Patent application number | Description | Published |
20080238550 | POWER AMPLIFIER AND TRANSMISSION AND RECEPTION SYSTEM - A power amplifier includes: a first multi-finger FET formed on a semiconductor substrate; a second multi-finger FET formed on the semiconductor substrate; a first temperature detector which detects a channel temperature of the first FET; a second temperature detector which detects a channel temperature of the second FET; a third temperature detector which detects a temperature of the semiconductor substrate; a first detection circuit detecting a difference between an output of the first temperature detector and an output of the third temperature detector and converting the difference to thermoelectromotive force; a second detection circuit detecting a difference between an output of the second temperature detector and the output of the third temperature detector and converting the difference to thermoelectromotive force; and a comparator comparing outputs of the first and second detection circuits with each other to turn on one of the first and second switches and turn off the other. | 10-02-2008 |
20080258815 | HIGH FREQUENCY POWER AMPLIFIER AND WIRELESS PORTABLE TERMINAL USING THE SAME - An object is to provide a high frequency power amplifier in which lowering of output power during operation is prevented, influence of thermal noise is suppressed, high frequency operation is stable, and long-term reliability is ensured. The high frequency power amplifier includes a plurality of transistors having gate electrodes, source regions and drain regions, the gate electrodes, source regions and drain regions being respectively connected in common, and a plurality of acoustic reflection layers being buried in portions of the semiconductor substrate, the portions being located between adjacent transistors, the acoustic reflection layers being disposed in a direction which is oblique to a length direction of the gate electrode. | 10-23-2008 |
20090021140 | LIGHT EMITTING DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a light emitting device. The method includes: mounting a light emitting chip on a substrate; forming a transparent resin portion and a phosphor layer by using a liquid droplet discharging apparatus, the transparent resin portion being formed in a shape of a dome and covering the light emitting chip to fill an exterior thereof on the substrate, a phosphor layer containing phosphor and being formed on an exterior of the transparent resin portion close to at least a top side thereof; and forming a reflecting layer at a position exterior of the transparent resin portion and the phosphor layer close to the substrate. | 01-22-2009 |
20090134430 | SEMICONDUCTOR DEVICE - A semiconductor device includes a substrate including an element region having a polygonal shape defined by a plurality of edges, and an isolation region surrounding the element region, and a plurality of gate electrodes provided on the substrate, crossing the element region, arranged in parallel with each other, and electrically connected with each other, wherein at least one of the edges does not cross any of the gate electrodes, and is not parallel to the gate electrodes. | 05-28-2009 |
20090243725 | SEMICONDUCTOR DEVICE - A semiconductor device includes a first transistor unit including first field effect transistors with first gate electrodes electrically connected together, first sources electrically connected together, and first drains electrically connected together, the first gate electrodes being electrically connected to the first drains, a second transistor unit including second field effect transistors with second gate electrodes electrically connected together, second sources electrically connected together, and second drains electrically connected together, the second gate electrodes being electrically connected to the first gate electrodes, and dummy gate electrodes electrically isolated from the first gate electrodes and the second gate electrodes. The first gate electrodes, the second gate electrodes, and the dummy gate electrodes are arranged parallel to one another, and at least one dummy gate electrode is located between any one of the first gate electrodes and any one of the second gate electrodes. | 10-01-2009 |
20110039359 | Light emitting device and method of manufacturing the same - A method of manufacturing a light emitting device. The method includes: mounting a light emitting chip on a substrate; forming a transparent resin portion and a phosphor layer by using a liquid droplet discharging apparatus, the transparent resin portion being formed in a shape of a dome and covering the light emitting chip to fill an exterior thereof on the substrate, a phosphor layer containing phosphor and being formed on an exterior of the transparent resin portion close to at least a top side thereof; and forming a reflecting layer at a position exterior of the transparent resin portion and the phosphor layer close to the substrate. | 02-17-2011 |
Patent application number | Description | Published |
