Patent application number | Description | Published |
20080203477 | SEMICONDUCTOR DEVICE - Plural kinds of thin film transistors having different film thicknesses of semiconductor layers are provided over a substrate having an insulating surface. A channel formation region of semiconductor layer in a thin film transistor for which high speed operation is required is made thinner than a channel formation region of a semiconductor layer of a thin film transistor for which high withstand voltage is required. A gate insulating layer of the thin film transistor for which high speed operation is required may be thinner than a gate insulating layer of the thin film transistor for which high withstand voltage is required. | 08-28-2008 |
20080237779 | SOI substrate and method for manufacturing SOI substrate - An SOI substrate and a manufacturing method of the SOI substrate, by which enlargement of the substrate is possible and its productivity can be increased, are provided. A step (A) of cutting a first single crystal silicon substrate to form a second single crystal silicon substrate which has a chip size; a step (B) of forming an insulating layer on one surface of the second single crystal silicon substrate, and forming an embrittlement layer in the second single crystal substrate; and a step (C) of bonding a substrate having an insulating surface and the second single crystal silicon substrate with the insulating layer therebetween, and conducting heat treatment to separate the second single crystal silicon substrate along the embrittlement layer, and forming a single crystal silicon thin film on the substrate having an insulating surface, are conducted. | 10-02-2008 |
20080242050 | Method for manufacturing semiconductor device - It is an object of the present invention to manufacture a semiconductor element and an integrated circuit that have high performance over a large-sized substrate with high throughput and high productivity. When single crystal semiconductor layers are transferred from a single crystal semiconductor substrate (a bond wafer), the single crystal semiconductor substrate is etched selectively (this step is also referred to as groove processing), and a plurality of single crystal semiconductor layers divided such that they have the size of semiconductor elements to be manufactured are transferred to a different substrate (a base substrate). Thus, a plurality of island-shaped single crystal semiconductor layers (SOI layers) can be formed over the base substrate. | 10-02-2008 |
20080242051 | Method for manufacturing semiconductor device - When single crystal semiconductor layers are transposed from a single crystal semiconductor substrate (a bond wafer), the single crystal semiconductor substrate is etched selectively (this step is also referred to as groove processing), and a plurality of single crystal semiconductor layers, which are being divided in size of manufactured semiconductor elements, are transposed to a different substrate (a base substrate). Thus, a plurality of island-shaped single crystal semiconductor layers (SOI layers) can be formed over the base substrate. Further, etching is performed on the single crystal semiconductor layers formed over the base substrate, and the shapes of the SOI layers are controlled precisely by being processed and modified. | 10-02-2008 |
20080245406 | Photovoltaic device and method for manufacturing the same - It is the gist of the present invention to provide a photovoltaic device in which a single crystal semiconductor layer provided over a substrate having an insulating surface or an insulating substrate is used as a photoelectric conversion layer, and the single crystal semiconductor layer is provided with a so-called SOI structure where the single crystal semiconductor layer is bonded to the substrate with an insulating layer interposed therebetween. As the single crystal semiconductor layer having a function as a photoelectric conversion layer, a single crystal semiconductor layer obtained by separation and transfer of an outer layer portion of a single crystal semiconductor substrate is used. | 10-09-2008 |
20080248609 | DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - A constitution of the display device of the invention is shown in the following. The display device includes a pixel unit including TFTs of which the active layer contains an organic semiconductor material for forming channel portions in the opening portions in an insulating layer arranged to meet the gate electrodes. The pixel unit further includes a contrast media formed on the electrodes connected to the TFTs for changing the reflectivity upon the application of an electric field, or microcapsules containing electrically charged particles that change the reflectivity upon the application of an electric field. The pixel unit is sandwiched by plastic substrates, and barrier layers including an inorganic insulating material are provided between the plastic substrates and the pixel unit. The purpose of the present invention is to supply display devices which are excellent in productivity, light in weight and flexible. | 10-09-2008 |
20080251126 | Photovoltaic device and method for manufacturing the same - A photovoltaic device uses a single crystal or polycrystalline semiconductor layer which is separated from a single crystal or polycrystalline semiconductor substrate as a photoelectric conversion layer and has a SOI structure in which the semiconductor layer is bonded to a substrate having an insulating surface or an insulating substrate. A single crystal semiconductor layer which is a separated surface layer part of a single crystal semiconductor substrate and is transferred is used as a photoelectric conversion layer and includes an impurity semiconductor layer to which hydrogen or halogen is added on a light incidence surface or on an opposite surface. The semiconductor layer is fixed to a substrate having an insulating surface or an insulating substrate. | 10-16-2008 |
20080280424 | Manufacturing method of SOI substrate and manufacturing method of semiconductor device - After the plurality of single-crystal semiconductor layers are provided adjacent to each other with a certain distance over a glass substrate which is a support substrate, heat treatment is performed on the glass substrate. The support substrate shrinks by this heat treatment, and the adjacent single-crystal semiconductor layers are in contact with each other due to the shrink. Energy beam irradiation is performed with the plurality of single-crystal semiconductor layers being in contact with each other, the plurality of single-crystal semiconductor layers are integrated, and thus a continuous single-crystal semiconductor layer is formed. | 11-13-2008 |
20080315208 | Semiconductor device and manufacturing method thereof - [Problem] A TFT is manufactured using at least five photomasks in a conventional liquid crystal display device, and therefore the manufacturing cost is high. | 12-25-2008 |
20090026464 | Semiconductor device and manufacturing method thereof - A TFT is manufactured using at least five photomasks in a conventional liquid crystal display device, and therefore the manufacturing cost is high. | 01-29-2009 |
20090029498 | Manufacturing method of display device - To improve a deposition rate of a microcrystalline semiconductor layer by using a deposition method and to improve productivity of a display device including a TFT of a microcrystalline semiconductor, a reactive gas containing helium is supplied to a treatment chamber surrounded with a plurality of juxtaposed waveguides and a wall surface; a microwave is supplied to a space which is interposed between juxtaposed waveguides to generate plasma while the pressure of the treatment chamber is held at an atmospheric pressure or a sub-atmospheric pressure typically a pressure of 1×10 | 01-29-2009 |
20090029503 | Method for manufacturing photoelectric conversion device - To form a microcrystalline semiconductor with high quality which can be directly formed at equal to or less than 500° C. over a large substrate with high productivity without decreasing a deposition rate. In addition, to provide a photoelectric conversion device which employs the microcrystalline semiconductor as a photoelectric conversion layer. A reactive gas containing helium is supplied to a treatment chamber which is surrounded by a plurality of juxtaposed waveguides and a wall, the pressure in the treatment chamber is maintained at an atmospheric pressure or a subatmospheric pressure, microwave is supplied to a space sandwiched between the juxtaposed waveguides to generate plasma, and a photoelectric conversion layer of a microcrystalline semiconductor is deposited over a substrate which is placed in the treatment chamber. | 01-29-2009 |
20090045409 | Display device - A display device including both an n-channel thin film transistor and a p-channel thin film transistor each having excellent electric characteristics and high reliability is demonstrated, and a method for manufacturing thereof is also provided. The display device includes an inverted-staggered p-channel thin film transistor and an inverted-staggered n-channel thin film transistor in which a gate insulating film, a microcrystalline semiconductor film, and an amorphous semiconductor film are sequentially stacked over a gate electrode. The microcrystalline semiconductor film contains oxygen at a concentration of 1×10 | 02-19-2009 |
20090047752 | Method for manufacturing photoelectric conversion device - It is an object to form a high-quality crystalline semiconductor layer directly over a large-sized substrate with high productivity without reducing the deposition rate and to provide a photoelectric conversion device in which the crystalline semiconductor layer is used as a photoelectric conversion layer. A photoelectric conversion layer formed of a semi-amorphous semiconductor is formed over a substrate as follows: a reaction gas is introduced into a treatment chamber where the substrate is placed; and a microwave is introduced into the treatment chamber through a slit provided for a waveguide that is disposed in approximately parallel to and opposed to the substrate, thereby generating plasma. By forming a photoelectric conversion layer using such a semi-amorphous semiconductor, a rate of deterioration in characteristics by light deterioration is decreased from one-fifth to one-tenth, and thus a photoelectric conversion device that has almost no problems for practical use can be obtained. | 02-19-2009 |
20090047775 | Method for manufacturing display device - The present invention relates to a method for manufacturing a display device including a p-channel thin film transistor and an n-channel thin film transistor having a microcrystalline semiconductor film each of which are an inverted-staggered type, and relates to a method for formation of an insulating film and a semiconductor film which are included in the thin film transistor. Two or more kinds of high-frequency powers having different frequencies are supplied to an electrode for generating glow discharge plasma in a reaction chamber. High-frequency powers having different frequencies are supplied to generate glow discharge plasma, so that a thin film of a semiconductor or an insulator is formed. High-frequency powers having different frequencies (different wavelength) are superimposed and applied to the electrode of a plasma CVD apparatus, so that densification and uniformity of plasma for preventing the effect of surface standing wave of plasma can be realized. | 02-19-2009 |
20090087930 | Inspection System, Inspection Method, and Method for Manufacturing Semiconductor Device - The present invention provides an inspection system of ID chips that can supply a signal or power supply voltage to an ID chip without contact, and can increase throughput of an inspection process and an inspection method using the inspection system. The inspection system according to the present invention includes a plurality of inspection electrodes, a plurality of inspection antennas, a position control unit, a unit for applying voltage to each of the inspection antennas, and a unit for measuring potentials of the inspection electrodes. One feature of the inspection system is that a plurality of ID chips and the plurality of inspection electrodes are overlapped with a certain space therebetween, and the plurality of ID chips and the plurality of inspection antennas are overlapped with a certain space therebetween, and the plurality of ID chips are interposed between the plurality of inspection electrodes and the plurality of inspection antennas by the position control unit. | 04-02-2009 |
