Patent application number | Description | Published |
20110126534 | HYBRID BRAKE SYSTEM - Disclosed is a hybrid brake system equipped with a pedal simulator having a parallel structure. The hybrid brake system includes an input shaft connected to a brake pedal, a pedal simulator provided therein with a control plunger connected with the input shaft, a master cylinder communicating with the pedal simulator and provided therein with first and second pistons, an oil supply part supplying oil to the pedal simulator and the master cylinder, and a boosting part communicating with the pedal simulator and forming repulsive force when the brake pedal is stepped on. | 06-02-2011 |
20110132703 | HYBRID BRAKE SYSTEM - Disclosed is a hybrid brake system to perform a braking operation for a vehicle by generating hydraulic pressure in a master cylinder. The hybrid brake system includes an input shaft, a pedal simulator connected to the input shaft, a master cylinder provided therein with first and second pistons, an oil supply part supplying oil to the pedal simulator and the master cylinder, a power piston connected to the first piston, and a first chamber formed between the power piston and an inner surface of the master cylinder. The pedal simulator includes a simulation housing, a simulation rod provided at one end of the simulation housing, a second chamber formed at a lateral side of the first chamber to receive the simulation rod, and a boosting part communicated with the second chamber to generate the repulsive force as the brake pedal is pressed. | 06-09-2011 |
20110259004 | BRAKE ACTUATOR UNIT - Disclosed is a brake actuator unit capable of improving the pedal feeling. The brake actuator unit includes a housing, a master cylinder connected to one end of the housing and provided therein with first and second pistons arranged in parallel to each other, an operating fluid reservoir coupled to an upper portion of the master cylinder to store operating fluid, a simulator accommodated in the master cylinder to provide repulsive force of a pedal, an input shaft moving back and forth according to an operation of the pedal, a control plunger slidably moving back and forth together with the input shaft, first and second output shafts positioned corresponding to first and second pistons to move back and forth together with the control plunger, and a pedal displacement sensor connected to the input shaft. | 10-27-2011 |
Patent application number | Description | Published |
20100325652 | METHOD OF PERFORMING DATA COMMUNICATION WITH TERMINAL AND RECEIVER USING THE SAME - A method of performing data communication with a terminal and a receiver using the same enables viewing of a broadcast program and a video program of an external device outside the home. The method includes steps of receiving a control signal from a terminal via a network, the control signal including a request signal identifying a specific video program; processing, in response to the received control signal, the specific video program according to characteristic information of the terminal; and transmitting the processed video program to the terminal via the network. The characteristic information for the terminal may or may not be included in the control signal, since a system controller of the receiver may access a user information storage unit to retrieve terminal characteristic information indicating the appropriate format conversion for the terminal. | 12-23-2010 |
20140240179 | HEAT RADIATION ANTENNA DEVICE, PORTABLE TERMINAL AND BATTERY COVER THEREWITH, AND METHOD FOR MANUFACTURING THE BATTERY COVER - A portable terminal employing a near field communication antenna with a heat radiation function is provided. The portable terminal includes a cover provided for the portable terminal, and an antenna device mounted on an inner surface of the cover. The antenna device includes a near field communication antenna coupled to a location on the inner surface of the cover, a shield sheet coupled to an upper surface of the antenna, a heat radiation sheet coupled to an upper surface of the shield sheet so as to discharge heat transmitted from the portable terminal, and a protection cover coupled to an upper surface of the heat radiation sheet. | 08-28-2014 |
20140318982 | METHOD FOR PREPARING TIN-SILVER ALLOY PLATING SOLUTION AND PLATING SOLUTION PREPARED BY SAME - A method is described of preparing a tin-silver (Sn—Ag) alloy plating solution containing methanesulfonic acid tin, methanesulfonic acid silver, methanesulfonic acid, and an additive, wherein the method includes: (a) eliminating impurities such as released chloride compounds and released sulfur compounds, which are present in the methanesulfonic acid, (b) preparing the methanesulfonic acid tin and the methanesulfonic acid silver by dissolving, through an electrolytic process, tin and silver in the methanesulfonic acid from which the impurities are eliminated; (c) producing a mixture solution by adding the methanesulfonic acid, the methanesulfonic acid tin, the methanesulfonic acid silver, and the additive; and (d) filtering the mixture solution. And by the method thereof, current efficiency may be increased and a desirable plating film may be maintained by eliminating the impurities from the methanesulfonic acid used as a base material and preparing the Sn—Ag alloy plating solution. | 10-30-2014 |
