Abstract: An armrest adjustment device includes an armrest arranged at a top surface of an armrest support. The lower part of the armrest support is connected to a chair seat. The armrest can be adjusted to move forward and backward in relation to the chair seat. A first component is mounted in the armrest. The first component is assembled with and fixed on the armrest support so that the armrest can be moved forward and backward in relation to the first component. Moreover, a second component is arranged between the armrest and the armrest support. Instead of the first component, the second component is assembled with and fixed on the armrest support. Thus the armrest is moved in the left/right direction in relation to the second component.

Abstract: A mask pattern and a correcting method thereof are provided. The correcting method includes the following steps. An original pattern having a first original contour and a second original contour is provided. The first original contour has a first original corner. The second original contour has a second original corner, which is near the first original corner. The first and second original corners are cut to form a cut pattern. An optical proximity correction (OPC) process is applied to the cut pattern to form the mask pattern.

Abstract: A semiconductor device includes a gate, a first electrode, a first insulating layer, an active layer, an etching stop layer, a second insulating layer, a source, a drain and a second electrode. The first insulating layer covers the gate and the first electrode. The active layer and the etching stop layer are disposed on the first insulating layer above the gate and the first electrode respectively. The second insulating layer covers the active layer and the etching stop layer and has a first opening and a second opening exposing the active layer and a third opening exposing the etching stop layer. The source and the drain are disposed on the second insulating layer and contact with the active layer through the first opening and the second opening respectively. The second electrode is located on the second insulating layer and contacts with the etching stop layer through the third opening.

Abstract: A display system is disclosed. The display system comprises a display device; and a computing device. The computing device executes instructions to receive a first plurality of sub-pixel values of a first plurality of sub-pixels of an image. The first plurality of sub-pixels have a plurality of colors. The computing device further executes instructions to select a first sub-pixel of the first plurality of sub-pixels. The first sub-pixel has a first color and is spatially close to a second sub-pixel of the first plurality of sub-pixels. The second sub-pixel has the first color. The computing device further executes instructions to generate a second plurality of sub-pixel values of a second plurality of sub-pixels based on at least first and second sub-pixel values corresponding to the first and second sub-pixels of the first plurality of sub-pixels.

Abstract: A synthesis method of Sigma-Delta modulator capable of relaxing circuit specification and reducing power consumption, comprising the following steps: firstly, set a target bandwidth and a target performance; upon obtaining a Noise Transfer Function (NTF), perform coefficient synthesis a first time, to ascertain a plurality sets of first performance results corresponding to said NTF, and obtain a plurality sets of first circuit specifications fulfilling said said target performance, through analyzing circuit non-ideal effect of said first performance results. Next, increase an oversampling ratio of parameters, to obtain a plurality sets of second performance results, and a plurality sets of second circuit specifications. Then, increase quantizer bit number, and increase attenuation quantity, to obtain a plurality sets of third circuit specifications. Finally, compare said first, second and third circuit specifications, to select one of greatest variation to perform calibrations.

Abstract: A double patterning mask set includes a first mask having a first set of via patterns, and a second mask having a second set of via patterns. The first set of via patterns includes at least two via patterns arranged along a diagonal direction, each of the at least two via patterns has at least a truncated corner. The first set of via patterns and the second set of via patterns are interlacedly arranged along a horizontal direction and a vertical direction.

Abstract: A thin film transistor is provided. The thin film transistor includes a gate, at least an inorganic material layer, at least one dielectric layer, a source, a drain, and an active layer. The active layer is located on the substrate. The source and the drain cover a part of the active layer and a part of the substrate. A channel region exists between the source and the drain. The inorganic material layer is filled into the channel region. The dielectric layer at least including an organic material covers the inorganic material, the source and the drain. The gate is disposed on the dielectric layer.

Abstract: A light-emitting device and a method for manufacturing the same are provided. The light-emitting device comprises a substrate, a light-emitting element and a light-electricity-transforming element. The substrate has a first region and a second region which are non-overlapping. The light-emitting element is disposed over the substrate and located in the second region. The light-electricity-transforming element is disposed over the substrate and located in the first region. At least a portion of a side wall of the light-electricity-transforming element corresponds to at least a portion of a side wall of the light-emitting element, so that at least a side light from the light-emitting element is received and transformed into an electricity power by the light-electricity-transforming device.

Abstract: A packaging method of an organic light emitting diode (OLED) is described. First, a substrate is provided, and the substrate has the OLED device formed thereon. Thereafter, at least one protection layer is formed on the substrate, so as to cover the peripheral sidewall of the OLED device entirely. The step of forming the protection layer includes forming an organic layer on the substrate, and then forming a metal layer on the organic layer, wherein the metal layer at least covers a sidewall of the OLED device. Afterwards, an oxidation treatment is performed, so as to oxidize a portion of the metal layer.