20090091014 | Semiconductor Device Having a Flexible Printed Circuit - To provide a thin film device which becomes possible to be formed in the portion which has been considered impossible to be provided with such device by the conventional technique, and to provide a semiconductor device which occupies small space and which has high shock resistance and flexibility, a device formation layer with a thickness of at most 50 μm which was peeled from a substrate by a transfer technique is transferred to another substrate, hence, a thin film device can be formed over various substrates. For instance, a semiconductor device can be formed so as to occupy small space by pasting a thin film device which is transferred to a flexible substrate onto a rear surface of a substrate of a panel, by pasting directly a thin film device onto a rear surface of a substrate of a panel, or by transferring a thin film device to an FPC which is pasted onto a substrate of a panel. | 04-09-2009 |
20090117680 | METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - A photoelectric conversion device which is excellent in photoelectric conversion characteristics is provided by effectively utilizing silicon semiconductor materials. The present invention relates to a method for manufacturing a photoelectric conversion device using a solar cell, in which a plurality of single crystal semiconductor substrates in each of which a damaged layer is formed at a predetermined depth is arranged over a supporting substrate having an insulating surface; a surface layer part of the single crystal semiconductor substrate is separated thinly using the damaged layer as a boundary so as to form a single crystal semiconductor layer over one surface of the supporting substrate; and the single crystal semiconductor layer is irradiated with a laser beam from a surface side which is exposed by separation of the single crystal semiconductor layer to planarize the surface of the single crystal semiconductor layer. | 05-07-2009 |
20090117704 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - As a base substrate, a substrate having an insulating surface such as a glass substrate is used. Then, a single crystal semiconductor layer is formed over the base substrate with the use of a large-sized semiconductor substrate. Note that, it is preferable that the base substrate be provided with a plurality of single crystal semiconductor layers. After that, the single crystal semiconductor layers are cut to divide the single crystal semiconductor layers into a plurality of single crystal semiconductor regions by patterning. Next, the single crystal semiconductor regions are irradiated with laser light or heat treatment is performed on the single crystal semiconductor regions in order to improve the planarity of surfaces and reduce defects. Peripheral portions of the single crystal semiconductor regions are not used as semiconductor elements, and central portions of the single crystal semiconductor regions are used as the semiconductor elements. | 05-07-2009 |
20090120498 | PHOTOELECTRIC CONVERSION DEVICE AND METHOD FOR MANUFACTURING THE SAME - A photoelectric conversion device with an excellent photoelectric conversion characteristic with a silicon semiconductor material effectively utilized. The photoelectric conversion device includes a first unit cell including a first electrode, a first impurity semiconductor layer, a single crystal semiconductor layer, and a second impurity semiconductor layer; and a second unit cell including a third impurity semiconductor layer, a non-single-crystal semiconductor layer, a fourth impurity semiconductor layer, and a second electrode. The second and third impurity semiconductor layers are in contact with each other so that the first and second unit cells are connected in series, and an insulating layer is provided for a surface of the first electrode and bonded to a supporting substrate. | 05-14-2009 |
20090127555 | PHOTOELECTRIC CONVERSION DEVICE AND MANUFACTURING METHOD THEREOF - In order to form a metal thin film, a silicide film, or the like between an upper-layer unit cell and a lower-layer unit cell in stacked-layer photoelectric conversion devices, a step of forming the thin film is additionally needed. Therefore, a problem such as decline in productivity of the photoelectric conversion devices occurs. A first unit cell including a single crystal semiconductor layer with a thickness of 10 μm or less as a photoelectric conversion layer and a second unit cell including a non-single-crystal semiconductor layer as a photoelectric conversion layer, which is provided over the first unit cell, are at least included, and conductive clusters are dispersed between the unit cells. The conductive clusters are located between the lower-layer unit cell and the upper-layer unit cell to form an ohmic contact; thus, current flows between the both unit cells. | 05-21-2009 |
20090128338 | ID LABEL, ID TAG, AND ID CARD - In commercial products to which a non-contact type or contact type ID label or ID tag is attached and ID cards, there is fear that, due to a difference between coefficients of thermal expansion between an antenna for communication and a resin provided around the antenna, stress is applied to the resin with the larger coefficient of thermal expansion to break the resin. This contributes to decrease in manufacturing yield, lifetime, and reliability of an ID label or the like. | 05-21-2009 |
20090142874 | METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - A method for manufacturing a photoelectric conversion device typified by a solar cell, having an excellent photoelectric conversion characteristic with a silicon semiconductor material effectively utilized. The point is that the surface of a single crystal semiconductor layer bonded to a supporting substrate is irradiated with a pulsed laser beam to become rough. The single crystal semiconductor layer is irradiated with the pulsed laser beam in an atmosphere containing an inert gas and oxygen so that the surface thereof is made rough. With the roughness of surface of the single crystal semiconductor layer, light reflection is suppressed so that incident light can be trapped. Accordingly, even when the thickness of the single crystal semiconductor layer is equal to or greater than 0.1 μm and equal to or less than 10 μm, path length of incident light is substantially increased so that the amount of light absorption can be increased. | 06-04-2009 |
20100006882 | LIGHTING DEVICE - An object of the invention is to provide a lighting device which can suppress luminance nonuniformity in a light emitting region when the lighting device has large area. A layer including a light emitting material is formed between a first electrode and a second electrode, and a third electrode is formed to connect to the first electrode through an opening formed in the second electrode and the layer including a light emitting material. An effect of voltage drop due to relatively high resistivity of the first electrode can be reduced by electrically connecting the third electrode to the first electrode through the opening. | 01-14-2010 |
20100025716 | LIGHTING SYSTEM - It is an object of the present invention to provide a lighting system having favorable luminance uniformity in a light-emitting region when the lighting system has large area. According to one feature of the invention, a lighting system comprises a first electrode, a second electrode, a layer containing a light-emitting substance formed between the first electrode and the second electrode, an insulating layer which is formed over a substrate in a grid form and contains a fluorescence substance, and a wiring formed over the insulating layer. The insulating layer and the wiring are covered with the first electrode so that the first electrode and the wiring are in contact with each other. | 02-04-2010 |
20100026179 | LIGHTING SYSTEM - It is an object of the present invention to provide a lighting system having favorable luminance uniformity in a light-emitting region when the lighting system has large area. According to one feature of the invention, a lighting system comprises a first electrode, a second electrode, a layer containing a light-emitting substance formed between the first electrode and the second electrode, an insulating layer which is formed over a substrate in a grid form and contains a fluorescence substance, and a wiring formed over the insulating layer. The insulating layer and the wiring are covered with the first electrode so that the first electrode and the wiring are in contact with each other. | 02-04-2010 |
20100059099 | PHOTOELECTRIC CONVERSION DEVICE - An object of the present invention is to provide a simple process to manufacture a wiring connecting photoelectric cells in a photoelectric conversion device. Another object of this invention is to prevent defective rupture from occurring in the said wiring. The photoelectric conversion device comprises a first and a second photoelectric conversion cells comprising respectively a first and a second single crystal semiconductor layers. First electrodes are provided on the downwards surfaces of the first and second photoelectric conversion cells, and second electrodes are provided on their upwards surfaces. The first and second photoelectric conversion cells are fixed onto a support substrate side by side. The second single crystal semiconductor layer has a through hole which reaches the first electrode. The second electrode of the first photoelectric conversion cell is extended to the through hole to be electrically connected to the first electrode of the second photoelectric conversion cell. | 03-11-2010 |
20100071767 | PHOTOELECTRIC CONVERSION DEVICE AND MANUFACTURING METHOD THEREOF - An object is to increase conversion efficiency of a photoelectric conversion device without increase in the manufacturing steps. The photoelectric conversion device includes a first semiconductor layer formed using a single crystal semiconductor having one conductivity type which is formed over a supporting substrate, a buffer layer including a single crystal region and an amorphous region, a second semiconductor layer which includes a single crystal region and an amorphous region and is provided over the buffer layer, and a third semiconductor layer having a conductivity type opposite to the one conductivity type, which is provided over the second semiconductor layer. A proportion of the single crystal region is higher than that of the amorphous region on the first semiconductor layer side in the second semiconductor layer, and the proportion of the amorphous region is higher than that of the single crystal region on the third semiconductor layer side. | 03-25-2010 |
20100072286 | SEMICONDUCTOR DEVICE AND DRIVING METHOD OF THE SAME - The invention provides a semiconductor device including a memory of a simple structure to provide an inexpensive semiconductor device and a driving method thereof. The semiconductor device of the invention includes a phase change memory including a memory cell array having a plurality of memory cells, a control circuit that controls the phase change memory, and an antenna. The memory cell array includes a plurality of bit lines that extend in a first direction and word lines that extend in a second direction perpendicular to the first direction. Each of the plurality of memory cells includes a phase change layer provided between the bit lines and the word lines. In the semiconductor device having the aforementioned structure, one or both of a conductive layer that forms the bit lines and a conductive layer that forms the word lines transmits light. | 03-25-2010 |