Patent application number | Description | Published |
20130092870 | COOLANT COMPOSITION FOR FUEL CELL - A coolant composition for a fuel cell, including (a) an alkylene glycol, (b) deionized water, and (c) a compound containing a trimethylsilyl group. The compound containing a trimethylsilyl group of the composition of the present invention prevents the oxidation of the alkylene glycol, and thus the generation of an acid is 700 ppm or less. Additionally, the compound prevent the oxidation of the alkylene glycol, thereby inhibiting the generation of an ionic material, and thus the rate of change of electrical conductivity (conductivity after oxidation/initial conductivity) can be maintained to be 40 times or less. Therefore, the coolant composition for a fuel cell of the present invention can be used as a coolant for a cooling system of a fuel cell driving device with an electrical conductivity of 40 μs/cm or less even without being frozen in the winter. | 04-18-2013 |
20140274833 | BRAKE FLUID COMPOSITION COMPRISING TRIAZOLE AND THIADIAZOLE - The present invention relates to a brake fluid composition comprising a glycol compound as a solvent, and triazole, thiadiazole mixture, and antioxidant as metallic corrosion inhibitors. Provided is a brake fluid composition having improved long-term metallic and high-temperature corrosion inhibition. The brake fluid composition according to the present invention significantly improves long-term durability by being a superior anti-corrosive as well as having a reduced weight variation on a test piece, and has a superior high-temperature corrosion inhibition while having negligible effects on the equilibrium reflux boiling point and the wet equilibrium reflux boiling point. | 09-18-2014 |
20140303058 | VEHICLE-GLASS CLEANING FLUID COMPOSITION COMPRISING ANIONIC SURFACTANT AND TARTARIC ACID - The present invention relates to a vehicle-glass cleaning fluid composition comprising an alcohol, an anionic surfactant, and tartaric acid as a corrosion inhibitor. The present invention provides a cleaning fluid composition entailing improved metal corrosion prevention, durability for rubbers and plastics, and performance in preventing the noise and wear which occur when there is friction between a wiper blade and glass surface. The cleaning fluid composition of the present invention has outstanding corrosion-preventing properties while also substantially improving test-piece weight-change reduction and abnormal appearance changes, and has a highly outstanding performance in preventing noise and wear due to friction. | 10-09-2014 |
20140323370 | BRAKE FLUID COMPOSITION COMPRISING TARTARIC ACID AND IMIDAZOLE - The present invention relates to a brake fluid composition comprising (a) a glycol compound and boron-containing compound mixture as solvents, (b) corrosion inhibitior, (c) and tartatric acid, imidazole or a mixture of tartaric acid and imidazole as antioxidants. Provided is a brake fluid composition having improved capabilities for inhibiting thermal oxidation, metallic and high-temperature corrosion. The brake fluid composition according to the present invention significantly improves long-term durability by reducing metal dot corrosion and preventing boronic acid precipitation on a test piece, while having a superior thermal oxidation inhibition capability, and has superior capabilities for inhibiting high-temperature oxidation and corrosion while having negligible effects on the equilibrium reflux boiling point and the wet equilibrium reflux boiling point. | 10-30-2014 |
Patent application number | Description | Published |
20130105773 | ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE | 05-02-2013 |
20150060834 | ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE - An organic electroluminescent display device is disclosed which includes: a lower substrate including a first substrate defined into red, green and blue sub-pixel regions, first and second switching elements formed in the red and green sub-pixel regions, first and second anodes each connected to the first and second switching elements, and a first organic light emission layer entirely formed on the first substrate provided with the first and second anodes; and an upper substrate including a second substrate, red and green color filter layers formed on the second substrate corresponding to the red and green sub-pixel regions, a third switching element formed on the second substrate corresponding to the blue sub-pixel region, a third anode connected to the third switching element, and a second organic light emission layer entirely formed on the second substrate provided with the red and green color filter layers and the third anode. | 03-05-2015 |
