This application claims the benefit of Korean Patent Application No. 10-2005-0070962, filed on Aug. 3, 2005, in the Korean Intellectual Property Office, the disclosure of which is incorporated herein in its entirety by reference.
1. Field of the Invention
The present embodiments relate to a plasma display panel (PDP) used for a plasma display device, and more particularly, to a PDP that improves both contrast and discharge efficiency by reducing residual images and reflection of external light.
2. Description of the Related Art
As shown in
The lower panel 2 includes a rear substrate 10, address electrodes 20, a rear dielectric layer 30, barrier ribs 40, and phosphor layers 50. The address electrodes 20 are disposed on a top surface of the rear substrate 10 and intersect the pairs of sustain discharge electrodes 84. The address electrodes 20 are covered with the rear dielectric layer 30. The barrier ribs 40 are disposed on the rear dielectric layer 30 and define discharge cells along with the pairs of sustain discharge electrodes 84. The phosphor layers 50 are coated on inner surfaces of the discharge cells.
For the above-described conventional PDP, a discharge cell is selected due to address discharge induced between the address electrode 20 and the Y-electrode 83. Then, sustain discharge arises between the X-electrode 82 and the Y-electrode 83 of the selected discharge cell, so that the discharge cell emits light. More specifically, as the sustain discharge happens, the discharge gas filled in the discharge cell emits ultraviolet rays, which lead the phosphor layers 50 to emit red, green, and blue visible rays, thus producing the image of the PDP.
In the conventional PDP having the above-described construction, external light is projected on a front surface of a display region of the PDP. Owing to this reflection of external light, the PDP has higher reflection brightness and a lower contrast.
Therefore, it has become increasingly necessary to cut off the reflection of external light in order to minimize an elevation in the reflection brightness of the PDP and improve the contrast thereof.
As shown in
When yellow, azure, and violet colors are mixed using the subtractive mixture of colors, a central portion in which all the three colors are mixed takes on a black color, and portions in which two of the three colors are mixed take on red, green, and blue colors, respectively. For example, when the red and azure colors, which are complementary to each other, are mixed, the mixed color lowers in both brightness and chroma. Therefore, by making use of complementary colors as described above, it is expected that there will be improvements in contrast and other problems.
The present embodiments provide a plasma display panel (PDP), which can minimize an elevation in reflection brightness caused by reflection of external light and improve both contrast and discharge efficiency.
According to an aspect of the present embodiments, there is provided a PDP including a front substrate transmitting visible rays; a rear substrate disposed substantially parallel to the front substrate; barrier ribs interposed between the front and rear substrates and defining a plurality of discharge cells along with the front and rear substrates, the barrier ribs formed of a dielectric material; two or more kinds of discharge electrodes disposed on at least one of the front substrate, the rear substrate, and the barrier ribs; a dielectric layer disposed on a rear surface of the front substrate; phosphor layers disposed in the discharge cells; and a discharge gas filled in the discharge cells. Any two members of the front substrate, the dielectric layer, and the barrier ribs are colored, and when colors that are put in to the two members are mixed using subtractive mixture of colors, the mixed color lowers in both brightness and chroma.
Also, the colors that are put into the two members may be complementary colors, which are mixed using subtractive mixture of colors so that the mixed color takes on a black color. In this case, the PDP can further improve contrast.
According to an aspect of the present embodiments, there is provided a PDP including a front substrate transmitting visible rays; a rear substrate disposed substantially parallel to the front substrate; barrier ribs interposed between the front and rear substrates and defining a plurality of discharge cells along with the front and rear substrates, the barrier ribs formed of a dielectric material; two or more kinds of discharge electrodes disposed on at least one of the front substrate, the rear substrate, and the barrier ribs; a dielectric layer disposed on a rear surface of the front substrate; phosphor layers disposed in the discharge cells; a discharge gas filled in the discharge cells; and a colored transparent thin layer attached to the front substrate. Any one member of the front substrate, the dielectric layer, and the barrier ribs can be colored, and when a color that is put into the one member is mixed with the color of the transparent thin layer using subtractive mixture of colors, the mixed color lowers in both brightness and chroma.