20100075455 | FILM FORMATION APPARATUS, METHOD FOR FORMING FILM, AND METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - The present invention relates to a film formation apparatus including a first transfer chamber having a roller for sending a substrate, a film formation chamber having a discharging electrode, a buffer chamber provided between the transfer chamber and the film formation chamber or between the film formation chambers, a slit provided in a portion where the substrate comes in and out in the buffer chamber, and a second transfer chamber having a roller for rewinding the substrate. The slit is provided with at least one touch roller, and the touch roller is in contact with a film formation surface of the substrate. In addition, the present invention also relates to a method for forming a film and a method for manufacturing a photoelectric conversion device that are performed by using such a film formation apparatus. | 03-25-2010 |
20100120226 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - When single crystal semiconductor layers are transposed from a single crystal semiconductor substrate (a bond wafer), the single crystal semiconductor substrate is etched selectively (this step is also referred to as groove processing), and a plurality of single crystal semiconductor layers, which are being divided in size of manufactured semiconductor elements, are transposed to a different substrate (a base substrate). Thus, a plurality of island-shaped single crystal semiconductor layers (SOI layers) can be formed over the base substrate. Further, etching is performed on the single crystal semiconductor layers formed over the base substrate, and the shapes of the SOI layers are controlled precisely by being processed and modified. | 05-13-2010 |
20100129528 | DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - A constitution of the display device of the invention is shown in the following. The display device includes a pixel unit including TFTs of which the active layer contains an organic semiconductor material for forming channel portions in the opening portions in an insulating layer arranged to meet the gale electrodes. The pixel unit further includes a contrast media foamed on the electrodes connected to the TFTs for changing the reflectivity upon the application of an electric field, or microcapsules containing electrically charged particles that change the reflectivity upon the application of an electric field. The pixel unit is sandwiched by plastic substrates, and barrier layers including an inorganic insulating material are provided between the plastic substrates and the pixel unit. The purpose of the present invention is to supply display devices which are excellent in productivity, light in weight and flexible. | 05-27-2010 |
20100129969 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - To provide a highly reliable semiconductor device and a method for manufacturing the semiconductor device, where defects such as a short between a gate electrode layer and a semiconductor layer and a leakage current, which would otherwise be caused due to a coverage defect of the semiconductor layer with an insulating layer, can be prevented. In order to form a plurality of semiconductor elements over an insulating surface, a semiconductor layer is not separated into a plurality of island-shape semiconductor layers, but instead, element isolation regions, which electrically insulate a plurality of element regions functioning as semiconductor elements, are formed in one semiconductor layer, i.e., a first element isolation region with high resistance and a second element isolation region which has a contact with the element region and has a conductivity type opposite to that of the source and drain regions of the element region. | 05-27-2010 |
20100136735 | METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - A method for manufacturing a photoelectric conversion device typified by a solar cell, having an excellent photoelectric conversion characteristic with a silicon semiconductor material effectively utilized. The point is that the surface of a single crystal semiconductor layer bonded to a supporting substrate is irradiated with a pulsed laser beam to become rough. The single crystal semiconductor layer is irradiated with the pulsed laser beam in an atmosphere containing an inert gas and oxygen so that the surface thereof is made rough. With the roughness of surface of the single crystal semiconductor layer, light reflection is suppressed so that incident light can be trapped. Accordingly, even when the thickness of the single crystal semiconductor layer is equal to or greater than 0.1 μm and equal to or less than 10 μm, path length of incident light is substantially increased so that the amount of light absorption can be increased. | 06-03-2010 |
20100156287 | LIGHT EMITTING DEVICE - A light emitting device having a plastic substrate is capable of preventing the substrate from deterioration with the transmission of oxygen or moisture content can be obtained. The light emitting device has light emitting elements formed between a lamination layer and an inorganic compound layer that transmits visual light, where the lamination layer is constructed of one unit or two or more units, and each unit is a laminated structure of a metal layer and an organic compound layer. Alternatively, the light emitting device has light emitting elements formed between a lamination layer and an inorganic compound layer that transmits visual light, where the lamination layer is to constructed of one unit or two or more units, and each unit is a laminated structure of a metal layer and an organic compound layer, wherein the inorganic compound layer is formed so as to cover the end face of the lamination layer. In the present invention, the lamination layer is formed on the primary surface of the plastic substrate, so that a flexible substrate structure can be obtained while preventing the substrate from deterioration with the transmission of oxygen or moisture content. | 06-24-2010 |
20100163865 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display device includes a first wiring functioning as a gate electrode formed over a substrate, a gate insulating film formed over the first wiring, a second wiring and an electrode layer provided over the gate insulating film, and a high-resistance oxide semiconductor layer formed between the second wiring and the electrode layer are included. In the structure, the second wiring is formed using a stack of a low-resistance oxide semiconductor layer and a conductive layer over the low-resistance oxide semiconductor layer, and the electrode layer is formed using a stack of the low-resistance oxide semiconductor layer and the conductive layer which is stacked so that a region functioning as a pixel electrode of the low-resistance oxide semiconductor layer is exposed. | 07-01-2010 |
20100184254 | Method for Manufacturing Semiconductor Device - An object is to provide a method for manufacturing a semiconductor device, in which the number of photolithography steps can be reduced, the manufacturing process can be simplified, and manufacturing can be performed with high yield at low cost. A method for manufacturing a semiconductor device includes the following steps: forming a semiconductor film; irradiating a laser beam by passing the laser beam through a photomask including a shield for shielding the laser beam; subliming a region which has been irradiated with the laser beam through a region in which the shield is not formed in the photomask in the semiconductor film; forming an island-shaped semiconductor film in such a way that a region which is not irradiated with the laser beam is not sublimed because it is a region in which the shield is formed in the photomask; forming a first electrode which is one of a source electrode and a drain electrode and a second electrode which is the other one of the source electrode and the drain electrode; forming a gate insulating film; and forming a gate electrode over the gate insulating film. | 07-22-2010 |
20100187524 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A manufacturing method of a semiconductor device of the present invention includes the steps of forming a stacked body in which a semiconductor film, a gate insulating film, and a first conductive film are sequentially stacked over a substrate; selectively removing the stacked body to form a plurality of island-shaped stacked bodies; forming an insulating film to cover the plurality of island-shaped stacked bodies; removing a part of the insulating film to expose a surface of the first conductive film, such that a surface of the first conductive film almost coextensive with a height of the insulating film; forming a second conductive film over the first conductive film and a left part of the insulating film; forming a resist over the second conductive film; selectively removing the first conductive film and the second conductive film using the resist as a mask. | 07-29-2010 |
20100213470 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF THE SAME - At least part of a semiconductor layer or a semiconductor substrate includes a semiconductor region having a large energy gap. The semiconductor region having a large energy gap is preferably formed from silicon carbide and is provided in a position at least overlapping with a gate electrode provided with an insulating layer between the semiconductor region and the gate electrode. By making a structure in which the semiconductor region is included in a channel formation region, a dielectric breakdown voltage is improved. | 08-26-2010 |
20100213893 | POWER STORAGE DEVICE - In the field of portable electronic devices in the future, portable electronic devices will be desired, which are smaller and more lightweight and can be used for a long time period by one-time charging, as apparent from provision of one-segment partial reception service “1-seg” of terrestrial digital broadcasting that covers the mobile objects such as a cellular phone. Therefore, the need for a power storage device is increased, which is small and lightweight and capable of being charged without receiving power from commercial power. The power storage device includes an antenna for receiving an electromagnetic wave, a capacitor for storing power, and a circuit for controlling store and supply of the power. When the antenna, the capacitor, and the control circuit are integrally formed and thinned, a structural body formed of ceramics or the like is partially used. A circuit for storing power of an electromagnetic wave received at the antenna in a capacitor and a control circuit for arbitrarily discharging the stored power are provided, whereby lifetime of the power storage device can be extended. | 08-26-2010 |
20100221870 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - An IC card is more expensive than a magnetic card, and an electronic tag is also more expensive as a substitute for bar codes. Therefore, the present invention provides an extremely thin integrated circuit that can be mass-produced at low cost unlike a chip of a conventional silicon wafer, and a manufacturing method thereof. One feature of the present invention is that a thin integrated circuit is formed by a formation method that can form a pattern selectively, on a glass substrate, a quartz substrate, a stainless substrate, a substrate made of synthetic resin having flexibility, such as acryl, or the like except for a bulk substrate. Further, another feature of the present invention is that an ID chip in which a thin film integrated circuit and an antenna according to the present invention are mounted is formed. | 09-02-2010 |
20100237373 | Lighting Device - An object of the present invention is to reduce the thickness of a lighting device using an electroluminescent material. Another object of the present invention is to simplify the structure of a lighting device using an electroluminescent material to reduce cost. A light-emitting element having a stacked structure of a first electrode layer, an EL layer, and a second electrode layer is provided over a substrate having an opening in its center, and a first connecting portion and a second connecting portion for supplying electric power to the light-emitting element are provided in the center of the substrate (in the vicinity of the opening provided in the substrate). | 09-23-2010 |
