摘要:
A plasma display panel includes a first substrate and a second substrate provided opposing one another with a gap therebetween, barrier ribs formed in the gap to define a plurality of discharge cells, address electrodes formed along a first direction and intersecting areas corresponding to the discharge cells, display electrodes formed on the first substrate along a second direction substantially perpendicular to the first direction, and an external light absorbing layer covering the display electrodes.
摘要:
A plasma display panel may have an enhanced luminescence efficiency and a reduced discharge voltage under an opposed discharge scheme. The disclosed plasma display panel device includes a first substrate and a second substrate disposed apart from each other, the first substrate have a substantially planar surface facing away from the second substrate. The device further includes a plurality of address electrodes extending along a first direction and a plurality of partitioning walls located between the first and second substrates defining a plurality of discharge cells. The partitioning walls include a first partitioning wall and a second partitioning wall both extending generally along a second direction. The device further includes a phosphor layer formed on a surface of the plurality of discharge cells, a first electrode and a second electrode. The first electrode extends generally along the second direction and buried in the first partitioning wall, and is located at a first distance from the substantially planar surface. The second electrode extends generally along the second direction and buried in the second partitioning wall, and is located at a second distance from the substantially planar surface. The second distance is greater than the first distance.
摘要:
A plasma display panel including a first substrate and a second substrate, a plurality of address electrodes, a plurality of display electrodes, and a barrier rib. The address electrodes and the display electrodes are formed between the first and second substrates. The barrier rib is disposed in a space between the first and second substrates and defines a plurality of discharge cells. A gas exhaust passageway is formed between discharge cells neighboring each other along a diagonal direction. The passageways and the discharge cells cooperatively form a gas exhaust route that repeats breaking away by a predetermined pitch, and returning, thereby zigzagging along an elongation direction of the address electrode.
摘要:
A plasma display panel includes first and second substrates opposite each other, address electrodes on the first substrate in a first direction, barrier ribs between the first and second substrates to partition discharge cells, phosphor layers in the discharge cells, and first and second electrodes on the second substrate and extending in a second direction intersecting the first direction and alternately arranged in the first direction. Each of the first and second electrodes includes a bus electrode extending in the second direction, and an extension electrode that protrudes from the bus electrode in the first direction towards a corresponding discharge cell. Each bus electrode includes at least two bus electrode portions that are electrically connected to each other and that are separated from each other by a predetermined gap.
摘要:
A plasma display panel (PDP) having improved light emission efficiency by minimizing blockage of emitted visible light rays includes: a first substrate and a second substrate arranged opposite to each other; a plurality of barrier ribs arranged between the first and second substrates to define two sides of closed discharge cells; first electrodes and second electrodes arranged to extend in a direction intersecting the barrier ribs to define two other sides of the closed discharge cells and alternately arranged between the discharge cells defined consecutively; phosphor layers each arranged in the discharge cells partitioned by the barrier ribs and the first and second electrodes; address electrodes arranged on the second substrate; and third electrodes arranged on the first substrate to extend in a direction intersecting the address electrodes.
摘要:
A Plasma Display Panel (PDP) easily extends each electrode terminal to terminal blocks of a front substrate or a rear substrate in a 4-electrode structure and includes: a first substrate and a second substrate facing each other; a barrier rib disposed between the first substrate and the second substrate, and partitioning discharge cells; a phosphor layer arranged in the discharge cell; a first electrode and a second electrode extending in one direction, corresponding to each discharge cell between the first substrate and the second substrate; a third electrode extending parallel to the first electrode and the second electrode, corresponding to the space between the first electrode and the second electrode; and an address electrode extending in the direction intersecting the third electrode and maintaining a space therebetween. The first electrode and the second electrode are extended to a terminal block of the second substrate, the address electrode is extended to a terminal block of the first substrate, and the third electrode is extended to the other terminal block of the first substrate.
摘要:
A plasma display panel (PDP) having improved light emission efficiency by minimizing blockage of emitted visible light rays includes: a first substrate and a second substrate arranged opposite to each other; a plurality of barrier ribs arranged between the first and second substrates to define two sides of closed discharge cells; first electrodes and second electrodes arranged to extend in a direction intersecting the barrier ribs to define two other sides of the closed discharge cells and alternately arranged between the discharge cells defined consecutively; phosphor layers each arranged in the discharge cells partitioned by the barrier ribs and the first and second electrodes; address electrodes arranged on the second substrate; and third electrodes arranged on the first substrate to extend in a direction intersecting the address electrodes.
摘要:
A plasma display panel device including discharge electrodes with a non-straight edge line, which improves luminous efficiency. The plasma display panel device includes first and second substrates that are disposed to face each other, barrier ribs disposed between the first and second substrates so as to partition a plurality of discharge cells, and phosphor layers that are formed in the discharge cells. The device further includes address electrodes extending in a first direction, first and second electrodes extending in a second direction intersecting the first direction, and third (scan) electrodes, each of which is disposed between and at constant intervals from the first and second electrodes. At least one of the first, second and third electrodes has an edge line extending oblique to the first direction.
摘要:
A plasma display and driving method thereof. A median electrode is formed between X and Y electrodes for receiving sustain pulse voltages, and a reset waveform and a scan pulse voltage are applied to the median electrode. A short gap discharge is performed between the X electrode and the median electrode during the initial interval of a sustain interval, and a long gap discharge is performed between the X and Y electrodes during the normal sustain interval to thus perform a stable discharge. The X and Y electrode drivers are realized through comparable circuits since the waveforms applied to the X and Y electrodes are substantially symmetric.
摘要:
A plasma display and driving method thereof. A median electrode is formed between X and Y electrodes for receiving sustain pulse voltages, and a reset waveform and a scan pulse voltage are applied to the median electrode. A short gap discharge is performed between the X electrode and the median electrode during the initial interval of a sustain interval, and a long gap discharge is performed between the X and Y electrodes during the normal sustain interval to thus perform a stable discharge. The X and Y electrode drivers are realized through comparable circuits since the waveforms applied to the X and Y electrodes are substantially symmetric.