Herein, the thin layer may be attached to a front surface of the front substrate.
The barrier ribs may also be colored.
Also, the colors that are put in to the one colored member and the transparent thin layer may be complementary colors, which are mixed using subtractive mixture of colors so that the mixed color takes on a black color. In this case, the PDP can further improve contrast.
The above and other features and advantages of the present embodiments will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings in which:
A plasma display panel (PDP) according to the present embodiments will now be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments are shown. Hereinafter, the same reference numbers are used to denote the same elements as in the Background of the Invention.
Referring to
The front substrate 160 can be a transparent material, such as glass. Since the front substrate 160 is colored, it can be more absorbent of light than a transparent substrate so that a rise in the reflection brightness of the panel caused by external light can be lowered.
The thin layer 100 may be formed by printing slurry. Like the front substrate 160, the thin layer 100 can be colored, thus it can also be more absorbent of light than a transparent layer so that a rise in the reflection brightness of the panel caused by external light can be lowered. Although the thin layer 100 is preferably attached to the front surface of the front substrate 160 for simplicity in performing the process, the present embodiments are not limited thereto. For instance, the thin layer 100 may be attached to rear surfaces of the barrier ribs 40.
Also, when the colors that are put on to the front substrate 160 and/or the thin layer 100 are mixed, the mixture of the colors lowers in brightness and chroma. In particular, when the two colors are complementary to each other, the mixture of the colors is close to a black color. Therefore, the light absorptivity of the PDP is further elevated, thus more effectively lowering the reflection brightness of the panel affected by external light.
In one embodiment, the colors put on components of the PDP are not white or not whitish.
As is known, contrast decreases as the reflection brightness of a panel affected by external light increases. Accordingly, the PDP having the above-described construction can improve in contrast.
Referring to
Specifically, colors that are put in to the dielectric material and the barrier ribs are mixed using subtractive mixture of colors, the mixed color lowers brightness and chroma. Thus, the light absorptivity of the PDP increases, and the reflection of external light decreases. As a result, the panel shows a drop in reflection brightness and improves contrast. Like in the previous embodiment, an improvement in contrast can be maximized using complementary colors.
For example, barrier ribs of
In addition to the PDPs according to the foregoing two exemplary embodiments, four different examples of PDPs with improved contrast can be obtained as follows.
First, a front dielectric layer and a front substrate can be colored with colors, which are mixed using subtractive mixture of colors to make both brightness and chroma lower, thus improving contrast.
Second, when a front dielectric layer is colored and a colored thin layer is coated on a front surface of a front substrate, the front dielectric layer and the thin layer can be colored with colors, which are mixed using subtractive mixture of colors to make both brightness and chroma lower, thus improving contrast.
Third, a front substrate and barrier ribs can be colored with colors, which are mixed using subtractive mixture of colors to make both brightness and chroma lower, thus improving contrast.
Fourth, when a colored thin layer is coated on a front surface of a front substrate and colored barrier ribs are used, the thin layer and the barrier ribs are colored with colors, which are mixed using subtractive mixture of colors to make both brightness and chroma lower, thus improving contrast.
In the above-described four exemplary embodiments, when two elements are colored with complementary colors, an improvement in contrast can be maximized.
According to the present embodiments as explained thus far, whatever construction the PDP has, the contrast of the PDP can be enhanced through simple processes.
While the present embodiments have been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present embodiments as defined by the following claims.
Number | Date | Country | Kind |
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10-2005-0070962 | Aug 2005 | KR | national |
Number | Name | Date | Kind |
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6577062 | Itokawa et al. | Jun 2003 | B2 |
20070155609 | Choi | Jul 2007 | A1 |
Number | Date | Country | |
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20070029933 A1 | Feb 2007 | US |