20100237774 | Lighting Device - To reduce the thickness of a lighting device which uses an electroluminescent material and to simplify the structure of a lighting device which uses an electroluminescent material, in the lighting device of the present invention: a terminal electrically connecting a light-emitting element included in the lighting device to the outside is formed over the same surface of a substrate as the light-emitting element; and the terminal is formed at the center of the substrate while the light-emitting element is stacked. In addition, the lighting device has a structure in which the light-emitting element is not easily deteriorated. | 09-23-2010 |
20100238393 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - [Problem] A TFT is manufactured using at least five photomasks in a conventional liquid crystal display device, and therefore the manufacturing cost is high. | 09-23-2010 |
20100259548 | SEMICONDUCTOR DEVICE - The present invention intends to realize a narrow frame of a system on panel. In addition to this, a system mounted on a panel is intended to make higher and more versatile in the functionality. In the invention, on a panel on which a pixel portion (including a liquid crystal element, a light-emitting element) and a driving circuit are formed, integrated circuits that have so far constituted an external circuit are laminated and formed. Specifically, of the pixel portion and the driving circuit on the panel, on a position that overlaps with the driving circuit, any one kind or a plurality of kinds of the integrated circuits is formed by laminating according to a transcription technique. | 10-14-2010 |
20100277443 | Electronic Book - An e-book reader in which destruction of a driver circuit at the time when a flexible panel is handled is inhibited. In addition, an e-book reader having a simplified structure. A plurality of flexible display panels each including a display portion in which display control is performed by a scan line driver circuit and a signal line driver circuit, and a binding portion fastening the plurality of display panels together are included. The signal line driver circuit is provided inside the binding portion, and the scan line driver circuit is provided at the edge of the display panel in a direction perpendicular to the binding portion. | 11-04-2010 |
20100277448 | Display Device - The display device includes: a flexible display panel including a display portion in which scanning lines and signal lines cross each other; a supporting portion for supporting an end portion of the flexible display panel; a signal line driver circuit for outputting a signal to the signal line, which is provided for the supporting portion; and a scanning line driver circuit for outputting a signal to the scanning line, which is provided for a flexible surface of the display panel in a direction which is perpendicular or substantially perpendicular to the supporting portion. | 11-04-2010 |
20100295034 | SEMICONDUCTOR DEVICE - It is an object of the present invention to provide a semiconductor device in which data can be written except when manufacturing the semiconductor device and that counterfeits can be prevented. Moreover, it is another object of the invention to provide an inexpensive semiconductor device including a memory having a simple structure. The semiconductor device includes a field effect transistor formed over a single crystal semiconductor substrate, a first conductive layer formed over the field effect transistor, an organic compound layer formed over the first conductive layer, and a second conductive layer formed over the organic compound layer, and a memory element includes the first conductive layer, the organic compound, and the second conductive layer. According to the above structure, a semiconductor device which can conduct non-contact transmission/reception of data can be provided by possessing an antenna. | 11-25-2010 |
20100297809 | ORGANIC TRANSISTOR, MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE AND ORGANIC TRANSISTOR - It is an object to form a high quality gate insulating film which is dense and has a strong insulation resistance property, and to propose a high reliable organic transistor in which a tunnel leakage current is little. One mode of the organic transistor of the present invention has a step of forming the gate insulating film by forming the conductive layer which becomes the gate electrode activating oxygen (or gas including oxygen) or nitrogen (or gas including nitrogen) or the like using dense plasma in which density of electron is 10 | 11-25-2010 |
20100307559 | PHOTOELECTRIC CONVERSION DEVICE AND METHOD FOR MANUFACTURING THE SAME - An object is to provide a photoelectric conversion device whose mechanical strength is increased without complicating a manufacturing process. The photoelectric conversion device includes a first cell having a photoelectric conversion function, a second cell having a photoelectric conversion function, and a structure body including a fibrous body which firmly attaches the first cell and the second cell. As a result, p-i-n junctions are bonded with the structure body in which the fibrous body is impregnated with an organic resin, which is a so-called prepreg. Thus, a photoelectric conversion device whose mechanical strength is increased can be realized while the manufacturing cost is reduced. | 12-09-2010 |
20100311222 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - When single crystal semiconductor layers are transposed from a single crystal semiconductor substrate (a bond wafer), the single crystal semiconductor substrate is etched selectively (this step is also referred to as groove processing), and a plurality of single crystal semiconductor layers, which are being divided in size of manufactured semiconductor elements, are transposed to a different substrate (a base substrate). Thus, a plurality of island-shaped single crystal semiconductor layers (SOI layers) can be formed over the base substrate. Further, etching is performed on the single crystal semiconductor layers formed over the base substrate, and the shapes of the SOI layers are controlled precisely by being processed and modified. | 12-09-2010 |
20100319188 | MANUFACTURING METHOD OF POWER STORAGE DEVICE - A safe method of manufacturing an electrode of a power storage device even when an alkali metal is used in forming the electrode. A negative electrode is manufactured by forming an alkali metal ion insertion/extraction layer which is a layer capable of alkali metal ion insertion and extraction on a surface of a current collector, forming an alkali metal film under reduced pressure on a surface of the alkali metal ion insertion/extraction layer, ionizing the alkali metal film, and impregnating the alkali metal ion insertion/extraction layer with the ionized alkali metal. | 12-23-2010 |
20110027980 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The semiconductor device has a semiconductor layer, a gate electrode which covers an end portion of the semiconductor layer, and an insulating layer for insulating the semiconductor layer and the gate electrode. The film thickness of the insulating layer which insulates a region where an end portion of the semiconductor layer and the gate electrode overlap each other is thicker than the film thickness of the insulating layer which covers the central portion of the semiconductor layer. | 02-03-2011 |
20110030783 | PHOTOELECTRIC CONVERSION DEVICE AND MANUFACTURING METHOD THEREOF - To provide a photoelectric conversion device whose characteristics are sufficiently improved. The photoelectric conversion device includes: a first electrode; a unit cell having a semiconductor layer exhibiting a first conductivity type, a semiconductor layer having an effect of photoelectric conversion, and a semiconductor layer exhibiting a second conductivity type; and a second electrode. In the semiconductor layer having an effect of photoelectric conversion, crystal grains each grain diameter of which is smaller than a thickness of the semiconductor layer having an effect of photoelectric conversion are aligned in the thickness direction of the semiconductor layer having an effect of photoelectric conversion from the semiconductor layer exhibiting the first conductivity type to the semiconductor layer exhibiting the second conductivity type. | 02-10-2011 |
20110031495 | Liquid Crystal Display Device, Electronic Device Having the Same, and Manufacturing Method of the Same - A liquid crystal display device with improved productivity and a manufacturing method of the same. A liquid crystal display device according to the invention comprises in a region in which a scan line and a data line intersect with each other a first substrate comprising a first thin film transistor using either an amorphous semiconductor or an organic semiconductor for a channel portion, a second substrate, a liquid crystal layer interposed between the first substrate and the second substrate, and a third substrate comprising a second thin film transistor using a crystalline semiconductor for a channel portion. In the liquid crystal display device of the invention, a crystal grain boundary in the crystalline semiconductor extends along the flow of electrons or holes in the second thin film transistor, the first substrate is attached to the second substrate so that the first substrate is exposed, a first region for forming the second thin film transistor and a second region for forming an input terminal and an output terminal are formed on the third substrate, and the short side length of the third substrate is 1 to 6 mm and the short side length of the first region is 0.5 to 1 mm. | 02-10-2011 |
20110039402 | METHOD FOR MANUFACTURING MICROCRYSTALLINE SEMICONDUCTOR FILM AND THIN FILM TRANSISTOR - A microcrystalline semiconductor film with high crystallinity is manufactured. In addition, a thin film transistor with excellent electric characteristics and high reliability, and a display device including the thin film transistor are manufactured with high productivity. A deposition gas containing silicon or germanium is introduced from an electrode including a plurality of projecting portions provided in a treatment chamber of a plasma CVD apparatus, glow discharge is caused by supplying high-frequency power, and thereby crystal particles are formed over a substrate, and a microcrystalline semiconductor film is formed over the crystal particles by a plasma CVD method. | 02-17-2011 |
20110057628 | POWER STORAGE DEVICE - In the field of portable electronic devices in the future, portable electronic devices will be desired, which are smaller and more lightweight and can be used for a long time period by one-time charging, as apparent from provision of one-segment partial reception service “1-seg” of terrestrial digital broadcasting that covers the mobile objects such as a cellular phone. Therefore, the need for a power storage device is increased, which is small and lightweight and capable of being charged without receiving power from commercial power. The power storage device includes an antenna for receiving an electromagnetic wave, a capacitor for storing power, and a circuit for controlling store and supply of the power. When the antenna, the capacitor, and the control circuit are integrally formed and thinned, a structural body formed of ceramics or the like is partially used. A circuit for storing power of an electromagnetic wave received at the antenna in a capacitor and a control circuit for arbitrarily discharging the stored power are provided, whereby lifetime of the power storage device can be extended. | 03-10-2011 |
20110062461 | ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE - An organic EL display device of active matrix type wherein insulated-gate field effect transistors formed on a single-crystal semiconductor substrate are overlaid with an organic EL layer; characterized in that the single-crystal semiconductor substrate ( | 03-17-2011 |
20110068438 | SEMICONDUCTOR DEVICE - In inlets used for ID tags and the like, a defective connection between an integrated circuit part and an antenna is suppressed by improvement of tolerance for a bending or a pressing pressure. The integrated circuit part includes a semiconductor chip and a multilayer substrate having a concave portion. The semiconductor chip is mounted on the bottom of the concave portion. The multilayer substrate includes a connection electrode at the top surface and a connection electrode connected to the semiconductor chip on the bottom of the concave portion. The connection electrode on the bottom of the concave portion is connected to the connection electrode at the top surface by a penetration electrode inside a multilayer substrate. By such a configuration, the semiconductor chip is connected to the antenna. | 03-24-2011 |