Abstract: A system for handling packet-switched data transmission is provided. The system includes a first RF module, a second RF module, a first subscriber identity card camping on a cell via the first RF module, a second subscriber identity card camping on the same cell or a different cell via the second RF module and a load balancing unit. The load balancing unit receives an uplink IP packet, determines one subscriber identity card from the first and second subscriber identity cards when the uplink IP packet comprises information regarding an unestablished connection of a recognized application, and transmits the uplink IP packet to a destination via the determined subscriber identity card and the RF module corresponding to the determined subscriber identity card.

Abstract: The disclosure is related to organic semiconductor compounds including benzodithieno(3,2-b:2?,3?-d)thiophene (BDTT) and the derivatives of benzodithieno(3,2-b:2?,3?-d)thiophene. The organic compounds of the disclosure have high resistance to the oxidation and high electrical stability. Accordingly, the semiconductor device having an organic semiconductor layer made of the organic compounds of the disclosure has stable electrical performance, and the reliability of the semiconductor device is improved.

Abstract: The present invention discloses a pharmaceutical polymer and a method for quenching free radicals. Said pharmaceutical polymer comprises a glycopeptides and an aminothiol moiety which covalently bonds together. The disclosed pharmaceutical polymer and method can be applied before or after the occurrence of radiation exposure.

Abstract: A double patterning mask set includes a first mask having a first set of via patterns, and a second mask having a second set of via patterns. The first set of via patterns includes at least two via patterns arranged along a diagonal direction, each of the at least two via patterns has at least a truncated corner. The first set of via patterns and the second set of via patterns are interlacedly arranged along a horizontal direction and a vertical direction.

Abstract: An asynchronous master-slave serial communication system, a data transmission method, and a control module using the same are disclosed. The asynchronous master-slave serial communication system comprises a master control module and a slave control module. The master control module generates a check code according to an address information and a data information, and generates a data package according to the address information, the data information, the check code and the master clock signal. The slave control module generates a decoding data according to the data package and a slave clock signal, and generates the address information, the data information and the check code according to the decoding data.

Abstract: A composition for photosensitive dielectric material is provided. The composition includes 4 to 10 percent by weight of a polymer material, 1.5 to 10 percent by weight of a crosslinking agent, 0.32 to 2 percent by weight of a photoacid generator (PAG) and 78 to 94.18 percent by weight of solvent, based on a total weight of the composition.

Abstract: A fabricating method of a substrate board is provided. The substrate board includes a substrate having rigid areas and flexible areas, and at least an electronic component disposed on the substrate, wherein each of the rigid areas is thicker than the flexible areas. A patterned high-extensive material may be additionally disposed on the substrate to improve reliability thereof. The rigid areas and the flexible areas may be formed by molds or cutters. By using an above structure, the electronic component is less affected when the substrate is under stress, so that good characteristics are maintained.

Abstract: An optical proximity correction process for designing a mask according to a target exposure intensity of each edge of a pattern is provided. Each edge is at a corresponding current edge position which corresponds to a current exposure intensity. The process comprises repeating a convergence process on each edge to determine an adjusted position for the edge until an adjusted exposure intensity of the edge is equal to the target exposure intensity. For each edge, the convergence process comprises comparing the target exposure intensity with the current exposure intensity to determine an in-position correlating to a first exposure intensity and an out-position correlating to a second exposure intensity, wherein the target exposure intensity is within a range between the first and the second exposure intensities. An interpolation is performed to obtain the adjusted position according to the target exposure intensity. The pattern is updated according to the adjusted position.

Abstract: An LED base structure with an embedded capacitor includes a body, at least one pair of metal layers, at least one dielectric layer, and at least two conductive channels. The body is an insulating base. The metal layers are disposed in the body, and the dielectric layer is disposed between the metal layers, so as to form an embedded capacitor. The conductive channels are electrically connected to the metal layers, respectively. The LED base structure is further electrically connected to a resistor for forming a resistor-capacitor delay circuit whereby a phase delay is effectuated whenever AC power is supplied to the LED base structure, so as to control the time for switching on one of two parallel-connected LEDs and, as a result, prevent the LEDs from flashing which might otherwise arise when the LEDs are supplied with AC power.

Abstract: A substrate board, a fabricating method thereof, and a display using the same are provided. The substrate board includes a substrate having at least a rigid area and at least a flexible area, and at least an electronic component disposed on a surface of the substrate, wherein the rigid area is thicker than the flexible area. A patterned high-extensive material may be additionally disposed on the substrate to improve reliability thereof. The rigid area and the flexible area may be formed by molds or cutters. By using an above structure, the electronic component is less affected when the substrate is under stress, so that good characteristics are maintained.

Abstract: The present application relates to Multicomponent Nucleic Acid Enzymes (MNAzymes), which may be used for detecting, identifying and/or quantifying targets. More particularly, this application provides methods of designing and making more reliable MNAzymes, as well as compositions comprising MNAzyme components and methods of using MNAzymes.