Patent application number | Description | Published |
20100043546 | SENSOR AND METHOD OF MANUFACTURING THE SAME - Provided is a sensor including a movably supported movable element and an opposing member. The sensor detects a relative positional relationship between the movable element and the opposing member which are provided with a spacing therebetween The opposing member has an impurity-doped portion which is provided to one of an opposing portion which is opposed to the movable element and an adjoining portion which adjoins the opposing portion. At least a part of the impurity-doped portion is formed on an opposite surface opposite to a surface which is opposed to the movable element, from which opposite surface an electrical wiring is led out. | 02-25-2010 |
20100109024 | TRANSFER METHOD OF FUNCTIONAL REGION, LED ARRAY, LED PRINTER HEAD, AND LED PRINTER - A method includes arranging a bonding layer of a predetermined thickness on at least one of a first functional region bonded on a release layer, which is capable of falling into a releasable condition when subjected to a process, on a first substrate, and a region, to which the first functional region is to be transferred, on a second substrate; bonding the first functional region to the second substrate through the bonding layer; and separating the first substrate from the first functional region at the release layer. | 05-06-2010 |
20100110157 | TRANSFER METHOD OF FUNCTIONAL REGION, LED ARRAY, LED PRINTER HEAD, AND LED PRINTER - A method includes arranging a first bonding layer on a first functional region on a first substrate, or a region on a second substrate, bonding the first functional region to the second substrate through the first bonding layer, subjecting a first release layer to a first process to separate the first substrate from the first functional region at the first release layer, arranging a second bonding layer on a second functional region on the first substrate, or a region on a third substrate, bonding the second functional region to the second or third substrate through the second bonding layer, and subjecting a second release layer to a second process to separate the first substrate from the second functional region at the second release layer. | 05-06-2010 |
20110062441 | SEMICONDUCTOR DEVICE AND DISPLAY APPARATUS - Provided is a semiconductor device including a semiconductor element including at least a semiconductor as a component characterized by including: a mechanism for irradiating the semiconductor with light having a wavelength longer than an absorption edge wavelength of the semiconductor; and a dimming mechanism, provided in a part of an optical path through which the light passes, for adjusting at least one factor selected from an intensity, irradiation time and the wavelength of the light, wherein a threshold voltage of the semiconductor element is varied by the light adjusted by the dimming mechanism. | 03-17-2011 |
20110065216 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE OR APPARATUS, AND APPARATUS FOR MANUFACTURING THE SAME - A method for manufacturing a semiconductor device or apparatus having at least a semiconductor as a component, characterized by including irradiating the semiconductor with light having a longer wavelength than the absorption edge wavelength of the semiconductor to change the threshold voltage of the semiconductor device or apparatus, and checking the threshold voltage of the semiconductor device or apparatus, after or during irradiation with the light, to determine whether the threshold voltage is in a predetermined range, during manufacturing the semiconductor device or apparatus. | 03-17-2011 |
20110076790 | METHOD FOR CONTROLLING THRESHOLD VOLTAGE OF SEMICONDUCTOR ELEMENT - A method for controlling the threshold voltage of a semiconductor element having at least a semiconductor as a component is characterized in including a process to measure one of a threshold voltage and a characteristic value serving as an index for the threshold voltage; a process to determine one of the irradiation intensity, irradiation time, and wavelength of the light for irradiating the semiconductor based on one of the measured threshold voltage and the measured characteristic value serving as the index for the threshold voltage; and a process to irradiate light whose one of the irradiation intensity, irradiation time, and wavelength has been determined onto the semiconductor; wherein the light irradiating the semiconductor is a light having a longer wavelength than the wavelength of the absorption edge of the semiconductor, and the threshold voltage is changed by the irradiation of the light. | 03-31-2011 |
20110092016 | METHOD OF TREATING SEMICONDUCTOR ELEMENT - In a method of treating a semiconductor element which at least includes a semiconductor, a threshold voltage of the semiconductor element is changed by irradiating the semiconductor with light with a wavelength longer than an absorption edge wavelength of the semiconductor. The areal density of in-gap states in the semiconductor is 10 | 04-21-2011 |
20110098568 | IMAGE FORMING METHOD USING ULTRASOUND AND ABERRATION CORRECTION METHOD - An ultrasound image forming method comprises a first step of receiving a first signal reflected from the object, a second step of obtaining an aberration correction value based on the first signal thus received, a third step of receiving a second signal reflected from the object when a second ultrasound corrected based on the aberration correction value is transmitted to the object, and a fourth step of forming an image from the aberration correction value and the second signal. The center frequency of the second ultrasound is between 0.5 MHz and 20 MHz, the center frequency of the first ultrasound is between 3/16 and 9/20 of the center frequency of the second ultrasound. By this method, an accurate aberration correction value can be obtained and an ultrasound imaging with high resolution can be achieved even if aberrations are large and difficult to correct. | 04-28-2011 |
20110311276 | METHOD FOR TRANSFERRING FUNCTIONAL REGIONS, LED ARRAY, LED PRINTER HEAD, AND LED PRINTER - Provided is a method for transferring, onto a second substrate, at least one of functional regions arranged and joined to a first separation layer that is disposed on a first substrate and that becomes separable by a treatment, in which regions on the second substrate where the functional regions are to be transferred have a second separation layer that becomes separable by a treatment. The method includes a step of joining the first substrate to the second substrate by bonding such that the functional regions contact the second separation layer; a step of separating the functional regions from the first substrate at the first separation layer; and a step of, before or after the step of separation, forming separation grooves penetrating through the second substrate and the second separation layer from a surface of the second substrate, the surface being opposite to a surface having the second separation layer thereon. | 12-22-2011 |
20120032173 | TOP GATE THIN FILM TRANSISTOR AND DISPLAY APPARATUS INCLUDING THE SAME - Provided is a top gate thin film transistor, including on a substrate: a source electrode layer; a drain electrode layer; an oxide semiconductor layer; a gate insulating layer; a gate electrode layer including an amorphous oxide semiconductor containing at least one kind of element selected from among In, Ga, Zn, and Sn; and a protective layer containing hydrogen, in which: the gate insulating layer is formed on a channel region of the oxide semiconductor layer; the gate electrode layer is formed on the gate insulating layer; and the protective layer is formed on the gate electrode layer. | 02-09-2012 |