20110086475 | SEMICONDUCTOR DEVICE, AND MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - In order to form a plurality of semiconductor elements over an insulating surface, in one continuous semiconductor layer, an element region serving as a semiconductor element and an element isolation region having a function to electrically isolate element regions from each other by repetition of PN junctions. The element isolation region is formed by selective addition of an impurity element of at least one or more kinds of oxygen, nitrogen, and carbon and an impurity element that imparts an opposite conductivity type to that of the adjacent element region in order to electrically isolate elements from each other in one continuous semiconductor layer. | 04-14-2011 |
20110124151 | PHOTOVOLTAIC DEVICE AND METHOD FOR MANUFACTURING THE SAME - It is the gist of the present invention to provide a photovoltaic device in which a single crystal semiconductor layer provided over a substrate having an insulating surface or an insulating substrate is used as a photoelectric conversion layer, and the single crystal semiconductor layer is provided with a so-called SOI structure where the single crystal semiconductor layer is bonded to the substrate with an insulating layer interposed therebetween. As the single crystal semiconductor layer having a function as a photoelectric conversion layer, a single crystal semiconductor layer obtained by separation and transfer of an outer layer portion of a single crystal semiconductor substrate is used. | 05-26-2011 |
20110180811 | WIRELESS CHIP AND ELECTRONIC DEVICE HAVING WIRELESS CHIP - It is an object to provide a wireless chip which can increase a mechanical strength, and a wireless chip with a high durability. A wireless chip includes a transistor including a field-effect transistor, an antenna including a dielectric layer sandwiched between conductive layers, and a conductive layer connecting the chip and the antenna. Further, a wireless chip includes a transistor including a field-effect transistor, an antenna including a dielectric layer sandwiched between conductive layers, a sensor device, a conductive layer connecting the chip and the antenna, and a conductive layer connecting the chip and the sensor device. Moreover, a wireless chip includes a transistor including a field-effect transistor, an antenna including a dielectric layer sandwiched between conductive layers, a battery, a conductive layer connecting the chip and the antenna, and a conductive layer connecting the chip and the battery. | 07-28-2011 |
20110193081 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device including an oxide semiconductor in which miniaturization is achieved while favorable characteristics are maintained. The semiconductor includes an oxide semiconductor layer, a source electrode and a drain electrode in contact with the oxide semiconductor layer, a gate electrode overlapping with the oxide semiconductor layer, a gate insulating layer provided between the oxide semiconductor layer and the gate electrode, and an insulating layer provided in contact with the oxide semiconductor layer. A side surface of the oxide semiconductor layer is in contact with the source electrode or the drain electrode. An upper surface of the oxide semiconductor layer overlaps with the source electrode or the drain electrode with the insulating layer interposed between the oxide semiconductor layer and the source electrode or the drain electrode. | 08-11-2011 |
20110201141 | LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD OF LIQUID CRYSTAL DISPLAY DEVICE - To sophisticate a portable electronic appliance without hindering reduction of the weight and the size, more specifically, to sophisticate a liquid crystal display apparatus installed in a portable electronic appliance without hindering the mechanical strength, a liquid crystal display apparatus includes a first plastic substrate, a light-emitting device which is disposed over the first plastic substrate, resin which covers the light-emitting device, an insulating film which is in contact with the resin, a semiconductor device which is in contact with the insulating film, a liquid crystal cell which is electrically connected to the semiconductor device, and a second plastic substrate, wherein the semiconductor device and the liquid crystal cell are disposed between the first plastic substrate and the second plastic substrate. | 08-18-2011 |
20110204360 | Photoelectric Conversion Device And Manufacturing Method Thereof - In order to form a metal thin film, a silicide film, or the like between an upper-layer unit cell and a lower-layer unit cell in stacked-layer photoelectric conversion devices, a step of forming the thin film is additionally needed. Therefore, a problem such as decline in productivity of the photoelectric conversion devices occurs. A first unit cell including a single crystal semiconductor layer with a thickness of 10 μm or less as a photoelectric conversion layer and a second unit cell including a non-single-crystal semiconductor layer as a photoelectric conversion layer, which is provided over the first unit cell, are at least included, and conductive clusters are dispersed between the unit cells. The conductive clusters are located between the lower-layer unit cell and the upper-layer unit cell to form an ohmic contact; thus, current flows between the both unit cells. | 08-25-2011 |
20110223966 | THIN FILM INTEGRATED CIRCUIT DEVICE, IC LABEL, CONTAINER COMPRISING THE THIN FILM INTEGRATED CIRCUIT, MANUFACTURING METHOD OF THE THIN FILM INTEGRATED CIRCUIT DEVICE, MANUFACTURING METHOD OF THE CONTAINER, AND MANAGEMENT METHOD OF PRODUCT HAVING THE CONTAINER - The present invention provides an ultrathin thin film integrated circuit and a thin film integrated circuit device including the thin film integrated circuit device. Accordingly, the design of a product is not spoilt while an integrated circuit formed from a silicon wafer, which is thick and produces irregularities on the surface of the product container. The thin film integrated circuit according to the present invention includes a semiconductor film as an active region (for example a channel region in a thin film transistor), unlike an integrated circuit formed from a conventional silicon wafer. The thin film integrated circuit according to the present invention is thin enough that the design is not spoilt even when a product such as a card or a container is equipped with the thin film integrated circuit. | 09-15-2011 |
20110232571 | FILM FORMATION APPARATUS, METHOD FOR FORMING FILM, AND METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - The present invention relates to a film formation apparatus including a first transfer chamber having a roller for sending a substrate, a film formation chamber having a discharging electrode, a buffer chamber provided between the transfer chamber and the film formation chamber or between the film formation chambers, a slit provided in a portion where the substrate comes in and out in the buffer chamber, and a second transfer chamber having a roller for rewinding the substrate. The slit is provided with at least one touch roller, and the touch roller is in contact with a film formation surface of the substrate. In addition, the present invention also relates to a method for forming a film and a method for manufacturing a photoelectric conversion device that are performed by using such a film formation apparatus. | 09-29-2011 |
20110235162 | DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - A constitution of the display device of the invention is shown in the following. The display device includes a pixel unit including TFTs of which the active layer contains an organic semiconductor material for forming channel portions in the opening portions in an insulating layer arranged to meet the gate electrodes. The pixel unit further includes a contrast media formed on the electrodes connected to the TFTs for changing the reflectivity upon the application of an electric field, or microcapsules containing electrically charged particles that change the reflectivity upon the application of an electric field. The pixel unit is sandwiched by plastic substrates, and barrier layers including an inorganic insulating material are provided between the plastic substrates and the pixel unit. The purpose of the present invention is to supply display devices which are excellent in productivity, light in weight and flexible. | 09-29-2011 |
20110248089 | PAPER MONEY, COIN, VALUABLE INSTRUMENT, CERTIFICATES, TAG, LABEL, CARD, PACKING CONTAINERS, DOCUMENTS, RESPECTIVELY INSTALLED WITH INTEGRATED CIRCUIT - Although a product having such the IC chip has been diffused, information on the product may be capable of being perceived, abstracted, falsified, or the like by a third person with his external device during distribution of the product or after purchase of the product. Further, privacy may be seriously infringed. Paper money, various products, and the like are disclosed according to the present invention with an integrated circuit device having a switching memory for controlling reading and writing of information (lock/unlock of information) in order to protect the information recorded and stored in the integrated circuit such as an IC chip installed to the product or the like. | 10-13-2011 |
20110260160 | Method for Manufacturing Semiconductor Device - An object is to provide a method for manufacturing a semiconductor device, in which the number of photolithography steps can be reduced, the manufacturing process can be simplified, and manufacturing can be performed with high yield at low cost. A method for manufacturing a semiconductor device includes the following steps: forming a semiconductor film; irradiating a laser beam by passing the laser beam through a photomask including a shield for shielding the laser beam; subliming a region which has been irradiated with the laser beam through a region in which the shield is not formed in the photomask in the semiconductor film; forming an island-shaped semiconductor film in such a way that a region which is not irradiated with the laser beam is not sublimed because it is a region in which the shield is formed in the photomask; forming a first electrode which is one of a source electrode and a drain electrode and a second electrode which is the other one of the source electrode and the drain electrode; forming a gate insulating film; and forming a gate electrode over the gate insulating film. | 10-27-2011 |
20110284974 | SEMICONDUCTOR DEVICE - An object of the present invention is providing a semiconductor device that is capable of improving the reliability of a semiconductor element and enhancing the mechanical strength without suppressing the scale of a circuit. The semiconductor device includes an integrated circuit sandwiched between first and second sealing films, an antenna electrically connected to the integrated circuit, the first sealing film sandwiched between a substrate and the integrated circuit, which includes a plurality of first insulating films and at least one second insulating film sandwiched therebetween, the second sealing film including a plurality of third insulating films and at least one fourth insulating film sandwiched therebetween. The second insulating film has lower stress than the first insulting film and the fourth insulating film has lower stress than the third insulating film. The first and third insulating films are inorganic insulating films. | 11-24-2011 |
20110306162 | PHOTOVOLTAIC DEVICE AND METHOD FOR MANUFACTURING THE SAME - A photovoltaic device uses a single crystal or polycrystalline semiconductor layer which is separated from a single crystal or polycrystalline semiconductor substrate as a photoelectric conversion layer and has a SOI structure in which the semiconductor layer is bonded to a substrate having an insulating surface or an insulating substrate. A single crystal semiconductor layer which is a separated surface layer part of a single crystal semiconductor substrate and is transferred is used as a photoelectric conversion layer and includes an impurity semiconductor layer to which hydrogen or halogen is added on a light incidence surface or on an opposite surface. The semiconductor layer is fixed to a substrate having an insulating surface or an insulating substrate. | 12-15-2011 |
