Patent application number | Description | Published |
20090097140 | VARIFOCAL OPTICAL DEVICE - A varifocal optical device is provided. The varifocal optical device includes an optical lens, an actuator unit connected with the optical lens and having two areas that are bending-deformed in opposite directions to each other when a voltage is applied thereto, and a supporting unit to support the actuator unit, so that a focus of the optical lens is varied by the bending deformation when the voltage is applied to the actuator unit. Thereby, a driving displacement of the varifocal optical lens can be maximized. | 04-16-2009 |
20090115875 | IMAGE SENSOR MODULE AND FABRICATION METHOD THEREOF - An image sensor module having a sensor chip closely adhered on a concave surface and a fabrication method thereof are disclosed. The image sensor module includes at least one sensor chip, at least one sensor chip-mounting structure comprising a substrate and a polymer layer formed on the substrate, the polymer layer having an concave surface formed on an upper part thereof by a polymer molding method, so that the sensor chip is bent and bonded on the concave surface, and at least one lens fixed on the at least one sensor chip-mounting structure above the sensor chip. | 05-07-2009 |
20090142050 | MICRO SHUTTER HAVING IRIS FUNCTION, METHOD FOR MANUFACTURING THE SAME, AND MICRO CAMERA MODULE HAVING THE SAME - A micro shutter with an iris function includes a base plate with a transparent portion formed in a circular shape corresponding to an image sensor which allows light to pass through; a plurality of rollup blades which block the light, arranged in a regular polygon at a circumference of the transparent portion on the base plate to cover the transparent portion, and each of the plurality of rollup blades to have a fixing portion fixed to the base plate and a moving portion rolled up toward the fixing portion; and a controller electrically connected with the base plate and the plurality of rollup blades which controls unrolling degrees of the plurality of rollup blades. | 06-04-2009 |
20090147371 | OPTICAL LENS AND MANUFACTURING METHOD THEREOF - A liquid optical lens which changes a focus due to a change in a shape of a translucent elastic membrane according to a change in a fluid pressure of a lens chamber and a manufacturing method thereof are provided. The liquid optical lens forms a dampproof coating membrane on the translucent elastic membrane to prevent a fluid from permeating through the translucent elastic membrane and a swelling phenomenon of the translucent elastic membrane. | 06-11-2009 |
20100118373 | MICRO SHUTTER DEVICE AND METHOD OF MANUFACTURING THE SAME - A micro shutter device and a method of manufacturing the same are provided. A barrier is provided to define a unit pixel. Film actuators are formed within the unit pixel. The film actuators are configured to be bent in opposite directions to each other from a substrate so that light passing through the substrate from an external light source is blocked in a voltage non-applied state, and to be straightened perpendicularly to the substrate so that the light is transmitted upon voltage application. Accordingly, it is possible to increase the aperture ratio and thus improve the light efficiency. Furthermore, it is possible to reduce voltage necessary to drive the film actuators and thus increase the drive speed. | 05-13-2010 |
20100133077 | MEMS RF-SWITCH USING SEMICONDUCTOR - A MEMS RF-switch is provided for controlling switching on/off of transmission of AC signals. The MEMS RF-switch of the present invention includes: a first electrode coupled to one terminal of the power source; a semiconductor layer combined with an upper surface of the first electrode, and forming a potential barrier to become insulated when a bias signal is applied from the power source; and a second electrode disposed at a predetermined distance away from the semiconductor layer, and being coupled to the other terminal of the power source, wherein the second electrode contacts the semiconductor layer when a bias signal is applied from the power source. Therefore, although the bias signal may not be cut off, free electrons and holes are recombined in the semiconductor layer, whereby charge buildup and sticking can be prevented. | 06-03-2010 |
20100142024 | MICRO SHUTTER DEVICE AND METHOD OF MANUFACTURING THE SAME - A micro shutter device and a method of manufacturing the micro shutter device are provided. A transparent substrate is provided. A barrier is formed on the substrate to partition a unit pixel. A pattern layer is formed with a transparent material to have a transparent first pattern portion on the substrate in the unit pixel. A movable plate is arranged to face the pattern layer, has an opaque second pattern layer corresponding to a shape of the first pattern portion, and is configured to transmit light therethrough except the second pattern portion. An actuator is for moving the movable plate. Therefore, light leakage due to diffraction can be prevented, resulting in increasing contrast ratio and improving light efficiency. | 06-10-2010 |
