Patent application number | Description | Published |
20090208639 | METHOD OF FORMING VANADIUM TRIOXIDE THIN FILM SHOWING ABRUPT METAL-INSULATOR TRANSITION - Provided is a method of manufacturing a V | 08-20-2009 |
20090315724 | PROGRAMMABLE MIT SENSOR USING THE ABRUPT MIT DEVICE, AND ALARM APPARATUS AND SECONDARY BATTERY ANTI-EXPLOSION CIRCUIT INCLUDING THE MIT SENSOR - Provided are an abrupt MIT device with variable MIT temperature or voltage, an MIT sensor using the abrupt MIT device, and an alarm apparatus and a secondary battery anti-explosion circuit including the MIT sensor The MIT device includes an abrupt MIT layer undergoing an abrupt MIT at a transition temperature or a transition voltage and at least two electrode layers contacting the abrupt MIT layer. The transition temperature or the transition voltage varies with at least one of factors including a voltage applied to the electrode layers, a temperature, an electromagnetic wave, a pressure, and a gas concentration that affect the abrupt MIT layer. The MIT sensor is a temperature sensor, an infrared sensor, an image sensor, a pressure sensor, a gas-concentration sensor, or a switch. The alarm apparatus includes the MIT sensor and an alarm-signaling unit connected in series with the MIT sensor. The secondary battery anti-explosion circuit includes a secondary battery, the MIT sensor attached to the secondary battery to sense the temperature of the secondary battery and thus to prevent the possible explosion of the secondary battery, and a protection circuit body powered by the secondary battery. | 12-24-2009 |
20100059119 | SOLAR CELL AND METHOD OF MANUFACTURING THE SAME - Provided are a solar cell and a method of manufacturing the same. The solar cell includes a substrate; and a light-absorbing layer formed below the substrate and comprising a plurality of semiconductor layers which comprise Si or SiGe and have different Ge composition ratios. According to the present invention, stress and crystal defects that may occur by sudden changes of the composition of Ge can be minimized, and a more efficient solar cell can be fabricated. | 03-11-2010 |
20100060369 | OSCILLATION CIRCUIT BASED ON METAL-INSULATOR TRANSITION DEVICE AND METHOD OF DRIVING THE OSCILLATION CIRCUIT - Provided are an oscillatory circuit based on a metal-insulator transition (MIT) device that can generate a simple and very high oscillating frequency using the MIT device, and a method of driving the oscillatory circuit. The oscillatory circuit includes the MIT device that comprises an MIT thin film and an electrode thin film connected to the MIT thin film and in which an abrupt MIT is generated due to an MIT generating voltage, a resistor that is serially connected to the MIT device, an electric al power source limiting the maximum amount of an applied current and applying a direct current constant voltage to the MIT device, and a light source irradiating electromagnetic waves on the MIT device, wherein the oscillating properties are generated by irradiating the electromagnetic waves using the light source. | 03-11-2010 |
20100066411 | LOGIC CIRCUIT USING METAL-INSULATOR TRANSITION (MIT) DEVICE - Provided is a logic circuit comprising a metal-insulator transition (MIT) device, including: an MIT device unit including an MIT thin film, an electrode thin film contacting the MIT thin film, and at least one MIT device undergoing a discontinuous MIT at a transition voltage V | 03-18-2010 |
20100180941 | ANTIREFLECTION FILM OF SOLAR CELL, SOLAR CELL, AND METHOD OF MANUFACTURING SOLAR CELL - Provided are an antireflection film of a solar cell, the solar cell, and a method of manufacturing the solar cell. The antireflection film of a solar cell includes a low dielectric film formed of a material having a first dielectric constant; a high dielectric film formed of a material having a second dielectric constant higher than the first dielectric constant; and a gradient layer disposed between the low dielectric film and the high dielectric film, and formed so as to gradually increase a dielectric constant from the first dielectric constant to the second dielectric constant. According to the present invention, light absorption efficiency of a solar cell can be increased. | 07-22-2010 |
20100213472 | Photo-gating Switch System - A photo-gating switch system comprising a photosensitive device formed on a substrate is provided. The photosensitive device may comprise a photosensitive layer and electrodes formed at both ends of the photosensitive layer. A light source irradiating light to the photosensitive device is integrated beneath the surface of the substrate. | 08-26-2010 |
20100320899 | ELECTRO-LUMINESCENT DEVICE INCLUDING METAL-INSULATOR TRANSITION LAYER - Provided is an electro-luminescent device (ELD) including a metal-insulator transition (MIT) layer. The ELD includes: a substrate; a EL phosphor layer positioned on the substrate and comprising luminescent center ions generating light; the MIT layer disposed on a surface of the EL phosphor layer and being abruptly changed from an insulator to a metal according to a variation of a voltage; a first insulator adhered to the MIT layer to distribute a voltage applied from an external source; and a second insulator disposed on the other side of the EL phosphor layer. | 12-23-2010 |
20110304403 | Oscillation circuit based on metal-insulator transition device and method of driving the oscillation circuit - Provided are an oscillatory circuit based on a metal-insulator transition (MIT) device that can generate a simple and very high oscillating frequency using the MIT device, and a method of driving the oscillatory circuit. The oscillatory circuit includes the MIT device that comprises an MIT thin film and an electrode thin film connected to the MIT thin film and in which an abrupt MIT is generated due to an MIT generating voltage, a resistor that is serially connected to the MIT device, an electrical power source limiting the maximum amount of an applied current and applying a direct current constant voltage to the MIT device, and a light source irradiating electromagnetic waves on the MIT device, wherein the oscillating properties are generated by irradiating the electromagnetic waves using the light source. | 12-15-2011 |