20110308591 | Photoelectric Conversion Device and Manufacturing Method Thereof - A photoelectric conversion device with a novel anti-reflection structure. In the photoelectric conversion device, a front surface of a semiconductor substrate which serves as a light-receiving surface is covered with a group of whiskers (a group of nanowires) so that surface reflection is reduced. In other words, a semiconductor layer which has a front surface where crystals grow so that whiskers are formed is provided on the light-receiving surface side of the semiconductor substrate. The semiconductor layer has a given uneven structure, and thus has effects of reducing reflection on the front surface of the semiconductor substrate and increasing conversion efficiency. | 12-22-2011 |
20110308935 | METHOD OF MANUFACTURING POWER STORAGE DEVICE - An object is to provide a method of manufacturing a lithium-ion secondary battery suitable for mass production. A lithium-ion secondary battery is manufactured in such a manner that a positive electrode layer is formed on a base including a plane by chemical vapor deposition which is specifically metal-organic chemical vapor deposition, an electrolyte layer is formed on the positive electrode layer, and a negative electrode layer is formed on the electrolyte layer. The positive electrode layer is formed with a MOCVD apparatus. The MOCVD apparatus is an apparatus with which a liquid or a solid of an organic metal raw material is vaporized to produce a gas and the gas is reacted to undergo pyrolysis so that a film is formed. By forming all the layers using sputtering, evaporation, or chemical vapor deposition, a solid lithium-ion secondary battery can also be realized. | 12-22-2011 |
20120017984 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device is provided, which comprises a first electrode, crystalline semiconductor particles, a semiconductor layer, and a second electrode. The crystalline semiconductor particles of which adjacent particles are fusion-bonded, the crystalline semiconductor particles have a first conductivity type, and the semiconductor layer has a second conductivity type which is different from the first conductivity type. | 01-26-2012 |
20120032966 | SEMICONDUCTOR DEVICE - The present invention intends to realize a narrow frame of a system on panel. In addition to this, a system mounted on a panel is intended to make higher and more versatile in the functionality. In the invention, on a panel on which a pixel portion (including a liquid crystal element, a light-emitting element) and a driving circuit are formed, integrated circuits that have so far constituted an external circuit are laminated and formed. Specifically, of the pixel portion and the driving circuit on the panel, on a position that overlaps with the driving circuit, any one kind or a plurality of kinds of the integrated circuits is formed by laminating according to a transcription technique. | 02-09-2012 |
20120098086 | SOI SUBSTRATE AND METHOD FOR MANUFACTURING SOI SUBSTRATE - An SOI substrate and a manufacturing method of the SOI substrate, by which enlargement of the substrate is possible and its productivity can be increased, are provided. A step (A) of cutting a first single crystal silicon substrate to form a second single crystal silicon substrate which has a chip size; a step (B) of forming an insulating layer on one surface of the second single crystal silicon substrate, and forming an embrittlement layer in the second single crystal substrate; and a step (C) of bonding a substrate having an insulating surface and the second single crystal silicon substrate with the insulating layer therebetween, and conducting heat treatment to separate the second single crystal silicon substrate along the embrittlement layer, and forming a single crystal silicon thin film on the substrate having an insulating surface, are conducted. | 04-26-2012 |
20120112192 | POWER STORAGE DEVICE - A semiconductor device comprises a thin film transistor provided over a substrate having an insulating surface, and an electrode penetrating the substrate. The thin film transistor is provided between a first structural body and a second structural body, which has a higher rigidity than the first structural body, which serve as protectors because the structural bodies have resistance to a pressing force such as a tip of a pen or bending stress applied from outside so malfunction due to the pressing force and the bending stress can be prevented. | 05-10-2012 |
20120112692 | Wireless Power Supply System and Wireless Power Supply Method - An object is to provide a system for improving convenience for users, by which a portable electronic device or the like can be charged even in a place where utility power is not available. Another object is to provide a system which allows a service provider to easily perform customer management. A wireless power supply system includes a power storage device having a power storage portion, a terminal charging device for wirelessly supplying electric power to the power storage device, and a management server having user information. Electric power can be supplied to specified users by intercommunication of user information between the power storage device and the terminal charging device and between the terminal charging device and the management server. | 05-10-2012 |
20120115283 | WIRING SUBSTRATE, SEMICONDUCTOR DEVICE, AND METHOD FOR MANUFACTURING THEREOF - The present invention provides a thin wiring pattern such as wiring formed by discharging a droplet. In the present invention, a porous (including microporous) substance is formed as a base film in forming pattern by using a droplet discharge method (also referred to as an ink-jetting method). One feature of a wiring substrate according to the present invention provides a porous film and a conductive layer thereon. One feature of a semiconductor device of the present invention provides a thin film transistor in which a gate electrode is formed by the conductive layer having the above-described structure. | 05-10-2012 |
20120119251 | LIGHTING DEVICE - An object of the invention is to provide a lighting device which can suppress luminance nonuniformity in a light emitting region when the lighting device has large area. A layer including a light emitting material is formed between a first electrode and a second electrode, and a third electrode is formed to connect to the first electrode through an opening formed in the second electrode and the layer including a light emitting material. An effect of voltage drop due to relatively high resistivity of the first electrode can be reduced by electrically connecting the third electrode to the first electrode through the opening. | 05-17-2012 |
20120126224 | SEMICONDUCTOR MEMORY DEVICE - An object is to provide a semiconductor memory device which can be miniaturized and also secures a sufficient margin for the refresh period. A memory cell includes a reading transistor, a writing transistor, and a capacitor. In the above structure, the capacitor controls a potential applied to a gate of the reading transistor. The writing transistor controls writing and erasing of data and, when the transistor is off, has small current so that loss of electric charges stored in the capacitor, which is due to leakage current of the writing transistor, can be prevented. A semiconductor layer included in the writing transistor is provided so as to extend from the gate electrode toward a source region of the reading transistor. The capacitor is provided to overlap with the gate electrode of the reading transistor. | 05-24-2012 |
20120164761 | METHOD FOR MANUFACTURING LIGHTING DEVICE - An object is to provide a method for manufacturing a lighting device, in which a problem of a short circuit between an upper electrode and a lower electrode of a light-emitting element is solved without reducing a light-emitting property of a normal portion of the light-emitting element to the utmost. In a light-emitting element including an upper electrode, an electroluminescent layer, and a lower electrode, a short-circuited portion that is undesirably formed between the upper electrode and the lower electrode is irradiated with a laser beam, whereby a region where the short-circuited portion is removed is formed, and then the region is filled with an insulating resin having a light-transmitting property. Thus, the problem of the short circuit between the upper electrode and the lower electrode is solved and yield of a lighting device is improved. | 06-28-2012 |
20120168776 | LIGHT-EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - To prevent a point defect and a line defect in forming a light-emitting device, thereby improving the yield. A light-emitting element and a driver circuit of the light-emitting element, which are provided over different substrates, are electrically connected. That is, a light-emitting element and a driver circuit of the light-emitting element are formed over different substrates first, and then electrically connected. By providing a light-emitting element and a driver circuit of the light-emitting element over different substrates, the step of forming the light-emitting element and the step of forming the driver circuit of the light-emitting element can be performed separately. Therefore, degrees of freedom of each step can be increased, and the process can be flexibly changed. Further, steps (irregularities) on the surface for forming the light-emitting element can be reduced than in the conventional technique. | 07-05-2012 |
20120175659 | LIGHT EMITTING DEVICE - A light emitting device having a plastic substrate is capable of preventing the substrate from deterioration with the transmission of oxygen or moisture content. The light emitting device has light emitting elements formed between a lamination layer and an inorganic compound layer that transmits visual light, where the lamination layer is constructed of one unit or two or more units, and each unit is a laminated structure of a metal layer and an organic compound layer. Alternatively, each unit is a laminated structure of a metal layer and an organic compound layer, wherein the inorganic compound layer is formed so as to cover the end face of the lamination layer. In the present invention, the lamination layer is formed on the primary surface of the plastic substrate, so that a flexible substrate structure can be obtained. | 07-12-2012 |
20120175753 | THIN SEMICONDUCTOR DEVICE AND OPERATION METHOD OF THIN SEMICONDUCTOR DEVICE - The present invention provides a thin semiconductor device in which its security such as prevention of counterfeit or information leakage is to be enhanced. One feature of the present invention is a thin semiconductor device in which a plurality of thin film integrated circuits are mounted and in which at least one integrated circuit is different from the other integrated circuits in any one of a specification, layout, frequency for transmission or reception, a memory, a communication means, a communication rule and the like. According to the present invention, a thin semiconductor device tag having the plurality of thin film integrated circuits communicates with a reader/writer and at least one of the thin film integrated circuits receives a signal to write information in a memory, and the information written in the memory determines which of the thin film integrated circuits communicates. | 07-12-2012 |
20120193694 | WIRELESS CHIP AND ELECTRONIC APPLIANCE HAVING THE SAME - The present invention provides a wireless chip having high mechanical strength. Moreover, the present invention also provides a wireless chip which can prevent an electric wave from being blocked. In a wireless chip of the present invention, a layer having a thin film transistor formed over an insulating substrate is fixed to an antenna by an anisotropic conductive adhesive, and the thin film transistor is connected to the antenna. The antenna has a dielectric layer, a first conductive layer, and a second conductive layer; the first conductive layer and the second conductive layer has the dielectric layer therebetween; the first conductive layer serves as a radiating electrode; and the second electrode serves as a ground contact body. | 08-02-2012 |