20080206924 | METHOD FOR FABTRICATING SEMICONDUCTOR DEVICE - According to the first aspect of the present invention, a method for fabricating a semiconductor device with a silicon carbide (SiC) film is comprised of a process to grow a silicon carbide film on a substrate; and a process to form a groove in the periphery of a region on the silicon carbide film in which crystal defects are aggregated. | 08-28-2008 |
20080233716 | Method for fabricating semiconductor device - The principal objects of the present invention are to provide structure of a semiconductor device capable of reducing a bowing of a wafer, and a method for fabricating the semiconductor device. The present invention is applied to a semiconductor device, which is fabricated with a semiconductor substrate having a silicon carbide (SiC) film. The method includes the steps of: forming the SiC film on a semiconductor wafer; discriminating a deformation condition of the semiconductor wafer; and forming grooves in the SiC film, the grooves having a shape determined in accordance with the deformation condition of the semiconductor wafer. | 09-25-2008 |
20080293245 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device has a semiconductor substrate, a first insulating film formed on a surface of the semiconductor substrate, a first recess formed in the first insulating film, a first barrier film formed on an inner surface of the first insulating film except a top peripheral region of the first trench, a first conductive film formed in the first trench, and a covering film formed on an upper surface and a top peripheral region of the first conductive film and an upper surface of the first barrier film. The first conductive film includes copper. | 11-27-2008 |
20090184246 | Infrared detector and fabricating method of infrared detector - There is provided an infrared detector including: a silicon substrate provided with a concave portion; an infrared receiver having a polysilicon layer; and a beam that supports the infrared receiver above the concave portion, and extends along a side of the infrared receiver from the infrared receiver to connect with the silicon substrate, the beam having at least two bent portions, wherein at least one of the bent portions of the beam is disposed at a position on a side opposite to the concave portion with the polysilicon layer as a reference point. | 07-23-2009 |
20100006962 | Method of manufacturing a porous structure - Disclosed is a method for fabrication of a porous structure that can prevent release of a protective layer from a semiconductor substrate even if a liquid chemical is used during an anodic oxidation process. The method includes forming an oxide layer on an upper face of the semiconductor substrate. The semiconductor substrate has a diffusion layer in its upper face. The method also includes forming a plurality of contact holes at desired positions of the oxide layer. The method also includes forming a wire in each of the contact holes, and forming an opening between wires to expose a surface of the diffusion layer. The method also includes forming a drain on a peripheral circumference of the opening and depositing a protective film over an entire upper part of the substrate. The protective film fills the drain. The method also includes removing most of the protective film from the opening while leaving behind a part of the protective film on the peripheral circumference of the opening and exposing a certain portion of the diffusion layer. The method also includes applying an anodic oxidation process to the exposed diffusion layer using the remaining protective film as a protective layer. | 01-14-2010 |
20140374910 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device has a semiconductor substrate, a first insulating film formed on a surface of the semiconductor substrate, a first recess formed in the first insulating film, a first barrier film formed on an inner surface of the first insulating film except a top peripheral region of the first trench, a first conductive film formed in the first trench, and a covering film formed on an upper surface and a top peripheral region of the first conductive film and an upper surface of the first barrier film. The first conductive film includes copper. | 12-25-2014 |
Patent application number | Description | Published |
20080254756 | Receiver and Wireless Communication Apparatus - A receiver has a first voltage control oscillator configured to generate a first oscillation signal, a second voltage control oscillator configured to generate a second oscillation signal having a first phase, a first phase comparator configured to detect a phase difference between the first and second oscillation signals, a demodulator configured to perform demodulation processing of the received signal and to generate timing information of a second phase included in the first oscillation signal, a second phase comparator configured to detect the phase difference between the first and second oscillation signals, and a first control voltage generator configured to generate a first control voltage for controlling a phase and a frequency of the second voltage control oscillator based on the phase difference detected by the second phase comparator. | 10-16-2008 |