20150069369 | ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE - An organic electroluminescent display device is disclosed which includes a lower substrate including a first substrate defined into red, green and blue sub-pixel regions, first and second switching elements formed in the red and green sub-pixel regions, first and second anodes each connected to the first and second switching elements, and a first organic light emission layer entirely formed on the first substrate provided with the first and second anodes; and an upper substrate including a second substrate, red and green color filter layers formed on the second substrate corresponding to the red and green sub-pixel regions, a third switching element formed on the second substrate corresponding to the blue sub-pixel region, a third anode connected to the third switching element, and a second organic light emission layer entirely formed on the second substrate provided with the red and green color filter layers and the third anode. | 03-12-2015 |
Patent application number | Description | Published |
20090206432 | IMAGE SENSOR AND METHOD OF MANUFACTURING THE SAME - An image sensor and a method of manufacturing the same are provided. The image sensor includes a substrate having a sensor array area and a peripheral circuit area a first insulating film structure formed on the peripheral circuit area and including a plurality of first multi-layer wiring lines and a second insulating film structure formed on the sensor array area and including a plurality of second multi-layer wiring lines. The uppermost-layer wiring line of the plurality of first multi-layer wiring lines is higher than that of the uppermost-layer wiring line of the plurality of second multi-layer wiring lines. The first insulating film structure includes an isotropic etch-stop layer, and the second insulating film structure does not include the isotropic etch-stop layer. | 08-20-2009 |
20110163364 | IMAGE SENSOR, FABRICATING METHOD THEREOF, AND DEVICE COMPRISING THE IMAGE SENSOR - Image sensor, fabricating method thereof, and device comprising the image sensor are provided, which comprises a substrate in which a photoelectric transformation device is formed, an interconnection structure formed on the substrate and including multiple intermetal dielectric layers and multiple metal interconnections placed in the multiple intermetal dielectric layers, the interconnection structure defining a cavity aligned corresponding to the photoelectric transformation device, a moisture absorption barrier layer conformally formed on a top of the interconnection structure and in the cavity; and a light guide unit formed on the moisture absorption barrier layer and including light transmittance material filling the cavity, wherein the moisture absorption barrier layer is formed with a uniform thickness on both sides and a bottom of the cavity and on a top surface of the multiple intermetal dielectric layer. | 07-07-2011 |
20150041944 | IMAGE SENSOR, FABRICATING METHOD THEREOF, AND DEVICE COMPRISING THE IMAGE SENSOR - Image sensor, fabricating method thereof, and device comprising the image sensor are provided, which comprises a substrate in which a photoelectric transformation device is formed, an interconnection structure formed on the substrate and including multiple intermetal dielectric layers and multiple metal interconnections placed in the multiple intermetal dielectric layers, the interconnection structure defining a cavity aligned corresponding to the photoelectric transformation device, a moisture absorption barrier layer conformally formed on a top of the interconnection structure and in the cavity; and a light guide unit formed on the moisture absorption barrier layer and including light transmittance material filling the cavity, wherein the moisture absorption barrier layer is formed with a uniform thickness on both sides and a bottom of the cavity and on a top surface of the multiple intermetal dielectric layer. | 02-12-2015 |
20160064430 | IMAGE SENSOR AND MANUFACTURING METHOD THEREOF - An image sensor includes a semiconductor layer, a plurality of light sensing regions, a first pixel isolation layer, a light shielding layer, and a wiring layer. The semiconductor layer has a first surface and a second surface opposite to the first surface. The plurality of light sensing regions is formed in the semiconductor layer. The first pixel isolation layer is disposed between adjacent light sensing regions from among the plurality of light sensing regions. The first pixel isolation layer is buried in an isolation trench formed between the first surface and the second surface. The light shielding layer is formed on the second surface of the semiconductor layer and on some of the adjacent light sensing regions. The wiring layer is formed on the first surface of the semiconductor layer. | 03-03-2016 |