20120194756 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - The number of photolithography steps used for manufacturing a transistor is reduced to less than the conventional one and a highly reliable semiconductor device is provided. The present invention relates to a semiconductor device including a circuit including a transistor having an oxide semiconductor layer over a first substrate and a second substrate fixed to the first substrate with a sealant. A closed space surrounded by the sealant, the first substrate, and the second substrate is in a reduced pressure state or filled with dry air. The sealant surrounds at least the transistor and has a closed pattern shape. Further, the circuit is a driver circuit including a transistor having an oxide semiconductor layer. | 08-02-2012 |
20120220062 | LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD OF LIQUID CRYSTAL DISPLAY DEVICE - To sophisticate a portable electronic appliance without hindering reduction of the weight and the size, more specifically, to sophisticate a liquid crystal display apparatus installed in a portable electronic appliance without hindering the mechanical strength, a liquid crystal display apparatus includes a first plastic substrate, a light-emitting device which is disposed over the first plastic substrate, resin which covers the light-emitting device, an insulating film which is in contact with the resin, a semiconductor device which is in contact with the insulating film, a liquid crystal cell which is electrically connected to the semiconductor device, and a second plastic substrate, wherein the semiconductor device and the liquid crystal cell are disposed between the first plastic substrate and the second plastic substrate. | 08-30-2012 |
20120256896 | DISPLAY MODULE, AND CELLULAR PHONE AND ELECTRONIC DEVICE PROVIDED WITH DISPLAY MODULE - It is an object to achieve downsizing and a thin shape of a display module and an electronic device provided with the display module. The display module includes a first display panel in which a first display screen is formed on one main side; and a second display panel that is smaller than and overlapped with the first display panel, in which a second display screen is formed on an opposite side of the one main side. The display module includes, over a sealing substrate of the first display panel and/or the second display panel, at least one integrated circuit, which is connected to input terminals of the first display panel and the second display panel and controls operation of the both panels, arranged in a peripheral portion of the second display panel, which is a surface on an opposite side of a display surface of the first display panel. | 10-11-2012 |
20120276690 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a method for manufacturing a semiconductor device, by which a transistor including an active layer, a gate insulating film in contact with the active layer, and a gate electrode overlapping the active layer with the gate insulating film therebetween is provided; an impurity is added to a part of a first region overlapped with the gate electrode with the gate insulating film therebetween in the active layer and a second region but the first region in the active layer by adding the impurity to the active layer from one oblique direction; and the second region is situated in the one direction relative to the first region. | 11-01-2012 |
20120299001 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - [Problem]A TFT is manufactured using at least five photomasks in a conventional liquid crystal display device, and therefore the manufacturing cost is high. | 11-29-2012 |
20120299705 | PRODUCT MANAGEMENT SYSTEM - One feature of the present invention is a product management system that includes a package body for packing a product attached with an ID tag, and a reader/writer. The ID tag includes a thin film integrated circuit portion and an antenna, the package body includes a resonance circuit portion having an antenna coil and a capacitor, and the resonance circuit portion can communicate with the reader/writer and the ID tag. Accordingly, the stability of communication between an ID tag attached to a product and an R/W can be secured, and management of products can be conducted simply and efficiently, even if a product is packed by a package body. | 11-29-2012 |
20130001635 | LIGHTING DEVICE - An object of the invention is to provide a lighting device which can suppress luminance nonuniformity in a light emitting region when the lighting device has large area. A layer including a light emitting material is formed between a first electrode and a second electrode, and a third electrode is formed to connect to the first electrode through an opening formed in the second electrode and the layer including a light emitting material. An effect of voltage drop due to relatively high resistivity of the first electrode can be reduced by electrically connecting the third electrode to the first electrode through the opening. | 01-03-2013 |
20130009289 | SEMICONDUCTOR DEVICE - An object of the present invention is providing a semiconductor device that is capable of improving the reliability of a semiconductor element and enhancing the mechanical strength without suppressing the scale of a circuit. The semiconductor device includes an integrated circuit sandwiched between first and second sealing films, an antenna electrically connected to the integrated circuit, the first sealing film sandwiched between a substrate and the integrated circuit, which includes a plurality of first insulating films and at least one second insulating film sandwiched therebetween, the second sealing film including a plurality of third insulating films and at least one fourth insulating film sandwiched therebetween. The second insulating film has lower stress than the first insulting film and the fourth insulating film has lower stress than the third insulating film. The first and third insulating films are inorganic insulating films. | 01-10-2013 |
20130105784 | ORGANIC TRANSISTOR, MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE AND ORGANIC TRANSISTOR | 05-02-2013 |
20130130447 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF THE SAME - At least part of a semiconductor layer or a semiconductor substrate includes a semiconductor region having a large energy gap. The semiconductor region having a large energy gap is preferably formed from silicon carbide and is provided in a position at least overlapping with a gate electrode provided with an insulating layer between the semiconductor region and the gate electrode. By making a structure in which the semiconductor region is included in a channel formation region, a dielectric breakdown voltage is improved. | 05-23-2013 |
20130161623 | SEMICONDUCTOR DEVICE - The present invention intends to realize a narrow flame of a system on panel. In addition to this, a system mounted on a panel is intended to make higher and more versatile in the functionality. In the invention, on a panel on which a pixel portion (including a liquid crystal element, a light-emitting element) and a driving circuit are formed, integrated circuits that have so far constituted an external circuit are laminated and formed. Specifically, of the pixel portion and the driving circuit on the panel, on a position that overlaps with the driving circuit, any one kind or a plurality of kinds of the integrated circuits is formed by laminating according to a transcription technique. | 06-27-2013 |
20130181955 | Display Device - The display device includes: a flexible display panel including a display portion in which scanning lines and signal lines cross each other; a supporting portion for supporting an end portion of the flexible display panel; a signal line driver circuit for outputting a signal to the signal line, which is provided for the supporting portion; and a scanning line driver circuit for outputting a signal to the scanning line, which is provided for a flexible surface of the display panel in a direction which is perpendicular or substantially perpendicular to the supporting portion. | 07-18-2013 |
20130193473 | Lighting Device - An object of the present invention is to reduce the thickness of a lighting device using an electroluminescent material. Another object of the present invention is to simplify the structure of a lighting device using an electroluminescent material to reduce cost. A light-emitting element having a stacked structure of a first electrode layer, an EL layer, and a second electrode layer is provided over a substrate having an opening in its center, and a first connecting portion and a second connecting portion for supplying electric power to the light-emitting element are provided in the center of the substrate (in the vicinity of the opening provided in the substrate). | 08-01-2013 |
20130207112 | SEMICONDUCTOR DEVICE - A semiconductor device having a novel structure is provided in which a transistor including an oxide semiconductor and a transistor including a semiconductor material which is not an oxide semiconductor are stacked. Further, a semiconductor device in which a semiconductor element and a capacitor are formed efficiently is provided. In a semiconductor device, a first semiconductor element layer including a transistor formed using a semiconductor material which is not an oxide semiconductor, such as silicon, and a second semiconductor element layer including a transistor formed using an oxide semiconductor are stacked. A capacitor is formed using a wiring layer, or a conductive film or an insulating film which is in the same layer as a conductive film or an insulating film of the second semiconductor element layer. | 08-15-2013 |
20130228839 | SEMICONDUCTOR MEMORY DEVICE - To provide a highly integrated semiconductor memory device. To provide a semiconductor memory device which can hold stored data even when power is not supplied. To provide a semiconductor memory device which has a large number of write cycles. The degree of integration of a memory cell array is increased by forming a memory cell including two transistors and one capacitor which are arranged three-dimensionally. The electric charge accumulated in the capacitor is prevented from being leaking by forming a transistor for controlling the amount of electric charge of the capacitor in the memory cell using a wide-gap semiconductor having a wider band gap than silicon. Accordingly, a semiconductor memory device which can hold stored data even when power is not supplied can be provided. | 09-05-2013 |
20130234136 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display device includes a first wiring functioning as a gate electrode formed over a substrate, a gate insulating film formed over the first wiring, a second wiring and an electrode layer provided over the gate insulating film, and a high-resistance oxide semiconductor layer formed between the second wiring and the electrode layer are included. In the structure, the second wiring is formed using a stack of a low-resistance oxide semiconductor layer and a conductive layer over the low-resistance oxide semiconductor layer, and the electrode layer is formed using a stack of the low-resistance oxide semiconductor layer and the conductive layer which is stacked so that a region functioning as a pixel electrode of the low-resistance oxide semiconductor layer is exposed. | 09-12-2013 |
20130285031 | LIGHT EMITTING DEVICE - A light emitting device having a plastic substrate is capable of preventing the substrate from deterioration with the transmission of oxygen or moisture content. The light emitting device has light emitting elements formed between a lamination layer and an inorganic compound layer that transmits visual light, where the lamination layer is constructed of one unit or two or more units, and each unit is a laminated structure of a metal layer and an organic compound layer. Alternatively, each unit is a laminated structure of a metal layer and an organic compound layer, wherein the inorganic compound layer is formed so as to cover the end face of the lamination layer. In the present invention, the lamination layer is formed on the primary surface of the plastic substrate, so that a flexible substrate structure can be obtained. | 10-31-2013 |