20120061768 | POWER AMPLIFIER - According to an embodiment, a power amplifier is provided with at least one first growth ring gate structure and multiple second growth ring gate structures. The first growth ring gate structure is bounded by a semiconductor layer and performs a power amplification operation. The multiple second growth ring gate structures are bounded by the semiconductor layer and are arranged adjacently around the first growth ring gate structure in a surrounding manner. When the first growth ring gate structure performs a power amplification operation, the multiple second growth ring gate structures are depleted by applying a reverse bias to the multiple second growth ring gate structures whereby the depleted multiple second growth ring gate structures isolate the first growth ring gate structure from a surrounding portion. | 03-15-2012 |
20120228755 | SEMICONDUCTOR MODULE AND MANUFACTURING METHOD THEREOF - A semiconductor module includes a high frequency chip, an insulating cap, a through electrode, interconnections, and an insulating layer. The insulating cap forms a hollow with the chip to cover the chip. The through electrode passes through a first plane of the cap and a second plane of the cap, the first plane facing the chip, the second plane being on a side opposite to the first plane. The interconnections are provided on the cap and connected to the through electrode. The insulating layer is provided on the cap and fills a portion between the interconnections therewith. | 09-13-2012 |
20120241877 | ACOUSTIC SEMICONDUCTOR DEVICE - According to one embodiment, an acoustic semiconductor device includes an element unit, and a first terminal. The element unit includes an acoustic resonance unit. The acoustic resonance unit includes a semiconductor crystal. An acoustic standing wave is excitable in the acoustic resonance unit and is configured to be synchronously coupled with electric charge density within at least one portion of the semiconductor crystal via deformation-potential coupling effect. The first terminal is electrically connected to the element unit. At least one selected from outputting and inputting an electrical signal is implementable via the first terminal. The electrical signal is coupled with the electric charge density. The outputting the electrical signal is from the acoustic resonance unit, and the inputting the electrical signal is into the acoustic resonance unit. | 09-27-2012 |
Patent application number | Description | Published |
20110220974 | SEMICONDUCTOR DEVICE - According to an embodiment, the present invention provides a semiconductor device that is easily integrated with other electronic circuits and functions as an oscillator with high frequency accuracy. The semiconductor device includes: a semiconductor substrate; an element region; an element isolation region that surrounds the element region; a field effect transistor including a gate electrode that is formed on the element region, source and drain regions, and a channel region that is interposed between the source region and the drain region; gate, source, and drain terminals that are used to apply a voltage to the gate electrode, the source region, and the drain region, respectively; and an output terminal that is electrically connected to the channel region. When the threshold voltage of the field effect transistor is V | 09-15-2011 |
20120200357 | POWER AMPLIFIER - A power amplifier according to the embodiments includes: a silicon substrate; an input terminal configured to receive an input of a RF signal; a power dividing unit configured to divide the RF signal into a first signal and a second signal; a phase modulating unit configured to modulate a phase of the second signal; an N well formed in the silicon substrate; a P well formed in the N well and configured to receive an input of the second signal of a modulated phase; a gate insulating film formed on the P well; a gate electrode formed on the gate insulating film and configured to receive an input of the first signal; source and drain electrodes formed on both sides of the gate electrode in the silicon substrate; and an output terminal configured to output a RF signal obtained from the drain electrode. | 08-09-2012 |
20120235246 | SEMICONDUCTOR DEVICE - One embodiment of a semiconductor device provided with a semiconductor substrate, a device region formed on the semiconductor substrate, a device isolation region, which encloses the device region, a plurality of first gate electrodes arranged so as to be parallel to each other on the device region and electrically connected to each other, and a plurality of second gate electrodes arranged so as to be parallel to a plurality of first gate electrodes on the device region and electrically connected to each other, wherein the first gate electrode is arranged so as to be interposed between the second gate electrodes, a gate width of the first gate electrode is smaller than the gate width of the second gate electrode, and a DC bias voltage higher than that of the second gate electrode is applied to the first gate electrode. | 09-20-2012 |
