Abstract:
A shutter mechanism of an automated-teller machine according to the present invention comprises a main body including a frame, a shutter slidably coupled to a front side of the frame, a first protrusion protruding inward on an inner lateral surface of the shutter, and a fixing member protruding on a side surface of the frame; an opening/closing means for opening and closing the shutter in response to an external signal; a locking unit for preventing the shutter from being opened by an external force without a separate signal; and a driving unit for simultaneously operating the opening/closing unit and the locking unit. Therefore, the present invention provides a shutter mechanism of an automated-teller machine, wherein a shutter-opening/closing operation and a shutter-locking operation can be simultaneously carried out using a single driving source, thereby simplifying its structure and also reducing its production costs, and interference that may occur while the shutter is being closed does not impose a load on the driving source, thereby preventing damage to and malfunction of the mechanism, reducing a failure rate and also maintaining a smooth operational state.
Abstract:
Air conditioner including a case having air inlet and outlet passages therein perpendicular to each other, and a plurality of air inlet and outlets at ends of the air inlet and outlet passages, a regenerative heat exchanger at a cross point of the air inlet and outlet passages for making indirect heat exchange of the external air and room air flowing through the air inlet and outlet passages, a compressor, a flow path control valve for shifting, and guiding a flow path of refrigerant from the compressor proper to respective operation modes, first and second heat exchangers, an expansion device, a first fan in the air inlet passage for blowing external air into a room through the first heat exchanger, and a second fan in the air outlet passage for blowing the room air to an exterior through the second heat exchanger, thereby ventilating as well as heating or cooling the room at the same time.
Abstract:
An apparatus for preparing coffee comprises a chassis engaging an electronic power and control circuit, a water heater, a coffee brewing tray adapted for receiving a coffee packet, a coffee pot supporting shelf, a control panel adapted for receiving manual selections for operating the apparatus, an electrical interlock adapted for sensing the presence of a coffee pot on the coffee pot supporting shelf. An electrical interlocking scheme is adapted for sensing when the coffee pot is present and when it is full, the temperature and level of water in the water heater, and when a restraining handle is in place.
Abstract:
A delay locked loop is provided. The delay locked loop controls the number of delay cells that delay the phase of an input clock during a locking operation and controls a phase delay value of at least one delay cell among a plurality of delay cells after the locking operation is completed.
Abstract:
A duty control circuit including a clock input unit connected to a first node and a second node, the clock input unit receiving an input clock signal through the first node and changing a voltage of the second node to one of a first voltage level and a second voltage level in response to respective low and high logic levels of the input clock signal, a slew controller connected to the second node, the slew controller including one or more switches controlled by respective control signals, the one or more switches providing one of the first voltage level and the second voltage level to the second node in response to the control signals such that a slew rate of a signal at the second node is varied, and a clock output unit, the clock output unit outputting an output clock signal having a duty that varies.
Abstract:
Disclosed is a portable terminal using a flexible material. The portable terminal includes an upper portion, a lower portion and a flexible portion integrally connecting the upper and lower portions. The portable terminal is of a slide-type in which after the upper portion is bent about the flexible portion, the upper portion is slid in the lengthwise direction of the lower portion to open/close a predetermined area of the lower portion.
Abstract:
An image sensor package and a method for manufacturing the same are disclosed. For example, a mount holder is directly attached on an image sensor die, not a substrate. Here, on the mount holder, a lens or a barrel having lens are attached. Also, the mount holder is interlocked by an encapsulant, so that it is not easily separated from the image sensor. Accordingly, the width of the mount holder can be smaller than that of the image sensor die, so that the entire width of the image sensor package becomes smaller. Moreover, the electrically conductive wire is located at the outside of the mount holder and is perfectly surrounded by the encapsulant, thereby preventing the oxidization of the wire.
Abstract:
Photoresist cleaning solutions are used to clean semiconductor substrates before or after an exposing step when photoresist patterns are formed. The cleaning solutions include H2O and a nonionic surfactant compound represented by Formula 1. By spraying the disclosed cleaning solutions on a surface of the semiconductor substrate before or after exposing step to form a photoresist pattern, the desired pattern only is obtained and unnecessary patterns generated in undesired regions by ghost images are avoided as excess acid generated by the photoacid generator is neutralized and removed and damage to unexposed portions of the photoresist polymer is avoided. wherein R1 and R2 are independently H, C1-C20 alkyl, C5-C25 alkyl aryl or C1-C10 ester; m is 1 or 2; n is an integer ranging from 10 to 300; and o is 0 or 1.
Abstract:
Disclosed is an electrode catalyst comprising a ruthenium (Ru)-rhodium (Rh) alloy. A membrane electrode assembly (MEA) comprising the same electrode catalyst and a fuel cell comprising the same membrane electrode assembly are also disclosed. The ruthenium-rhodium alloy catalyst has not only good oxygen reduction activity but also excellent methanol resistance compared to conventional platinum and platinum-based alloy catalysts, and thus can be used as high-quality and high-efficiency electrode catalyst having improved catalytic availability and stability.
Abstract:
The present invention relates to a method for preparing an aromatic dialdehyde, comprising, a) a step of gas phase oxidation reaction for preparing aromatic dialdehyde from dimethyl benzene; b) a step of separation for selectively recovering crude aromatic dialdehyde of molten phase from the reaction product of the step (a); and c) a step of purification for obtaining highly pure aromatic dialdehyde by purifying said crude aromatic dialdehyde, and a manufacturing system used for the preparation method. The method for preparation of the aromatic dialdehyde according to the present invention is simple, effective, and advantageous in that highly pure aromatic dialdehyde can be continuously prepared.