Patent application number | Description | Published |
20100026090 | Power Conversion Apparatus and Electric Vehicle - A power conversion apparatus capable of improving the impedance characteristics between each of two power modules and each of a plurality of capacitor cells, the power conversion apparatus including: plural capacitor cells connected in parallel between a three-layer laminated wiring board consisting of a positive polarity conductor board and a negative polarity conductor board formed widely in the direction of the parallel disposition of the power modules and laminated with an insulation sheet therebetween; a three-layer laminated conductor board consisting of a positive polarity conductor board and a negative polarity conductor board formed widely in the direction of the parallel direction of the power modules and laminated with an insulation sheet therebetween and used to connect the positive and negative polarity sides of each of the two power modules to the laminated wiring board respectively. | 02-04-2010 |
20100097765 | Power Conversion Apparatus and Power Module - Disclosed are a power conversion apparatus and a power module that can be downsized. Four corners of a power module are fastened to a cooling jacket from its front surface by a front surface side fastening apparatus. Thereafter, a top and a bottom of the housing are reversed, and nuts are screwed with bolts projecting from the rear face of the cooling jacket to fasten the power module. That is, on the top surface of the cooling jacket facing the bolts are arranged an AC terminal of the power module, a DC positive electrode terminal connection portion, and a DC negative electrode terminal. Accordingly, the power module can be downsized. | 04-22-2010 |
20110205724 | Power Inverter - A power inverter comprises at least a box-shaped housing; and a power module, a smoothing capacitor, a base plate made of a flat plate, and a rotating electric machine control circuit board arranged in order in the housing. The base plate is arranged with the fringes fixed to the inner wall surfaces of the housing, and the smoothing capacitor and rotating electric machine control circuit board are fixed. | 08-25-2011 |
20120170340 | Power Inverter - A power inverter comprises at least a box-shaped housing; and a power module, a smoothing capacitor, a base plate made of a flat plate, and a rotating electric machine control circuit board arranged in order in the housing. The base plate is arranged with the fringes fixed to the inner wall surfaces of the housing, and the smoothing capacitor and rotating electric machine control circuit board are fixed. | 07-05-2012 |
20120200164 | Power Conversion Apparatus and Electric Vehicle - A power conversion apparatus capable of improving the impedance characteristics between each of two power modules and each of a plurality of capacitor cells, the power conversion apparatus including: plural capacitor cells connected in parallel between a three-layer laminated wiring board consisting of a positive polarity conductor board and a negative polarity conductor board formed widely in the direction of the parallel disposition of the power modules and laminated with an insulation sheet therebetween; a three-layer laminated conductor board consisting of a positive polarity conductor board and a negative polarity conductor board formed widely in the direction of the parallel direction of the power modules and laminated with an insulation sheet therebetween and used to connect the positive and negative polarity sides of each of the two power modules to the laminated wiring board respectively. | 08-09-2012 |
20120275205 | Power Conversion Apparatus and Electric Vehicle - The metallic case of a power conversion apparatus includes a casing having a side wall, as well as an upper case and a lower case, a first area being formed between a cooling jacket provided at the inner periphery of the side wall and the lower case, the metal base plate dividing the first area between the cooling jacket and the upper case into a lower side second area and an upper side third area, first and second power modules being fastened to a top surface and a capacitor module being provided in the first area, driving circuits that drive inverter circuits of the power modules respectively being provided in the second area, and a control circuit that controls the driver circuits being provided in the third area. | 11-01-2012 |
20130128645 | Power Conversion Apparatus and Electric Vehicle - The metallic case of a power conversion apparatus includes a casing having a side wall, as well as an upper case and a lower case, a first area being formed between a cooling jacket provided at the inner periphery of the side wall and the lower case, the metal base plate dividing the first area between the cooling jacket and the upper case into a lower side second area and an upper side third area, first and second power modules being fastened to a top surface and a capacitor module being provided in the first area, driving circuits that drive inverter circuits of the power modules respectively being provided in the second area, and a control circuit that controls the driver circuits being provided in the third area. | 05-23-2013 |