20130256660 | SEMICONDUCTOR DEVICE - A semiconductor device according to an embodiment has: a semiconductor substrate; an acoustic resonator formed on the semiconductor substrate, having a semiconductor layer including impurity electrically isolated from the substrate by depletion layer and configured to resonate at a predetermined resonance frequency based on acoustic standing wave excited in the semiconductor layer; a temperature detector formed on the semiconductor substrate and configured to detect temperature of the semiconductor substrate; a calculating unit formed on the semiconductor substrate and configured to perform calculation of temperature compensation based on the temperature detected by the temperature detector, kind of the impurity and concentration of the impurity; and a controller formed on the semiconductor substrate and configured to control the resonance frequency based on a result of the calculation by the calculating unit. | 10-03-2013 |
20130256864 | SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME - A semiconductor package according to embodiments includes: a semiconductor chip including a front electrode on a front surface thereof and a back electrode on a back surface thereof; a front-side cap portion including an air gap in a portion between the semiconductor chip and the front-side cap portion and a front-side penetrating electrode, and is positioned to face the front surface of the semiconductor chip; a back-side cap portion bonded with a first cap portion to hermetically seal the semiconductor chip, includes an air gap at least in a portion between the semiconductor chip and the back-side cap portion and a back-side penetrating electrode, and is positioned to face the back surface of the semiconductor chip; a front-side connecting portion which electrically connects the front electrode and the front-side penetrating electrode; and a back-side connecting portion which electrically connects the back electrode and the back-side penetrating electrode. | 10-03-2013 |
20140054652 | STIMULATED PHONON EMISSION DEVICE AND OSCILLATOR, FREQUENCY FILTER, COOLING DEVICE, LIGHT-RECEIVING DEVICE, AND LIGHT-EMITTING DEVICE COMPRISING THE STIMULATED PHONON EMISSION DEVICE - A stimulated phonon emission device of an embodiment is provided with a first electroconductive type of semiconductor substrate of an indirect transition type semiconductor crystal, a second electroconductive type of well region provided in the semiconductor substrate, an element isolation region deeper than the well region, an element region surrounded by the element isolation region, and a field-effect transistor having a plurality of gate electrodes which are formed in the well region in the element region, are parallel to each other, and are arranged at a constant pitch and first electroconductive type of source region and drain region provided in the element regions on the both sides of the gate electrode. | 02-27-2014 |
20140210066 | SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME - A semiconductor package of an embodiment includes: a semiconductor chip having a signal input terminal and a signal output terminal; and a cap unit that is formed on the semiconductor chip. The cap unit includes a concave portion forming a hollow structure between the semiconductor chip and the cap unit, a first through electrode electrically connected to the signal input terminal, and a second through electrode electrically connected to the signal output terminal. Of the inner side surfaces of the concave portion, a first inner side surface and a second inner side surface facing each other are not parallel to each other. | 07-31-2014 |
20150076506 | SEMICONDUCTOR DEVICE - This disclosure provides a semiconductor device which includes a GaN-based semiconductor layer having a surface with an angle of not less than 0 degree and not more than 5 degrees with respect to an m-plane or an a-plane, a first electrode provided above the surface and having a first end, and a second electrode provided above the surface to space apart from the first electrode, having a second end facing the first end, and a direction of a segment connecting an arbitrary point of the first end and an arbitrary point of the second end is different from a c-axis direction of the GaN-based semiconductor layer. | 03-19-2015 |
20150085022 | INK JET HEAD HAVING NOZZLE PLATE EQUIPPED WITH PIEZOELECTRIC ELEMENTS - An ink jet head includes: a pressure chamber to be filled with ink formed in a pressure chamber structure, the pressure chamber in which an etching limiter made of a material different from a material of the pressure chamber structure is formed on an inner wall surface of the pressure chamber; a nozzle plate comprising a nozzle that leading to the pressure chamber and a movable range fitted to the etching limiter; and a flat driver comprising a piezoelectric body to operate the movable range and arranged on the nozzle plate. | 03-26-2015 |