Abstract:
A method for manufacturing thin film transistor array substrate for a liquid crystal display device-includes:—(a) forming a first metal thin film layer on a insulating substrate and forming a gate wiring and a gate electrode by a first photolithography. (b) forming a gate insulating film layer, a semiconductor film layer, an ohmic contact film layer and a second metal thin film layer, and forming the thin film transistor by a second photolithography, (c) forming an interlayer insulating film, and forming a pixel contact hole, a first contact hole and a second contact hole by a third photolithography, and (d) forming a transparent conductive film, and forming a pixel electrode by a fourth photolithography. The first metal thin film has a two-layered structure comprising a first layer made of aluminum or aluminum alloy and a second layer located on said first layer, and the second metal thin film is formed of an alloy mainly containing molybdenum.
Abstract:
The present invention provides a highly reliable technology for manufacturing a substrate with protrusions. After filling an UV-curable transfer material into the grooves of an intaglio plate for transfer, the UV-curable transfer material is cured by irradiating UV rays under the conditions where it is exposed to an atmosphere that contains at least one of oxygen and ozone while a curing-inhibited portion is formed in an area of the UV-curable transfer material exposed to this atmosphere, and the UV-curable transfer material is transferred to the substrate to form the protrusions, while the curing-inhibited portion is made to adhere to the substrate.
Abstract:
A reflection type liquid crystal display is formed by an interlayer insulating film having appropriate unevenness of an inseparable pattern in a picture element region and having a contact hole of a separable pattern on a drain electrode of a TFT is formed by plainly applying a photosensitive insulating resin so that it may dissolve difference in level caused by a gate electrode wiring, source electrode wiring, and the TFT, and conducting exposure and development while changing exposure amount. The exposure of the insulating resin is conducted through divisional exposure in which the inseparable pattern and the separable pattern are arranged on different masks, and the inseparable pattern is exposed by a predetermined exposure amount of 20 to 80% of an exposure amount for the separable pattern.
Abstract:
An information storage apparatus capable of setting the number and sizes of partitioned areas resulting from partitioning a memory area based on a user's intention is provided. For this purpose, an information storage apparatus having a plurality of partitioned areas of different security levels in a memory area is provided with an area control section that controls addresses of partitioned areas in the memory area, an area update condition control section that controls update conditions when the number or sizes of partitioned areas are updated, an area update decision section that decides whether a partition request requesting updating of the number or sizes of partitioned areas satisfies the update conditions and an area update section that executes, when the partition request satisfies the update conditions, updating of the partitioned areas in the memory area according to the partition request. The partitioned areas in the memory area of this information storage apparatus are updated at a partition request reflecting the user's intention in accordance with the user's intention.
Abstract:
A thin film transistor array substrate including an insulating substrate, a first metallic pattern formed on the insulating substrate, and an insulating film provided on the first metallic pattern. A semiconductor pattern is provided on the insulating film, and a second metallic pattern is provided on the semiconductor pattern. The second metallic pattern is surrounded by the semiconductor pattern.
Abstract:
A plurality of elements of a document is classified into a plurality of services respectively relating to a meaning, and a plurality of nodes respectively indicating one element are prepared in a node preparing unit. Therefore, each of services is a partial set of nodes. Also, a plurality of inner-service links respectively connecting a pair of nodes of the same service are prepared by an inner-service link preparing unit, so that a reference relationship between the nodes is indicated by one inner-service link. Also, a plurality of inter-service links respectively connecting a pair of nodes of different services are prepared by an inter-service link preparing unit, so that a reference relationship between the nodes of different services is indicated by one inter-service link. A hyper-text document is prepared by connecting the nodes prepared by the node preparing unit through the inner-service links for each service and connecting the nodes of the services through the inter-service links. Accordingly, because the nodes are classified into the services, the hyper-text document can be easily prepared, and the hyper-text document can be easily renewed. Therefore, a user can easily manage the hyper-text document.
Abstract:
A metal-in-gap head wherein one of a pair of magnetic core halves is coated with a metal film on the side of a gap between the magnetic core halves, a boundary between the metal film and core material to be coated with a metal film and core material to be coated with a metal film being rendered not parallel to the gap.
Abstract:
An acoustic wave filter includes: a substrate; resonators that are arranged on the substrate and excite acoustic waves; a ground terminal on the substrate; interconnection lines interconnecting the resonators and connecting predetermined ones of the resonators to the ground terminal; and a shield electrode disposed so as to be close to and face the interconnection lines.
Abstract:
An electronic component includes: a substrate; a functional portion provided on the substrate; an interconnection line provided on the substrate and electrically connected to the functional portion; a metal wall provided on the substrate so as to surround the functional portion and the interconnection line; and a seal portion that contacts the metal wall and covers the functional portion and the interconnection line so as to define a cavity above the functional portion, the seal portion being made of liquid crystal polymer.
Abstract:
An electronic component includes: a substrate; a functional element located on the substrate; a wiring located on the substrate and electrically connected to the functional element; a metal ceiling located above the functional element so that a space is formed between the metal ceiling and the functional element; and a sealing portion located on the metal ceiling, wherein the metal ceiling is electrically connected to a signal wiring that is included in the wiring and transmits a high-frequency signal.