Patent application number | Description | Published |
20080223746 | Display Device Arrangement and Container - A display device arrangement ( | 09-18-2008 |
20080259066 | Method for Addressing Active Matrix Displays with Ferroelectrical Thin Film Transistor Based Pixels - A pixel (P) of a display ( | 10-23-2008 |
20090065782 | FIELD SHIELD DIELECTRIC AS A MASK DURING SEMICONDUCTOR INK JET PRINTING - A display device and method for fabricating includes patterning a field shield dielectric layer to expose conductors and form a cavity over the conductors. InkJet printing a semiconductor material fills a portion of the cavity in contact with the conductors. An insulation material is deposited on the semiconductor material. A pixel pad is formed over the insulation material and the field shield dielectric layer. A pixel is formed which includes a thin film transistor with an ink jet printed semiconductor layer. | 03-12-2009 |
20100018743 | Common Contact Layout For Flexible Displays - An electronic device ( | 01-28-2010 |
20100237352 | ELECTRONIC DEVICE AND A METHOD OF MANUFACTURING AN ELECTRONIC DEVICE - The invention relates to an electronic device comprising a sequence of a first thin film transistor (TFT) and a second TFT, the first TFT comprising a first set of electrodes separated by a first insulator, the second TFT comprising a second set of electrodes separated by a second insulator, wherein the first set of electrodes and the second set of electrodes are formed from a first shared conductive layer and a second shared conductive layer, the first insulator and the second insulator being formed by a shared dielectric layer. The invention further relates to a method of manufacturing an electronic device. | 09-23-2010 |
20100320448 | Electronic Component And A Method Of Manufacturing An Electronic Component - An electronic component, notably one including, for example, a TFT, a storage capacitor, or a crossing between electrically conductive layers of a stack device is disclosed. The electronic component comprises a substrate whereon a first electrically conductive layer forming electrode is provided. A second electrode formed by a second electrically conductive layer is separated from the first electrode by at least a dielectric layer, comprising an interlayer of an electrically insulating material, preferably having high resistance against view ( | 12-23-2010 |
20110048619 | STACKED FOIL SHEET DEVICE - The invention relates to a method of aligning a flexible foil sheet having a general first foil sheet length direction to form stacked foil sheet layers on a reel having a reel diameter. The method comprises providing multiple alignment markers in the foil sheet. distanced conform the reel diameter and each having an mark length direction transverse to the first foil sheet length direction, to form protrusions and corresponding recesses on opposite faces of the foil sheet; winding the foil sheet on the reel in the first foil sheet length direction of the foil sheet; and co-aligning the alignment markers to have protrusions of one mark matching with a recess of another mark, so as to block relative movement of the stacked foil sheet layers in the first foil sheet length direction. Preferably, the foil sheet layers are provided with device functionality to form a stacked foil sheet layered device. | 03-03-2011 |
20110123058 | COMPOSITE MICROPHONE, MICROPHONE ASSEMBLY AND METHOD OF MANUFACTURING THOSE - A composite microphone comprises a flexible and stretchable substrate ( | 05-26-2011 |
20110256649 | PIXEL PERFORMANCE IMPROVEMENT BY USE OF A FIELD SHIELD - A pixel cell ( | 10-20-2011 |
20120292717 | INTEGRATED CIRCUIT - An integrated circuit, comprising a first insulating layer; a semiconductor layer; a first layer of conductors in near-ohmic or ohmic contact with the semiconductor layer and a second layer of conductors separated from the semiconductor layer by the first insulating layer, the first and second layers of conductors being patterned to form a plurality of functional blocks comprising a plurality of transistors, the first layer conductors serving as source/drain electrodes and the second layer conductors serving as gate electrodes; wherein each functional block comprises a corresponding island of the semiconductor layer isolated from that of another functional block by portions of a second insulating layer, the functional blocks being arranged such that (i) source/drain electrodes that are from different transistors and neighbour one another are arranged to be at the same potential and (ii) no conductors are present between said neighbouring electrodes. | 11-22-2012 |
20130306227 | STACKED FOIL SHEET DEVICE - The invention relates to a method of aligning a flexible foil sheet having a general first foil sheet length direction to form stacked foil sheet layers on a reel having a reel diameter. The method comprises providing multiple alignment markers in the foil sheet. distanced conform the reel diameter and each having an mark length direction transverse to the first foil sheet length direction, to form protrusions and corresponding recesses on opposite faces of the foil sheet; winding the foil sheet on the reel in the first foil sheet length direction of the foil sheet; and co-aligning the alignment markers to have protrusions of one mark matching with a recess of another mark, so as to block relative movement of the stacked foil sheet layers in the first foil sheet length direction. Preferably, the foil sheet layers are provided with device functionality to form a stacked foil sheet layered device. | 11-21-2013 |
20140120721 | METHOD OF MANUFACTURING AN ELECTRONIC COMPONENT - A method of manufacturing an electric component disclosed. A first electrically conducting layer including a first electrode of the electric component is formed on a substrate. An interlayer of a dielectric material is formed on the first electrically conducting layer, the dielectric material including an electrically insulating material. A further layer of a dielectric material is deposited on the interlayer of dielectric material, the further layer including a photo-patternable electrically insulating material. Both the further layer and said interlayer are structured, wherein the further layer of the dielectric material is used as a mask for the interlayer. A second electrically conducting layer including a second electrode of the electric component is then formed. | 05-01-2014 |