20130285585 | POWER INVERTER SUITABLE FOR A VEHICLE - A power inverter comprises at least a box-shaped housing; and a power module, a smoothing capacitor, a base plate made of a flat plate, and a rotating electric machine control circuit board arranged in order in the housing. The base plate is arranged with the fringes fixed to the inner wall surfaces of the housing, and the smoothing capacitor and rotating electric machine control circuit board are fixed. | 10-31-2013 |
20140232313 | Reduced Size Power Inverter Suitable for a Vehicle - A power inverter comprises at least a box-shaped housing; and a power module, a smoothing capacitor, a base plate made of a flat plate, and a rotating electric machine control circuit board arranged in order in the housing. The base plate is arranged with the fringes fixed to the inner wall surfaces of the housing, and the smoothing capacitor and rotating electric machine control circuit board are fixed. | 08-21-2014 |
20150022974 | Power Conversion Apparatus and Electric Vehicle - The metallic case of a power conversion apparatus includes a casing having a side wall, as well as an upper case and a lower case, a first area being formed between a cooling jacket provided at the inner periphery of the side wall and the lower case, the metal base plate dividing the first area between the cooling jacket and the upper case into a lower side second area and an upper side third area, first and second power modules being fastened to a top surface and a capacitor module being provided in the first area, driving circuits that drive inverter circuits of the power modules respectively being provided in the second area, and a control circuit that controls the driver circuits being provided in the third area. | 01-22-2015 |
20150163962 | Power Conversion Apparatus - An object of the present invention is to improve the cooling performance of a capacitor module used in a power conversion apparatus. The power conversion apparatus according to the present invention includes a power semiconductor module, a capacitor module, a flow path forming body that forms a flow path through which a cooling refrigerant flows . The flow path forming body includes a first flow path forming body that forms a first flow path part for cooling the power semiconductor module, and a second flow path forming body that forms a second flow path part for cooling the capacitor module. The first flow path forming body is provided on a side portion of the second follow path forming body and is integrally formed with the second flow path forming body. The second flow path forming body forms a housing space for housing the capacitor module above the second flow path part . The first flow path part is formed at a position facing the side wall that forms the housing space. The power semiconductor module is inserted into the first flow path part. | 06-11-2015 |
20150214857 | Power Conversion Apparatus - An object of the present invention is to reduce the size of a power conversion apparatus and to improve the reliability. The power conversion apparatus includes a power semiconductor module, a driver circuit board mounted with a driver circuit, an AC-side relay conductor for transferring the alternating current, and an AC connector. The power semiconductor module includes an AC-side terminal connected to the AC-side relay conductor, and a control-side terminal connected to the driver circuit board. The AC connector is provided on the opposite side of the power semiconductor module through the driver circuit board. The driver circuit board includes a transformer for transforming voltage from low to high and supplying the transformed voltage to the driver circuit, and a line for connecting the transformer and the driver circuit. Further, the driver circuit board forms a through hold provided on the side opposite to the transformer with the driver circuit interposed therebetween. The AC-side relay conductor is connected to the AC-side connector, through the through hole. | 07-30-2015 |
20150256096 | Capacitor Module and Power Conversion Device - In a power conversion device according to the present invention, a capacitor module, includes a first capacitor element; a second capacitor element; a positive pole-side bus bar; and a negative pole-side bus bar disposed in a laminated state, in which the positive pole-side bus bar and the negative pole-side bus bar are laminated via an insulating member. The first capacitor element includes a first body portion, a first positive pole-side electrode, and a first negative pole-side electrode. The second capacitor element includes a second body portion, a second positive pole-side electrode, and a second negative pole-side electrode. The first capacitor element is disposed so that the first positive pole-side electrode assumes a position closer to the second negative pole-side electrode than to the second positive pole-side electrode and faces the second negative pole-side electrode; and a laminate portion formed with the positive pole-side bus bar and the negative pole-side bus bar continues up to a point over a space where the first positive pole-side electrode and the second negative pole-side electrode face each other. | 09-10-2015 |
20150289391 | Power Conversion Apparatus and Electric Vehicle - The metallic case of a power conversion apparatus includes a casing having a side wall, as well as an upper case and a lower case, a first area being formed between a cooling jacket provided at the inner periphery of the side wall and the lower case, the metal base plate dividing the first area between the cooling jacket and the upper case into a lower side second area and an upper side third area, first and second power modules being fastened to a top surface and a capacitor module being provided in the first area, driving circuits that drive inverter circuits of the power modules respectively being provided in the second area, and a control circuit that controls the driver circuits being provided in the third area. | 10-08-2015 |
