摘要:
The present invention relates to a zirconium based alloy composite having an excellent creep resistance and, more particularly, to a zirconium based alloy composite finally heat-treated to have the degree of recrystallization in the range of 40˜70% in order to improve the creep resistance. The zirconium based alloy comprises 0.8˜1.8 wt. % niobium (Nb); 0.38˜0.50 wt. % tin (Sn); one or more elements selected from 0.1˜0.2 wt. % iron (Fe), 0.05˜0.15 wt. % copper (Cu), and 0.12 wt. % chromium (Cr); 0.10˜0.15 wt. % oxygen (O); 0.006˜0.010 wt. % carbon (C); 0.006˜0.010 wt. % silicon (Si); 0.0005˜0.0020 wt. % sulfur (S); and the balance zirconium (Zr). The zirconium alloy manufactured with the composition in accordance with the present invention has an excellent creep resistance compared to a conventional Zircaloy-4, and may effectively be used as a nuclear cladding tube, supporting lattice and inner structures of reactor core in the nuclear power plant utilizing light or heavy water reactor.
摘要:
The present invention relates to a high-brightness LED with a protective function of electrostatic discharge damage. The high-brightness LED with a protective function of electrostatic discharge damage includes a lead frame that is formed with a pair of anode and cathode leads; a package that is formed of synthetic resin and in which a portion of the lead frame is housed; an LED chip that is mounted on the upper surface of the lead frame inside the package; an electrostatic discharge damage protecting element that is mounted on the lower surface of the lead frame inside the package and is connected parallel to the LED chip through a wire; and a molding material that is filled in the package so as to protect the LED chip.
摘要:
The invention relates to a side-emission type LED package capable of minimizing light loss to achieve high luminance and to a backlight unit using the same. The LED package includes a lead frame with an electrode formed thereon and a light emitting diode chip disposed on the lead frame. The LED package further includes a body made of molded material surrounding the light emitting diode chip disposed on the lead frame, the body having an asymmetrical shape; and a reflecting part extended from a side of the body to downwardly reflect light emitted from the light emitting diode chip. The reflecting part is extended from the upper edge of the body housing the LED chip to effectively block light from leaking outside, thereby achieving high-luminance emission.
摘要:
A driving apparatus and a method for a liquid crystal display wherein a picture can be inspected by a specific image signal when an image signal is not applied is provided. In the driving apparatus, an image signal processor extracts a complex synchronizing signal and a first image signal from a complex image signal input from an external source. An image signal generator generates a second image signal. An input signal detector counts the pulses in the complex synchronizing signal to generate a selection signal. An image signal selector selectively outputs any one of the first image signal from the image signal processor and the second image signal from the image signal generator in response to the selection signal. A data driver applies an output image signal selected and output by the image signal selector to the liquid crystal display panel.
摘要:
A apparatus and method for driving a liquid crystal display that minimizes the generation of electromagnetic interference (EMI) in a cost effective manner includes a gate control signal generator that generates a gate control signal using a externally inputted synchronizing signal, a data control signal generator that generates a data control signal using the synchronizing signal, a data aligner that re-aligns externally inputted video data, a plurality of buffers at output terminals of the gate control signal generator, the data control signal generator and the data aligner, and a control unit that applies control signals to the buffers to control current values of signals outputted by the buffers.
摘要:
A method of driving a liquid crystal display to eliminate stripe-shaped noise when a picture screen is displayed on an enlarged viewing area includes dividing a liquid crystal into a plurality of blocks, and setting widths of scanning pulses for a gate electrode pair supplied with the same data differently for each block, wherein the gate electrode pair includes first and second gate lines.
摘要:
The present invention relates to a apparatus for quantitative continuous real-time monitoring to monitor a continuous reaction of biochemical reagent and the reaction, such as DNA. More particularly, the present invention is directed to a miniaturized apparatus for real-time monitoring of biochemical reaction, which comprises capillary tubes (100) wherein biochemical reaction mixture flow; a thermal conduction block (120) which is coiled with capillary tube several rounds in order and composed of several blocks for temperature control of which temperatures are different from each other for heating or cooling the biochemical reaction mixture which flow in capillary tube, and a temperature controller which controls the temperature of above temperature control block; a radiation part (130) to radiate the reaction mixture flowing through the capillary tube and a light receiving section (140) which receives and measures the intensity of the fluorescence generated from the capillary tubes.
摘要:
The invention relates to a high power LED package having excellent light efficiency and heat dissipating characteristics. The LED package includes a base member, a reflector unit arranged on the base member and having a plurality of first reflectors, a plurality of LED chips mounted on the base member and surrounded by the first reflectors, and a connection unit arranged on the base member, for electrically connecting the LED chips to an outside. The reflector unit also includes a second reflector surrounding the first reflectors. The second reflector is arranged to surround the first reflectors in order to completely prevent any interference of emission lights and collect the emission lights together, thereby enabling excellent light efficiency. Furthermore, with the first reflectors surrounding the individual LED chips, it is possible to maximize heat dissipating efficiency of the lead frame, thereby stabilizing operating characteristics of the package.