摘要:
A mercury-heating device is provided. The device is disposed on a substrate of a planar light source. The heating device includes a patterned electrode and a container. The patterned electrode is formed on the substrate and coupled to an external power source. The container, which covers over the patterned electrode, is a dielectric layer formed on the substrate. The container is used for containing mercury alloy or liquid mercury.
摘要:
A mercury-heating device is provided. The device is disposed on a substrate of a planar light source. The heating device includes a patterned electrode and a container. The patterned electrode is formed on the substrate and coupled to an external power source. The container, which covers over the patterned electrode, is a dielectric layer formed on the substrate. The container is used for containing mercury alloy or liquid mercury.
摘要:
An alignment mark for a plasma display panel (PDP). The alignment mark comprises a first and a second alignment patterns installed on a front and a rear substrate respectively. The second alignment pattern on the non-display area is simultaneously formed with the rib barrier formation on the display area of the rear substrate, wherein the second alignment pattern is hexagonal-honeycomb. The first alignment pattern on the front substrate is simultaneously formed with the non-transparent material fabrication, such as a bus electrode or black matrix fabrication, and corresponds to a space within the second alignment pattern. The first alignment pattern comprises at least one line segment, parallel to at least one side of the hexagonal honeycomb pattern on the rear substrate with a predetermined distance therebetween.
摘要:
A plasma display panel. Front and rear plates are spaced by a rib structure that is disposed on the rear plate with Neon gas filled therebetween. The rib structure partitions off the rear plate into a plurality of first, second and third sub-pixels adjacent to each other, wherein both of the first and second sub-pixels are smaller than the third one. Red, green and blue phosphors are disposed in the first, second and third sub-pixels respectively, wherein adjacent first, second and third sub-pixels form a pixel.
摘要:
A flat panel display includes a front substrate, a rear substrate parallel to and spaced apart from the front substrate for forming a gap between the front and rear substrates. A display area is positioned on the surface of the rear substrate facing the front substrate. The flat panel display further includes a plurality of barrier ribs positioned on the display area of the rear substrate, a first channel rib positioned on at least two sides of the display area of the rear substrate, and a second channel rib spaced from the first channel rib by a predetermined distance. The first channel rib and the second channel rib form a sealing channel. A sealing frit fills the sealing channel to seal together the front substrate and the rear substrate.
摘要:
A protective device for a tube bonded on a plasma display panel (PDP). The PDP includes a plate which does not break when experiencing a first force, an air holo for passing air above and below the plate and in air communications with the tube, and doughnut-shaped base disposed around the air hole and the tube. The protective device includes a hollow shield with a first opening on a bottom end bonded to the doughnut-shaped base for containing the tube, and a binding compound for binding the hollow shield to the doughnut-shaped base. The hollow shield remains bonded to the doughnut-shaped base when experiencing a second force which is smaller than the first force. When the hollow shield experiences an external force greater than the second force, the hollow shield will separate from the doughnut shaped base without breaking the plate.
摘要:
A Plasma Display Panel (PDP) apparatus, system and method, includes a circuit framework structure, chassis structure, panel structure, TCP structure, at least one thermal pad structure and an insulating structure. An integrated circuit is coupled to at least one thermal pad structure and the TCP structure, and the circuit framework structure is disposed external to the TCP structure. Therefore, efficient dissipation of heat that is generated during operation of the PDP structures may be obtained. In addition, the amount of accumulated heat in the PDP structure may be significantly reduced due the PDP apparatus and structure configuration, thereby increasing the PDP operational life.
摘要:
An alignment mark for a plasma display panel (PDP). The alignment mark comprises a first and a second alignment patterns installed on a front and a rear substrate respectively. The second alignment pattern on the non-display area is simultaneously formed with the rib barrier formation on the display area of the rear substrate, wherein the second alignment pattern is hexagonal-honeycomb. The first alignment pattern on the front substrate is simultaneously formed with the non-transparent material fabrication, such as a bus electrode or black matrix fabrication, and corresponds to a space within the second alignment pattern. The first alignment pattern comprises at least one line segment, parallel to at least one side of the hexagonal honeycomb pattern on the rear substrate with a predetermined distance therebetween.
摘要:
A sealing structure and a plasma display panel employing the same. A front plate, a rear plate, and a sealing layer are all provided. Sealing strength and reliability of the sealing structure are improved by the intended position and geometric shape of the sealing layer located between the front plate and the rear plate, thereby raising plasma display panel yield.
摘要:
A plasma display panel (PDP) with a driving circuit one-sidedly and its manufacturing method is disclosed. The PDP includes a first substrate having a first edge, a second substrate spaced apart from the first substrate, a first electrode positioned on the first substrate along a first direction, a second electrode positioned on the second substrate along a second direction, a bonding electrode, and a conductive device. The second direction of the second electrode is substantially perpendicular to the first direction of the first electrode. The first substrate has a first length and the second substrate has a second length shorter than the first length. The bonding electrode is disposed on the first edge of the first substrate uncovered by the second substrate.