摘要:
A Plasma Display Panel (PDP) includes: a first substrate; a second substrate arranged parallel to the first substrate; and a plurality of discharge electrodes arranged within each discharge cell arranged between the first and second substrates. The first and second substrates are divided into a display region adapted to display an image, a connection region where the plurality of discharge electrodes are adapted to be electrically connected to an external terminal, and a buffer region arranged along edges of the connection region. The plurality of discharge electrodes continuously extend over the display region, the connection region, and the buffer region, and a cross-section of a portion of each of the plurality of discharge electrodes arranged in the buffer region is greater than that of a portion of each of the plurality of discharge electrodes arranged in the connection region.
摘要:
The present invention relates to an apparatus for generating hydrogen gas using a composition for generating hydrogen gas, which generates hydrogen gas (H2) from water (H2O) through spontaneous thermochemical reaction without supplying electricity using a composition for generating hydrogen gas which generates the hydrogen gas by spontaneous oxidation with water at room temperature.
摘要:
A photoelectric conversion module, for example, a dye-sensitized solar cell, for generating electrical energy from light is disclosed. In one aspect, the module includes a light-receiving substrate, a first functional layer formed on the light receiving substrate and a first bus electrode formed on at least two edge regions of the light receiving substrate. The photoelectric conversion module may have a counter substrate having a second functional layer formed thereon and a second bus electrode formed on at least two edges of the counter substrate an electrolyte layer disposed between the first functional layer and the second functional layer. A first connection line may be electrically connected to the second bus electrode and a second connection line may be electrically connected to the first bus electrode is disclosed. Further, the first bus electrode may be electrically connected to the first functional layer and the second functional layer may be electrically connected to the second bus electrode.
摘要:
A photoelectric conversion module, for example, a dye-sensitized solar cell, for generating electrical energy from light is disclosed. In one aspect, the module includes a light-receiving substrate, a first functional layer formed on the light receiving substrate and a first bus electrode formed on at least two edge regions of the light receiving substrate. The photoelectric conversion module may have a counter substrate having a second functional layer formed thereon and a second bus electrode formed on at least two edges of the counter substrate an electrolyte layer disposed between the first functional layer and the second functional layer. A first connection line may be electrically connected to the second bus electrode and a second connection line may be electrically connected to the first bus electrode is disclosed. Further, the first bus electrode may be electrically connected to the first functional layer and the second functional layer may be electrically connected to the second bus electrode.
摘要:
The present invention relates to an apparatus for generating hydrogen gas using a composition for generating hydrogen gas, which generates hydrogen gas (H2) from water (H2O) through spontaneous thermochemical reaction without supplying electricity using a composition for generating hydrogen gas which generates the hydrogen gas by spontaneous oxidation with water at room temperature.
摘要:
A Plasma Display Panel (PDP) includes: a first substrate; a second substrate arranged parallel to the first substrate; and a plurality of discharge electrodes arranged within each discharge cell arranged between the first and second substrates. The first and second substrates are divided into a display region adapted to display an image, a connection region where the plurality of discharge electrodes are adapted to be electrically connected to an external terminal, and a buffer region arranged along edges of the connection region. The plurality of discharge electrodes continuously extend over the display region, the connection region, and the buffer region, and a cross-section of a portion of each of the plurality of discharge electrodes arranged in the buffer region is greater than that of a portion of each of the plurality of discharge electrodes arranged in the connection region.
摘要:
A plasma display panel including: a first substrate and a second substrate facing each other; X electrodes and Y electrodes extending in a first direction between the first substrate and the second substrate; third electrodes extending in a second direction between the first substrate and the second substrate; barrier ribs arranged between the first substrate and the second substrate so as to define a plurality of discharge cells, wherein the barrier ribs comprise horizontal barrier ribs extending in the first direction; a first dielectric layer arranged on the first substrate so as to cover the X electrodes and the Y electrodes; a second dielectric layer arranged on the second substrate so as to cover the third electrodes, wherein each of the X electrodes and Y electrodes comprises a transparent electrode and a bus electrode, and a distance We between bus electrodes of adjacent discharge cells satisfies an about 4×Wb≦We≦ about 6×Wb relationship where Wb is the thickness of each horizontal barrier rib.
摘要翻译:一种等离子体显示面板,包括:第一基板和彼此面对的第二基板; X电极和Y电极,其在第一基板和第二基板之间沿第一方向延伸; 在第一基板和第二基板之间沿第二方向延伸的第三电极; 阻挡肋布置在所述第一基板和所述第二基板之间,以便限定多个放电单元,其中所述阻挡肋包括在所述第一方向上延伸的水平障壁; 布置在所述第一基板上以覆盖所述X电极和所述Y电极的第一电介质层; 布置在所述第二基板上以覆盖所述第三电极的第二电介质层,其中所述X电极和Y电极中的每一个包括透明电极和总线电极,并且相邻放电单元的总线电极之间的距离We满足约4×Wb <= We <=约6xWb关系,其中Wb是每个水平障肋的厚度。
摘要:
Provided is a plasma display panel that can increase bright room contrast and luminous efficiency. The plasma display panel includes a first substrate; a second substrate which is separated from the first substrate and faces the first substrate; a plurality of barrier ribs formed between the first and second substrates and defining a plurality of discharge cells; a plurality of sustain electrodes formed between the first and second substrates, comprising inner sustain electrodes and outer sustain electrodes; a plurality of scan electrodes formed in parallel to the sustain electrodes and comprising inner scan electrodes and outer scan electrodes; a plurality of address electrodes formed between the first and second substrates and extending in a direction crossing an extending direction of the sustain electrodes and the scan electrodes; an inner sustain connection electrode that electrically connects the inner sustain electrodes formed in adjacent discharge cells arranged in an extending direction of the address electrodes; and a discharge prevention element that prevents the generation of discharge in a non-discharge region around the inner sustain connection electrode, wherein the sustain electrodes and the scan electrodes are repeatedly and alternately disposed in each of the discharge cells, and adjacent electrodes of the outer sustain and outer scan electrodes formed in the two adjacent discharge cells arranged in an extending direction of the address electrodes are electrically connected to each other.
摘要:
A plasma display panel is provided having shield walls between discharge cells to prevent luminous interference between adjacent discharge cells. The plasma display panel includes a first substrate and a second substrate facing each other. Barrier ribs are disposed to define a plurality of discharge cells between the first substrate and the second substrate. Pairs of sustain electrodes extend in a direction on the first substrate and cross the discharge cells. Address electrodes cross the pairs of sustain electrodes. A first dielectric layer covers the pairs of sustain electrodes. A second dielectric layer covers the address electrodes. Phosphor layers are formed in the discharge cells. Shield walls are disposed between the first substrate and the second substrate to surround each of the discharge cells.
摘要:
Provided are a TFT-LCD source driver employing a frame cancellation and half decoding method, and a source line driving method. The TFT-LCD source driver outputs source line driving voltages for every two channels among a plurality of channels. Positive first and second gray scale voltages generated by a positive half decoder and negative first and second gray scale voltages generated by a negative half decoder are selectively transmitted to first and second output buffers through a chopping multiplexer in response to a chopping control signal. Output signals of the first and second output buffers are output to first and second channels through a polarity multiplexer in response to a polarity control signal.