20160037654 | Power Converter - An object of the invention is to further improve connection reliability of internal components of a power converter. According to the invention, there is provided a power converter including a power semiconductor module that converts DC current into AC current; a casing that forms a housing space for housing the power semiconductor module; an AC relay bus bar that is connected to an AC terminal of the power semiconductor module by weld connection; and an AC terminal block that is connected to an AC terminal of a motor, wherein the AC relay bus bar is supported by the casing through an insulating member, and the AC terminal block, is connected to the AC relay bus bar and supported by the casing. | 02-04-2016 |
Patent application number | Description | Published |
20090020419 | Physical Sensor And Method Of Process - There is provided a physical sensor which ensures long-term reliability and can be miniaturized and increased in density, and a method of producing the same. A physical sensor includes a supporting substrate, an element substrate that includes a sensor element and is joined to the supporting substrate through an insulating layer, a glass cap that covers an area of the sensor element and is joined to the element substrate, and a built-in electrode that is electrically connected to the sensor element. The built-in electrode is formed in a through hole passing through the element substrate, the insulating layer and the supporting substrate. A portion of the glass cap that covers an area of the built-in electrode is anodically bonded to the element substrate. | 01-22-2009 |
20110209815 | Manufacturing Method of Combined Sensor - A movable device of acceleration sensors and a vibration device of a gyroscope are formed on the same sensor wafer spaced apart from each other by a wall. A cap wafer having gaps corresponding to the movable mechanical components of the acceleration sensors and gyroscope is provided for the wafer and an adsorbent divided into a plurality of divisional portions is disposed in the gap for the gyroscope. After the sensor wafer and the cap wafer have been bonded together at a temperature of inactivation of the adsorbent and in an atmospheric pressure ambience of noble gas and activated gas, the adsorbent divisional portions are activated in sequence to adsorb the activated gas so as to adjust the pressure inside the gyroscope, thus manufacturing a combined sensor wafer. | 09-01-2011 |
20130068020 | Combined Sensor and Method for Manufacturing the Same - An acceleration sensor and an angular velocity sensor are sealed in respective pressure atmospheres suitable therefor in the process of a series of bonding steps, thereby improving the detection sensibilities of the sensors. | 03-21-2013 |
20130241013 | Physical Quantity Detector - Provided is an inertial sensor device comprising a detection part having an MEMS structure, wherein convenience during sensor installation is ensured while erroneous operation caused by the application of external vibration is controlled. To achieve this objective, an anti-vibration structure ( | 09-19-2013 |
Patent application number | Description | Published |
20080203300 | Scanning Electron Microscope - Disclosed is a scanning electron microscope capable of checking an abrupt change of probe current due to changes in intensities of the respective condenser lenses when the probe current is intended to be changed by changing the intensities of the respective condenser lenses. The scanning electron microscope includes: an electron source for generating a beam of electrons; a first and second condenser lenses each for condensing the beam of electrons; an object lens for narrowly focusing the beam of electrons on a sample; a deflecting system for two-dimensionally scanning over the sample; and a detecting system for detecting secondary electrons generated from the sample due to the irradiation of the beam of electrons on the sample. In the scanning electron microscope, a first and second aperture plates each for blocking parts of the beam of electrons unnecessary for the sample are sequentially arranged between the first and second condenser lenses. | 08-28-2008 |
20080310704 | SCANNING ELECTRON MICROSCOPE AND METHOD OF IMAGING AN OBJECT BY USING THE SCANNING ELECTRON MICROSCOPE - A scanning electron microscope capable of modifying the focal position of a condenser lens with high speed and high reproducibility in order that low-magnification images are obtained at large depths of focus and that high-magnification images are obtained at high resolution. The microscope has a specimen-holding portion, an electron beam source, a condenser lens for converging the electron beam, an objective lens for focusing the converged beam into a very small spot onto a specimen, scan coils, a detector for detecting a specimen signal emanating from the specimen, and a display portion for displaying the detected specimen signal as an image. An axisymmetric electrode is disposed within the magnetic field produced by the condenser lens. A voltage is applied to the electrode. | 12-18-2008 |
