摘要:
A Plasma Display Panel (PDP) includes a dielectric layer having a plurality of dielectric-layer perforated holes arranged in a matrix; upper and lower electrode layers each having electrode-layer perforated holes connected to the dielectric-layer perforated holes and arranged on both surfaces of the dielectric layer, the upper and lower electrode layers being adapted to receive electrical signals. The upper electrode layer includes a plurality of upper electrodes extending in a first direction, each of the plurality of upper electrodes surrounding a group of the electrode-layer perforated holes arranged in the first direction and including transparent individual electrodes surrounding the electrode-layer perforated holes and linear connection portions adapted to electrically connect the individual electrodes. The lower electrode layer includes a plurality of lower electrodes extending in a second direction at an angle with respect to the first direction, each of the plurality of second electrodes surrounding a group of electrode-layer perforated holes arranged in the second direction.
摘要:
A Plasma Display Panel (PDP) includes a dielectric layer having a plurality of dielectric-layer perforated holes arranged in a matrix; upper and lower electrode layers each having electrode-layer perforated holes connected to the dielectric-layer perforated holes and arranged on both surfaces of the dielectric layer, the upper and lower electrode layers being adapted to receive electrical signals. The upper electrode layer includes a plurality of upper electrodes extending in a first direction, each of the plurality of upper electrodes surrounding a group of the electrode-layer perforated holes arranged in the first direction and including transparent individual electrodes surrounding the electrode-layer perforated holes and linear connection portions adapted to electrically connect the individual electrodes. The lower electrode layer includes a plurality of lower electrodes extending in a second direction at an angle with respect to the first direction, each of the plurality of second electrodes surrounding a group of electrode-layer perforated holes arranged in the second direction.
摘要:
A plasma display device includes: a dielectric layer on which a plurality of through-holes of a dielectric layer is disposed in a matrix shape; upper and lower electrode layers formed at both upper and lower surfaces of the dielectric layer; upper and lower substrates disposed on the outer surface of the upper and lower electrode layers; and a third electrode layer having a plurality of third electrodes which are formed between the upper substrate and the upper electrode layer, or the lower substrate and the lower electrode layer, and are insulated from the upper and lower electrode layers. Accordingly, a plasma display device can be realized which has stability and efficiency of a micro discharge. In addition, each pixel can concurrently carry out a sustain discharge by applying an alternating voltage to upper and lower electrodes forming sustain electrodes.
摘要:
A plasma display panel has two address electrodes assigned to a pixel to reduce power consumption without degrading resolution and has as large a gap as possible between bus electrodes inside a discharge cell to improve discharge efficiency and luminance. Three closest discharge cells emitting different colors of visible rays define a pixel. Two address electrodes are assigned to each pixel. Two display electrodes are assigned to the respective discharge cells of each pixel, the direction of the display electrodes intersecting with the the direction of the address electrodes. The display electrodes are bent towards a periphery of each discharge cell to increase the gap between the display electrodes inside the discharge cell.
摘要:
A Plasma Display Panel (PDP) has a structure in which three discharge cells are adjacent one another and are arranged in a triangular form, thereby forming one pixel. In pixels arranged in a first direction, an average of 1.5 address electrodes are assigned which belong to the group of electrodes and have a specific angle in the first direction with respect to a surface parallel to the substrates, and at least four sustain electrodes pass through each pixel. Accordingly, the number of address electrodes for implementing a screen having the same horizontal resolution and the number of driving circuit chips required to drive the address electrodes can be reduced, thereby reducing overall power consumption and heat release rate.
摘要:
A plasma display panel having a reduced number of address electrodes to decrease power consumption while maintaining the same resolution is disclosed. First and second address electrodes are assigned to a pixel comprising three sub-pixels which are near one another. The first address electrode is assigned to two of the three sub-pixels and the second address electrode is assigned to the remaining sub-pixel. As a result, address electrode capacitance is reduced, and accordingly, cross-talk, power consumption, instantaneous power, and heat generation decrease significantly while maintaining the same display resolution.
摘要:
A plasma display panel having a reduced number of address electrodes to decrease power consumption while maintaining the same resolution is disclosed. First and second address electrodes are assigned to a pixel comprising three sub-pixels which are near one another. The first address electrode is assigned to two of the three sub-pixels and the second address electrode is assigned to the remaining sub-pixel. As a result, address electrode capacitance is reduced, and accordingly, cross-talk, power consumption, instantaneous power, and heat generation decrease significantly while maintaining the same display resolution.
摘要:
A plasma display panel having two address electrodes assigned to each pixel to reduce power consumption without degrading resolution, the address electrodes having a large line width to improve address discharge efficiency. In one embodiment, three neighboring discharge cells for emitting different colors of visible rays define a pixel, two address electrodes are assigned to each pixel, and the address electrodes have a line width not less than a length of a side of a plurality of barriers defining the discharge cells. In the embodiment, the line width of the address electrodes may range from about 90 to about 150 μm.