Patent application number | Description | Published |
20110108909 | VERTICAL THIN FILM TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME AND DISPLAY DEVICE INCLUDING THE VERTICAL THIN FILM TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - A vertical thin film transistor and a method for manufacturing the same and a display device including the vertical thin film transistor and a method for manufacturing the same are disclosed. The vertical thin film transistor is applied to a substrate. In the present invention, a gate layer of the vertical thin film transistor is formed to have a plurality of concentric annular structures and the adjacent concentric annular structures are linked. By the concentric annular structures of the gate electrode layer, resistance to stress and an on-state current of the vertical thin film transistor can be increased. | 05-12-2011 |
20120133625 | METHOD FOR DRIVING CHOLESTERIC LIQUID CRYSTAL DISPLAY DEVICE - A method for driving a cholesteric liquid crystal display device is disclosed. The cholesteric liquid crystal display device includes a plurality of pixels. The method includes steps below. In a first duration, a first square wave is provided for the pixels. The first square wave has an amplitude of a first value. In a second duration, a second square wave is provided for each one of the pixels according to a required gray level of each one of the pixels. The second square wave has an amplitude of a second value. The second value is different from the first value. The first square wave and the second square wave are continuously provided. The method for driving the cholesteric liquid crystal display device according to the present invention is capable of displaying a motion picture and decreasing driving voltages. | 05-31-2012 |
20120188495 | CHOLESTERIC LIQUID CRYSTAL DISPLAY DEVICE - A cholesteric liquid crystal display device is disclosed. The cholesteric liquid crystal display device includes a substrate, a light absorbing layer, and a cholesteric liquid crystal layer. The cholesteric liquid crystal layer includes plural rows of left-handed cholesteric liquid crystals and plural rows of right-handed cholesteric liquid crystals which are arranged alternately. The left-handed cholesteric liquid crystals and the right-handed cholesteric liquid crystals respectively reflect left-handed light and right-handed light in the cholesteric liquid crystal display device of the present invention, whereby both eyes of an observer can see different images and thus a 3D effect is formed. | 07-26-2012 |
20120223985 | INK-JET DEVICE - Disclosed is an ink-jet device applicable to various ink-jet equipments. The device includes an ink reservoir, an ink chamber, pressure generating units and an ink-jet head. The ink-jet head has dielectric layers coated on an inner surface and an outer surface thereof. By applying a voltage to the dielectric layers, the dielectric layers are changed to be hydrophobic or hydrophilic, so as to reduce residual ink accumulated in the ink-jet head during the ink-jetting process, hence improving ink-jetting accuracy. | 09-06-2012 |
20120289731 | PHOTO-CROSSLINKABLE LIQUID CRYSTAL MONOMERS WITH OPTICAL ACTIVITY - The present invention relates to photo-crosslinkable liquid crystal monomers with optical activity. The liquid crystal monomers contains one chiral center with an acrylate group or terminal diacrylate groups, and terminal dibenzene rings are introduced in order to extend its hard segment for the purpose of getting a wider liquid crystalline phase. By introducing the liquid crystal monomers, the room temperature nematic liquid crystal or the cholesteric liquid crystal may have a better mutual solubility and a wider, steadier structure of liquid crystal. The liquid crystal monomers have the following formula structure: | 11-15-2012 |
20130146931 | PIXEL STRUCTURE AND MANUFACTURING METHOD OF THE SAME - A pixel structure and manufacturing method of the same are described. The pixel structure includes a substrate, a switch transistor, a dielectric layer, a conducting connection line, a driving transistor, a capacitor and a pixel electrode. The substrate defines a transistor region and the switch transistor is disposed on the transistor region. The dielectric layer is disposed on the substrate and covers the switch transistor. The conducting connection line disposed on the dielectric layer is located over the transistor region. The driving transistor disposed on the dielectric layer is vertically stacked over the switch transistor and transistor region. The conducting connection line electrically connects the switch transistor to the driving transistor. The pixel electrode is electrically connected to the driving transistor. | 06-13-2013 |