20090184255 | INSPECTION METHOD AND INSPECTION SYSTEM USING CHARGED PARTICLE BEAM - In an electric immersion lens having high resolution capability, secondary electrons generated from a specimen are accelerated to suppress the dependency of rotational action of the secondary electrons applied thereto by an objective lens upon energy levels of the secondary electrons and when selectively detecting low and high angle components of elevation and azimuth as viewed from a secondary electron generation site by means of an annular detector interposed between an electron source and the objective lens, the secondary electrons are adjusted and deflected by means of an E×B deflector such that the center axis of secondary electrons converged finely under acceleration is made to be coincident with the center axis of a low elevation signal detection system and the secondary electrons are deviated from an aperture of a high elevation signal detection system. | 07-23-2009 |
20090256076 | CHARGED PARTICLE BEAM APPARATUS PERMITTING HIGH-RESOLUTION AND HIGH-CONTRAST OBSERVATION - A lower pole piece of an electromagnetic superposition type objective lens is divided into an upper magnetic path and a lower magnetic path. A voltage nearly equal to a retarding voltage is applied to the lower magnetic path. An objective lens capable of acquiring an image with a higher resolution and a higher contrast than a conventional image is provided. An electromagnetic superposition type objective lens includes a magnetic path that encloses a coil, a cylindrical or conical booster magnetic path that surrounds an electron beam, a control magnetic path that is interposed between the coil and sample, an accelerating electric field control unit that accelerates the electron beam using a booster power supply, a decelerating electric field control unit that decelerates the electron beam using a stage power supply, and a suppression unit that suppresses electric discharge of the sample using a control magnetic path power supply. Thus, whether landing energy of an electron beam varies widely, the electron beam can be focused with the electromagnetic superposition type objective lens approached to the sample. | 10-15-2009 |
20100059676 | CHARGED PARTICLE BEAM APPARATUS - Disclosed herewith is a charged particle beam apparatus capable of controlling each of the probe current and the objective divergence angle to obtain a desired probe current and a desired objective divergence angle in accordance with the diameter of the subject objective aperture. The apparatus is configured to include an objective aperture between first and second condenser lenses to calculate and set a control value of a first condenser lens in accordance with the diameter of the hole of the objective aperture so as to obtain a desired probe current and calculate a control value of a second condenser lens setting device in accordance with the diameter of the hole of the objective divergence angle and the control value of the second condenser lens setting device, thereby setting the calculated control value for the second condenser lens setting device to control the objective divergence angle. | 03-11-2010 |
20110095184 | SCANNING ELECTRON MICROSCOPE AND METHOD OF IMAGING AN OBJECT BY USING THE SCANNING ELECTRON MICROSCOPE - A scanning electron microscope capable of modifying the focal position of a condenser lens with high speed and high reproducibility in order that low-magnification images are obtained at large depths of focus and that high-magnification images are obtained at high resolution. The microscope has a specimen-holding portion, an electron beam source, a condenser lens for converging the electron beam, an objective lens for focusing the converged beam into a very small spot onto a specimen, scan coils, a detector for detecting a specimen signal emanating from the specimen, and a display portion for displaying the detected specimen signal as an image. An axisymmetric electrode is disposed within the magnetic field produced by the condenser lens. A voltage is applied to the electrode. | 04-28-2011 |
20110101223 | Electron Beam Apparatus And Electron Beam Inspection Method - An electron beam apparatus which includes a sample stage on which a sample is placed, and an electron optical system. The electron optical system includes an electron gun that generates a primary electron beam, an immersion objective lens that converges the primary electron beam on the sample, an ExB deflector that separates a secondary particle, which is generated from irradiation of the primary beam to the sample, from an optical axis of the primary beam, a reflecting member to which the secondary particle collides, an assist electrode which is located under the reflecting member, a plurality of incidental particle detectors that selectively detect a velocity component and an azimuth component of a ternary particle which is generated by the secondary particle colliding to the reflecting member, and a center detector that is located above the reflecting member. | 05-05-2011 |
20120091362 | CHARGED PARTICLE RADIATION DEVICE - Disclosed is a high resolution and high throughput charged particle radiation device that attenuates the natural vibration of an ion pump in a short time, excited by a reaction force at the time of driving the stage, and prevents occurrence of a loop of force and a loop of current. The charged particle radiation device includes a sample chamber ( | 04-19-2012 |