20130314346 | Electronic Book - An e-book reader in which destruction of a driver circuit at the time when a flexible panel is handled is inhibited. In addition, an e-book reader having a simplified structure. A plurality of flexible display panels each including a display portion in which display control is performed by a scan line driver circuit and a signal line driver circuit, and a binding portion fastening the plurality of display panels together are included. The signal line driver circuit is provided inside the binding portion, and the scan line driver circuit is provided at the edge of the display panel in a direction perpendicular to the binding portion. | 11-28-2013 |
20140014954 | SEMICONDUCTOR DEVICE - An object is to provide a semiconductor device including an oxide semiconductor in which miniaturization is achieved while favorable characteristics are maintained. The semiconductor includes an oxide semiconductor layer, a source electrode and a drain electrode in contact with the oxide semiconductor layer, a gate electrode overlapping with the oxide semiconductor layer, a gate insulating layer provided between the oxide semiconductor layer and the gate electrode, and an insulating layer provided in contact with the oxide semiconductor layer. A side surface of the oxide semiconductor layer is in contact with the source electrode or the drain electrode. An upper surface of the oxide semiconductor layer overlaps with the source electrode or the drain electrode with the insulating layer interposed between the oxide semiconductor layer and the source electrode or the drain electrode. | 01-16-2014 |
20140085707 | DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - A constitution of the display device of the invention is shown in the following. The display device includes a pixel unit including TFTs of which the active layer contains an organic semiconductor material for forming channel portions in the opening portions in an insulating layer arranged to meet the gate electrodes. The pixel unit further includes a contrast media formed on the electrodes connected to the TFTs for changing the reflectivity upon the application of an electric field, or microcapsules containing electrically charged particles that change the reflectivity upon the application of an electric field. The pixel unit is sandwiched by plastic substrates, and barrier layers including an inorganic insulating material are provided between the plastic substrates and the pixel unit. The purpose of the present invention is to supply display devices which are excellent in productivity, light in weight and flexible. | 03-27-2014 |
20140117369 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - An active matrix display device having a pixel structure in which pixel electrodes, gate wirings and source wirings are suitably arranged in the pixel portions to realize a high numerical aperture without increasing the number of masks or the number of steps. The device comprises a gate electrode and a source wiring on an insulating surface, a first insulating layer on the gate electrode and on the source wiring, a semiconductor layer on the first insulating film, a second insulating layer on the semiconductor film, a gate wiring connected to the gate electrode on the second insulating layer, a connection electrode for connecting the source wiring and the semiconductor layer together, and a pixel electrode connected to the semiconductor layer. | 05-01-2014 |
20140124779 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display device includes a first wiring functioning as a gate electrode formed over a substrate, a gate insulating film formed over the first wiring, a second wiring and an electrode layer provided over the gate insulating film, and a high-resistance oxide semiconductor layer formed between the second wiring and the electrode layer are included. In the structure, the second wiring is formed using a stack of a low-resistance oxide semiconductor layer and a conductive layer over the low-resistance oxide semiconductor layer, and the electrode layer is formed using a stack of the low-resistance oxide semiconductor layer and the conductive layer which is stacked so that a region functioning as a pixel electrode of the low-resistance oxide semiconductor layer is exposed. | 05-08-2014 |
20140134771 | Light Emitting Device and Method of Manufacturing the Same - It is an object of the present invention to provide a high-contrast light-emitting device without using a polarization plate. In particular, it is an object of the present invention to make contrast control simpler for a light-emitting device provided with a color filter. | 05-15-2014 |
20140145174 | LIGHT EMITTING DEVICE - A light emitting device having a plastic substrate is capable of preventing the substrate from deterioration with the transmission of oxygen or moisture content can be obtained. The light emitting device has light emitting elements formed between a lamination layer and an inorganic compound layer that transmits visual light, where the lamination layer is constructed of one unit or two or more units, and each unit is a laminated structure of a metal layer and an organic compound layer. Alternatively, the light emitting device has light emitting elements formed between a lamination layer and an inorganic compound layer that transmits visual light, where the lamination layer is constructed of one unit or two or more units, and each unit is a laminated structure of a metal layer and an organic compound layer, wherein the inorganic compound layer is formed so as to cover the end face of the lamination layer. In the present invention, the lamination layer is formed on the primary surface of the plastic substrate, so that a flexible substrate structure can be obtained while preventing the substrate from deterioration with the transmission of oxygen or moisture content. | 05-29-2014 |
20140217414 | POWER STORAGE DEVICE - A semiconductor device comprises a thin film transistor provided over a substrate having an insulating surface, and an electrode penetrating the substrate. The thin film transistor is provided between a first structural body and a second structural body, which has a higher rigidity than the first structural body, which serve as protectors because the structural bodies have resistance to a pressing force such as a tip of a pen or bending stress applied from outside so malfunction due to the pressing force and the bending stress can be prevented. | 08-07-2014 |
20140218652 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - [Problem] A TFT is manufactured using at least five photomasks in a conventional liquid crystal display device, and therefore the manufacturing cost is high. | 08-07-2014 |
20140240175 | WIRELESS CHIP AND ELECTRONIC DEVICE HAVING WIRELESS CHIP - It is an object to provide a wireless chip which can increase a mechanical strength, and a wireless chip with a high durability. A wireless chip includes a transistor including a field-effect transistor, an antenna including a dielectric layer sandwiched between conductive layers, and a conductive layer connecting the chip and the antenna. Further, a wireless chip includes a transistor including a field-effect transistor, an antenna including a dielectric layer sandwiched between conductive layers, a sensor device, a conductive layer connecting the chip and the antenna, and a conductive layer connecting the chip and the sensor device. Moreover, a wireless chip includes a transistor including a field-effect transistor, an antenna including a dielectric layer sandwiched between conductive layers, a battery, a conductive layer connecting the chip and the antenna, and a conductive layer connecting the chip and the battery. | 08-28-2014 |
20140319684 | SEMICONDUCTOR DEVICE AND ELECTRONIC DEVICE HAVING THE SAME - It is an object of the present invention to provide a wireless chip of which mechanical strength can be increased. Moreover, it is an object of the present invention to provide a wireless chip which can prevent an electric wave from being blocked. The invention is a wireless chip in which a layer having a thin film transistor is fixed to an antenna by an anisotropic conductive adhesive or a conductive layer, and the thin film transistor is connected to the antenna. The antenna has a dielectric layer, a first conductive layer, and a second conductive layer. The dielectric layer is sandwiched between the first conductive layer and the second conductive layer. The first conductive layer serves as a radiating electrode and the second conductive layer serves as a ground contact body. | 10-30-2014 |
20140354612 | Display Device - The display device includes: a flexible display panel including a display portion in which scanning lines and signal lines cross each other; a supporting portion for supporting an end portion of the flexible display panel; a signal line driver circuit for outputting a signal to the signal line, which is provided for the supporting portion; and a scanning line driver circuit for outputting a signal to the scanning line, which is provided for a flexible surface of the display panel in a direction which is perpendicular or substantially perpendicular to the supporting portion. | 12-04-2014 |
20140361959 | DISPLAY DEVICE - In a display element such as an organic EL element, deterioration progresses due to light emission, and emission luminance is lowered even if the same voltage is applied to the display element. Therefore, use over time causes variations in luminance of each pixel, thereby a so-called “image burn-in” phenomenon occurs. Given this factor, the invention provides a display device which can reduce the difference in deterioration of a display element in each pixel and suppress variations in light emission of a display element in a pixel. It is prevented that only a specific pixel has a long accumulated lighting time. For that purpose, a gray scale of a display pattern is changed to prevent the difference in deterioration of display element in pixels from increasing. Alternatively, a specific display pattern is prevented from being fixedly displayed in a specific region. Further alternatively, a pixel lagging behind in deterioration is deteriorated so that the accumulated lighting time of pixels is equal to each other. | 12-11-2014 |
20140374782 | LIGHTING SYSTEM - It is an object of the present invention to provide a lighting system having favorable luminance uniformity in a light-emitting region when the lighting system has large area. According to one feature of the invention, a lighting system comprises a first electrode, a second electrode, a layer containing a light-emitting substance formed between the first electrode and the second electrode, an insulating layer which is formed over a substrate in a grid form and contains a fluorescence substance, and a wiring formed over the insulating layer. The insulating layer and the wiring are covered with the first electrode so that the first electrode and the wiring are in contact with each other. | 12-25-2014 |
20150053264 | PHOTOELECTRIC CONVERSION DEVICE AND MANUFACTURING METHOD THEREOF - An object is to increase conversion efficiency of a photoelectric conversion device without increase in the manufacturing steps. The photoelectric conversion device includes a first semiconductor layer formed using a single crystal semiconductor having one conductivity type which is formed over a supporting substrate, a buffer layer including a single crystal region and an amorphous region, a second semiconductor layer which includes a single crystal region and an amorphous region and is provided over the butler layer, and a third semiconductor layer having a conductivity type opposite to the one conductivity type, which is provided over the second semiconductor layer. A proportion of the single crystal region is higher than that of the amorphous region on the first semiconductor layer side in the second semiconductor layer, and the proportion of the amorphous region is higher than that of the single crystal region on the third semiconductor layer side. | 02-26-2015 |