20100225990 | MICRO THIN-FILM STRUCTURE, MEMS SWITCH EMPLOYING SUCH A MICRO THIN-FILM, AND METHOD OF FABRICATING THEM - A micro thin-film structure, a micro electro-mechanical system (MEMS) switch, and methods of fabricating them. The micro thin-film structure includes at least two thin-films having different properties and laminated in sequence to form an upper layer and a lower layer, wherein an interface between the upper and lower layers is formed to be oriented to at least two directions. The micro thin film structure, and method of forming, may be applied to a movable electrode of an MEMS switch. The thin-film structure may be formed by forming through-holes in the lower layer, and depositing the upper layer in the form of being engaged in the through-holes. Alternatively, the thin-film structure may be made by forming prominence and depression parts on the top side of the lower layer and then depositing the upper layer on the top side of the lower layer having the prominence and depression parts. | 09-09-2010 |
20100225991 | MICRO THIN-FILM STRUCTURE, MEMS SWITCH EMPLOYING SUCH A MICRO THIN-FILM, AND METHOD OF FABRICATING THEM - A micro thin-film structure, a micro electro-mechanical system (MEMS) switch, and methods of fabricating them. The micro thin-film structure includes at least two thin-films having different properties and laminated in sequence to form an upper layer and a lower layer, wherein an interface between the upper and lower layers is formed to be oriented to at least two directions. The micro thin film structure, and method of forming, may be applied to a movable electrode of an MEMS switch. The thin-film structure may be formed by forming through-holes in the lower layer, and depositing the upper layer in the form of being engaged in the through-holes. Alternatively, the thin-film structure may be made by forming prominence and depression parts on the top side of the lower layer and then depositing the upper layer on the top side of the lower layer having the prominence and depression parts. | 09-09-2010 |
20100290101 | LIGHT SCREENING DEVICE AND MANUFACTURING METHOD THEREOF - There are provided a light screening apparatus and a manufacturing method thereof. The light screening apparatus includes a substrate, a transparent electrode, a plurality of roll-up actuators and a plurality of light screening patterns. The substrate includes a light-transmitting region and the transparent electrode is formed on one surface of the substrate. Each roll-up actuator, which has opaque characteristics, is fixed on the circumference portion of the light-transmitting region and includes a fixing end and a moving part which extends from the fixing end. Gaps are formed between adjacent roll-up actuators, and the light screening patterns are formed on the substrate at locations corresponding to the gaps. The light-screening patterns prevent light incident through the gaps from being transmitted to the light-transmitting region. | 11-18-2010 |
20110108400 | MEMS SWITCH - A Micro Electro Mechanical System (MEMS) switch includes a substrate, a fixed signal line formed on the substrate, a movable signal line spaced apart from one of an upper surface and a lower surface of the fixed signal line, and at least one piezoelectric actuator connected to a first end of the movable signal line so as to bring or separate the movable signal line in contact with or from the fixed signal line. The piezoelectric actuator includes a first electrode, a piezoelectric layer formed on the first electrode, a second electrode formed on the piezoelectric layer, and a connecting layer formed on the second electrode and connected with the movable signal line. | 05-12-2011 |
20110170158 | OPTICAL SHUTTERING DEVICE AND METHOD OF MANUFACTURING THE SAME - Provided is an optical shuttering device and a method of manufacturing the same. Device includes a roll-up blade that stays in a rolled-up state while no driving voltage is applied thereto and flattens to shutter a light-transmitting region when a predetermined driving voltage is applied to the roll-up blade. The roll-up blade may be provided as a single roll-up blade or as a plurality of roll-up blades such that the roll-up blade(s) shutters a a portion or the entirety of the light-transmitting region. The roll-up blade may be formed as a thin layer made of a single opaque, conductive material. As a single-layered structure, the roll-up blade may spontaneously roll up due to a stress gradient that is made in a thickness direction of the roll-up blade, and as a multi-layered structure, the roll-up blade may spontaneously roll up due to differences in mean stress of the multi layers. | 07-14-2011 |
20120027397 | MICRO SHUTTER HAVING IRIS FUNCTION, METHOD FOR MANUFACTURING THE SAME, AND MICRO CAMERA MODULE HAVING THE SAME - A micro shutter with an iris function includes a base plate with a transparent portion formed in a circular shape corresponding to an image sensor which allows light to pass through; a plurality of rollup blades which block the light, arranged in a regular polygon at a circumference of the transparent portion on the base plate to cover the transparent portion, and each of the plurality of rollup blades to have a fixing portion fixed to the base plate and a moving portion rolled up toward the fixing portion; and a controller electrically connected with the base plate and the plurality of rollup blades which controls unrolling degrees of the plurality of rollup blades. | 02-02-2012 |
