821</entry><entry>4.11821</entry><entry>4.11821</entry><entry>4.29923</entry></row><row><entry namest="1" nameend="12" align="center" rowsep="1"/></row></tbody></tgroup></table></tables>
<tables id="TABLE-US-00006" num="00006"><table frame="none" colsep="0" rowsep="0"><tgroup align="left" colsep="0" rowsep="0" cols="3"><colspec colname="1" colwidth="63pt" align="center"/><colspec colname="2" colwidth="77pt" align="center"/><colspec colname="3" colwidth="77pt" align="center"/><thead><row><entry namest="1" nameend="3" rowsep="1">TABLE 6</entry></row><row><entry namest="1" nameend="3" align="center" rowsep="1"/></row><row><entry/><entry>Thickness percentage</entry><entry>Width percentage of</entry></row><row><entry>Sample</entry><entry>of the protecting layer</entry><entry>the protecting layer</entry></row><row><entry>no.</entry><entry>over the getter layer (%)</entry><entry>over the getter layer (%)</entry></row><row><entry namest="1" nameend="3" align="center" rowsep="1"/></row></thead><tbody valign="top"><row><entry>Standard sample</entry><entry>No protecting layer</entry><entry>No protecting layer</entry></row><row><entry>1</entry><entry>15</entry><entry>100</entry></row><row><entry>2</entry><entry>15</entry><entry>90</entry></row><row><entry>3</entry><entry>15</entry><entry>80</entry></row><row><entry>4</entry><entry>15</entry><entry>70</entry></row><row><entry>5</entry><entry>15</entry><entry>60</entry></row><row><entry>6</entry><entry>15</entry><entry>50</entry></row><row><entry>7</entry><entry>15</entry><entry>40</entry></row><row><entry>8</entry><entry>15</entry><entry>30</entry></row><row><entry>9</entry><entry>15</entry><entry>20</entry></row><row><entry>10 </entry><entry>15</entry><entry>10</entry></row><row><entry namest="1" nameend="3" align="center" rowsep="1"/></row></tbody></tgroup></table></tables>
Lim, Kwang Su, Lee, Jung Hwan
US 8,319,423 B2
H01L51/5259 : including getter material o...
Display Device With Protecting Layer For Getter Layer