Abstract: The present invention provides a hybrid-type cooling device which can perform cooling by phase transition, ventilation and convection.

Abstract: The present invention relates to a device and method for improving a radiation pattern of a built-in antenna in a folder-typed mobile wireless terminal that has a main body having the RF board installed with a built-in antenna, a sub-body to be opened and closed at an angle from the main body, and a hinge module configured to open and close the sub-body. The device includes a conductive ground means installed in the sub-body at a portion adjacent to the built-in antenna, for minimizing a radiation pattern difference of the built-in antenna between the opening and closing of the sub-body, thereby increasing reliability of the terminal.

Abstract: The present invention relates to a device and method for improving a radiation pattern of a built-in antenna in a folder-typed mobile wireless terminal that has a main body having the RF board installed with a built-in antenna, a sub-body to be opened and closed at an angle from the main body, and a hinge module configured to open and close the sub-body. The device includes a conductive ground means installed in the sub-body at a portion adjacent to the built-in antenna, for minimizing a radiation pattern difference of the built-in antenna between the opening and closing of the sub-body, thereby increasing reliability of the terminal.

Abstract: A portable terminal having a tuner for changing an antenna radiation pattern is disclosed. In the portable terminal, a main body has a main body PCB and a main body ground defined in the main body PCB. A folder is rotatably connected to the main body by a hinge device. An antenna device is provided at an upper end of the main body. The tuner is formed at a predetermined position of the main body in the vicinity of the antenna device, for changing a current distribution of the main body and thus changing an antenna radiation pattern of the portable terminal.

Abstract: An apparatus for recording and reading data by measuring contact resistance and a method for recording and reading data thereof are provided. The apparatus for recording and reading data includes a storage medium and a probe which is installed to face the storage medium and is used for recording data on the storage medium and reading the data from the storage medium. The storage medium includes a substrate, a conductive layer formed on the substrate and a dielectric layer formed on the conductive layer. With the apparatus for recording and reading data, it is possible to solve problems concerning data retention, data read speed and signal-to-noise ratio which have been at issue in developing data storage media with the use of conventional scanning probe microscopic techniques.

Abstract: A comb structure in which a magnetic force, which is generated between a pair of intermeshed combs by applying a magnetic flux thereto, is constant with respect to the relative motion between the combs, is provided. Also, an actuator and an inertia sensor both using the comb structure are provided. The comb structure includes a pair of magnetic combs, a magnetic flux guide for magnetically connecting the pair of combs, a coil wound around an arbitrary portion of the magnetic flux guide, and a power supply connected to the coil. The pair of magnetic combs intermeshed with each other having a gap S therebetween are connected to each other by the magnetic flux guide, such that they are driven by receiving a magnetic field from the coil. The coil is supposed to generate a magnetic field under the influence of a current provided from the power supply.

Abstract: A rotary microactuator having optimally curved electrodes is provided. The rotary microactuator is optimally designed so that the interval between two electrodes, which are a rotor and a stator, is constant regardless of a distance from the central axis of the rotor. Thus, a parallel-plate configuration can generate a maximum driving force, and also can widen a driving range. In particular, in a rotary microactuator using parallel-plate configuration electrodes, the electrodes are optimally designed so that the interval between the electrodes remains constant regardless the radius by tilting the electrodes or by zigzagging the electrodes. Therefore, a driving force per a given area can be maximized.

Abstract: An electromagnetic x-y stage driver for a nano data storage system and a method for fabricating the coils of the same are provided. In the electromagnetic x-y stage driver, a cantilever tip array fixedly provided a medium for recording data to write data to or read data from each cell of the medium. Four coils are formed to be integrated with the medium in front of, behind, to the left of and to the right of the medium to move the medium. Four supporting beam are installed to an x-y stage body onto which a medium structure composed of the medium and the four coils is loaded such that the four supporting beam are connected to the four corners of the medium structure to support the medium structure. Four driving beams connect the upper portions of the supporting beam to the four corners of the medium structure to allow the medium structure to move in an x or y direction. Stiffeners are disposed at the four sides between the supporting beam to prevent the medium structure from rotating.

Abstract: A single-stage microactuator is provided.

Abstract: An apparatus for recording and reading data by measuring contact resistance and a method for recording and reading data thereof are provided. The apparatus for recording and reading data includes a storage medium and a probe which is installed to face the storage medium and is used for recording data on the storage medium and reading the data from the storage medium. The storage medium includes a substrate, a conductive layer formed on the substrate and a dielectric layer formed on the conductive layer. With the apparatus for recording and reading data, it is possible to solve problems concerning data retention, data read speed and signal-to-noise ratio which have been at issue in developing data storage media with the use of conventional scanning probe microscopic techniques.

Abstract: An electromagnetic x-y stage driver for a nano data storage system and a method for fabricating the coils of the same are provided. In the electromagnetic x-y stage driver, a cantilever tip array fixedly provided a medium for recording data to write data to or read data from each cell of the medium. Four coils are formed to be integrated with the medium in front of, behind, to the left of and to the right of the medium to move the medium. Four supporting beam are installed to an x-y stage body onto which a medium structure composed of the medium and the four coils is loaded such that the four supporting beam are connected to the four corners of the medium structure to support the medium structure. Four driving beams connect the upper portions of the supporting beam to the four corners of the medium structure to allow the medium structure to move in an x or y direction. Stiffeners are disposed at the four sides between the supporting beam to prevent the medium structure from rotating.

Abstract: A single-stage microactuator is provided.

Abstract: A 3-dimensional comb structure using an electrical force, and an inertial detection sensor and an actuator both using the 3-dimensional comb structure are provided. In the 3-dimensional comb structure, a suspension structure, which is an inertia body, is separated a predetermined height from a substrate, maintaining the predetermined height from the substrate. A movable comb, which has at least one movable comb finger, protrudes perpendicularly from the suspension structure. A fixed comb, which has at least one fixed comb finger, protrudes perpendicularly from the substrate, in mesh with the movable comb. The 3-dimensional comb structure is driven by a voltage provided from a power supply unit which is connected to the movable comb and the fixed comb.

Abstract: A multilayered wafer with a thick sacrificial layer, which is obtained by forming a sacrificial layer of oxidized porous silicon or porous silicon and growing an epitaxial polysilicon layer on the sacrificial layer, and a fabrication method thereof are provided. The multilayered wafer with a thick sacrificial layer adopts a porous silicon layer or an oxidized porous silicon layer as a sacrificial layer such that a sufficient gap can be obtained between a substrate and a suspension structure upon the manufacture of the suspension structure of a semiconductor actuator or a semiconductor inertia sensor. Also, in a fabrication method of the wafer according to the present invention, a p+-type or n+-type wafer doped at a high concentration is prepared for, and then a thick porous silicon layer can be obtained simply by anodic-bonding the surface of the wafer. Also, when polysilicon is grown on a porous silicon layer by an epitaxial process, it is grown faster than when single crystal silicon is grown.