20120154887 | LIGHT SCREENING APPARATUS AND ELECTRONIC DEVICE INCLUDING THE SAME - A light screening apparatus and an electronic device including the light screening apparatus are provided, where the electronic device could be an imaging device or a display device. The light screening apparatus includes a base plate, a rollup blade, and a driving unit. The base plate includes a lower electrode and a light transmitting portion through which light passes. The rollup blade includes an upper electrode and at least two layers having different optical properties. The driving portion is electrically connected to the base plate and the rollup blade, and it controls the amount of light passing through the light transmitting portion of the base plate. The outer circumferential surface of the rollup blade, when in a rolled-up position, may be an anti-reflection surface. | 06-21-2012 |
20120328281 | LIGHT SCREENING APPARATUS AND FABRICATING METHOD THEREOF - A light screening apparatus and a method of fabricating the same are provided. The light screening apparatus includes: a base plate including a first electrode; at least one material layer on the base plate; a rollup blade including a second electrode and configured to be disposed corresponding to a light transmitting portion of the base plate; a driving unit configured to be electrically connected to the first electrode and the second electrode; and a sticking prevention structure which prevents sticking between the rollup blade and the material layer. The sticking prevention structure may refer to a surface structure of at least one of the rollup blade and the material layer or a sticking prevention layer or a sticking prevention pattern which is additionally formed on at least one of an outer circumference surface of the rollup blade and a surface of the material layer. | 12-27-2012 |
20130016271 | LIGHT TRANSMITTANCE ADJUSTING DEVICE, IMAGE APPARATUS INCLUDING THE SAME, AND METHOD OF FABRICATING THE LIGHT TRANSMITTANCE ADJUSTING DEVICEAANM KWON; Jong-ohAACI Suwon-siAACO KRAAGP KWON; Jong-oh Suwon-si KRAANM KIM; Che-heungAACI Yongin-siAACO KRAAGP KIM; Che-heung Yongin-si KR - A light transmittance adjusting device is provided, including a first electrode, a second electrode, and a first elastomer layer disposed between the first and second electrodes. A light transmittance of the first elastomer layer is variable depending on a voltage applied thereto. | 01-17-2013 |
20130049646 | ENERGY CONVERSION DEVICE AND METHODS OF MANUFACTURING AND OPERATING THE SAME - An energy conversion device, and methods of manufacturing and operating the same. The energy conversion device includes: a monolithic single-crystal silicon layer that includes a plurality of doping regions; a vibrator that is disposed in the single-crystal silicon layer and is connected to a doping region of the plurality of doping regions; a first diode that is a PN junction diode and allows an input signal applied to the vibrator to pass therethrough; and a second diode that is a PN junction diode and allows a signal output from the vibrator to pass therethrough. | 02-28-2013 |
20140120774 | SUBSTRATE FOR POWER MODULE HAVING UNIFORM PARALLEL SWITCHING CHARACTERISTIC AND POWER MODULE INCLUDING THE SAME - Provided are a substrate for a power module having a uniform parallel switching characteristic and a power module including the same. The substrate for the power module includes a plurality of areas on which input terminals are mounted, an area on which an output terminal is mounted, a plurality of areas on which devices are mounted, and an area on which a plurality of control pins are mounted. The plurality of areas on which the devices are mounted are bilaterally symmetric about the area on which the plurality of control pins are mounted. The plurality of areas on which the input terminals are mounted, respectively, are provided into three areas spaced apart from each other and bilaterally symmetric to each other. The plurality of areas on which the device are mounted are bilaterally symmetric about the area on which the control pins are mounted. | 05-01-2014 |
20140218871 | SUBSTRATE AND TERMINALS FOR POWER MODULE AND POWER MODULE INCLUDING THE SAME - According to example embodiments, a substrate for a power module includes first to third parts spaced apart from each other, where the third part surrounds the first and second parts, and a conductive layer on the first to third parts. A terminal of a first polarity is connected to the first part, and a terminal of a second polarity is connected to the second part. The first and second terminals may be spaced apart from each other and each have a coupling part, a body, and a contact part. The bodies of the first and second terminals may overlap each other. A power module may include the substrate. | 08-07-2014 |