20120261574 | Electron Beam Apparatus and Electron Beam Inspection Method - An electron beam apparatus which includes a sample stage on which a sample is placed, and an electron optical system. The electron optical system includes an electron gun that generates a primary electron beam, an immersion objective lens that converges the primary electron beam on the sample, an E×B deflector that separates a secondary particle, which is generated from irradiation of the primary beam to the sample, from an optical axis of the primary beam, a reflecting member to which the secondary particle collides, an assist electrode which is located under the reflecting member, a plurality of incidental particle detectors that selectively detect a velocity component and an azimuth component of a ternary particle which is generated by the secondary particle colliding to the reflecting member, and a center detector that is located above the reflecting member. | 10-18-2012 |
20120280126 | CHARGED PARTICLE BEAM APPARATUS PERMITTING HIGH RESOLUTION AND HIGH-CONTRAST OBSERVATION - A lower pole piece of an electromagnetic superposition type objective lens is divided into an upper magnetic path and a lower magnetic path. A voltage nearly equal to a retarding voltage is applied to the lower magnetic path. An objective lens capable of acquiring an image with a higher resolution and a higher contrast than a conventional image is provided. An electromagnetic superposition type objective lens includes a magnetic path that encloses a coil, a cylindrical or conical booster magnetic path that surrounds an electron beam, a control magnetic path that is interposed between the coil and sample, an accelerating electric field control unit that accelerates the electron beam using a booster power supply, a decelerating electric field control unit that decelerates the electron beam using a stage power supply, and a suppression unit that suppresses electric discharge of the sample using a control magnetic path power supply. | 11-08-2012 |
20130037716 | SCANNING ELECTRON MICROSCOPE AND SAMPLE OBSERVATION METHOD - The present invention provides a contact hole observation technology for avoiding a situation in which it is difficult to observe a contact hole as a nonuniform charge is formed in the contact hole due to a tilted electron beam during a process for forming a preliminary charge on a sample. The present invention also provides a scanning electron microscope based on such a contact hole observation technology. During a preliminary charge process, an electron beam is allowed to become incident in a plurality of directions to perform a precharge, thereby reducing a region within the contact hole that is not irradiated with the electron beam. This reduces the number of secondary electrons that become lost on the wall surface of the contact hole, thereby making it possible to acquire information about the bottom of the contact hole. Further, the precharge is processed by dividing a precharge irradiation region into a plurality of ring-shaped regions concentric with an observation region and precharging each of the ring-shaped regions in a plurality of scanning directions. | 02-14-2013 |
20130126733 | Charged Particle Beam Microscope - This charged particle beam microscope is characterized by being provided with selection means ( | 05-23-2013 |
20130228701 | CHARGED PARTICLE BEAM APPARATUS PERMITTING HIGH RESOLUTION AND HIGH-CONTRAST OBSERVATION - A lower pole piece of an electromagnetic superposition type objective lens is divided into an upper magnetic path and a lower magnetic path. A voltage nearly equal to a retarding voltage is applied to the lower magnetic path. An objective lens capable of acquiring an image with a higher resolution and a higher contrast than a conventional image is provided. An electromagnetic superposition type objective lens includes a magnetic path that encloses a coil, a cylindrical or conical booster magnetic path that surrounds an electron beam, a control magnetic path that is interposed between the coil and sample, an accelerating electric field control unit that accelerates the electron beam using a booster power supply, a decelerating electric field control unit that decelerates the electron beam using a stage power supply, and a suppression unit that suppresses electric discharge of the sample using a control magnetic path power supply. | 09-05-2013 |
20140326879 | CHARGED PARTICLE BEAM APPARATUS PERMITTING HIGH-RESOLUTION AND HIGH-CONTRAST OBSERVATION - A lower pole piece of an electromagnetic superposition type objective lens is divided into an upper magnetic path and a lower magnetic path. A voltage nearly equal to a retarding voltage is applied to the lower magnetic path. An objective lens capable of acquiring an image with a higher resolution and a higher contrast than a conventional image is provided. An electromagnetic superposition type objective lens includes a magnetic path that encloses a coil, a cylindrical or conical booster magnetic path that surrounds an electron beam, a control magnetic path that is interposed between the coil and sample, an accelerating electric field control unit that accelerates the electron beam using a booster power supply, a decelerating electric field control unit that decelerates the electron beam using a stage power supply, and a suppression unit that suppresses electric discharge of the sample using a control magnetic path power supply. | 11-06-2014 |