Patent application number | Description | Published |
20080240907 | EXPANSION TURBINE HAVING A VARIABLE NOZZLE MECHANISM - Expansion turbine having a variable nozzle mechanism comprises an adiabatic expansion device located in a vacuum container having a turbine impeller threrein which rotates and drives the turbine impeller during adiabatic expansion of very low temperature gas, and varies the throat area of very low temperature gas introduced in the turbine impeller by driving a nozzle member disposed near the outside end of the adiabatic expansion device by a drive force from a driving member located outside the vacuum container; wherein the driving member comprises a cylindrical member disposed coaxially with the turbine impeller, and the nozzle member is provided on the extension of the body of the cylindrical member in the axial direction. | 10-02-2008 |
20080240908 | EXPANSION TURBINE HAVING A VARIABLE NOZZLE MECHANISM - Expansion turbine having a variable nozzle mechanism comprises an adiabatic expansion device located in a vacuum container having a turbine impeller therein which rotates and drives the turbine impeller during adiabatic expansion of very low temperature gas, and varies the throat area of very low temperature gas introduced in the turbine impeller by driving a nozzle member disposed near the outside end of the adiabatic expansion device by a drive force from a driving member located outside the vacuum container; a plate member provided detachably in contact with the outside end of the body of the adiabatic expansion device, wherein the support side of the nozzle member is connected to and supported by the plate member, and the drive side of the nozzle member is connected to and supported by the driving member. | 10-02-2008 |
20080240911 | HEAT INSULATING STRUCTURE FOR EXPANSION TURBINE, AND METHOD OF MANUFACTURING THE SAME - A heat insulating structure for an expansion turbine includes an adiabatic expansion device including an expander body that includes an outlet passage for refrigerant fluid at a central portion thereof and an introduction chamber for refrigerant fluid communicating with an inlet of the outlet passage on an outer peripheral portion thereof, and a turbine impeller that is rotatably provided at the inlet and braked by a braking device. The adiabatic expansion device adiabatically expands refrigerant fluid by rotating the turbine impeller with refrigerant fluid that flows from the introduction chamber to the outlet passage side. A heat-insulating layer, which surrounds the entire periphery of the outlet passage over the entire length of the introduction chamber, is formed between the introduction chamber and the outlet passage. Accordingly, it is possible to improve turbine efficiency by reducing transfer of heat of refrigerant fluid from the introduction chamber to the outlet passage. | 10-02-2008 |
20090028693 | EXPANSION TURBINE - A braking mechanism is provided that is suitable for an expansion turbine that rotates at high speed. Upper end salient poles | 01-29-2009 |
20100275616 | CRYOGENIC REFRIGERATOR AND CONTROL METHOD THEREFOR - A cryogenic refrigerator ( | 11-04-2010 |
20110311350 | TURBO MACHINE - A turbo machine includes an impeller that rotates to make gas flow, a driving device that rotationally drives the impeller, a rotary shaft that transmits a rotational driving force of the driving device to the impeller, a bearing that rotatably supports the rotary shaft, and a casing that houses at least the driving device and the rotary shaft. In addition, the casing is provided with a grease flow path to supply grease to the bearing for lubricating the bearing. | 12-22-2011 |
20130016274 | IMAGE PICKUP APPARATUS AND IMAGE PICKUP DEVICEAANM Matsuo; KeigoAACI TokyoAACO JPAAGP Matsuo; Keigo Tokyo JPAANM Goto; HisashiAACI TokyoAACO JPAAGP Goto; Hisashi Tokyo JPAANM Ichikawa; YoshikazuAACI TokyoAACO JPAAGP Ichikawa; Yoshikazu Tokyo JPAANM Okubo; RyuhiAACI Asaka-shiAACO JPAAGP Okubo; Ryuhi Asaka-shi JPAANM Takase; HiroshiAACI TokyoAACO JPAAGP Takase; Hiroshi Tokyo JPAANM Takahashi; ToshioAACI TokyoAACO JPAAGP Takahashi; Toshio Tokyo JPAANM Murakami; DaichiAACI TokyoAACO JPAAGP Murakami; Daichi Tokyo JP - An image pickup apparatus includes: an image pickup device that includes a pixel used for focus detection, a plurality of the pixels being arranged in a matrix; a correction memory that stores correction information used for correcting a difference in amounts of received light that depend on pixel positions of the pixels used for focus detection; a correcting section that reads the correction information to correct a pixel value of the pixel used for focus detection; and a focus detecting section that detects a focal point by using the pixel value corrected by the correcting section. Focus accuracy is increased by correcting the pixel value for an AF pixel depending on the pixel position. | 01-17-2013 |
20130127179 | WASTE HEAT POWER GENERATOR - This waste heat power generator (G) includes: an evaporator ( | 05-23-2013 |
20130286276 | Image Pickup Apparatus Having Zoom Lens - An image pickup apparatus includes a zoom lens and an image pickup element. The zoom lens includes a first positive lens unit, a first negative lens unit, a stop, and a second positive lens unit. For zooming, the first positive lens unit is stationary, the first negative lens unit moves, and the second positive lens unit moves. A position at a telephoto end of the first negative lens unit is on the image side of a position at the wide angle end. A position at a telephoto end of the second positive lens unit is on the object side of a position at the wide angle end. For focusing, the first positive lens unit is stationary. A first positive lens unit object-side system has a negative refractive power. A first positive lens unit image-side system has a positive refractive power. The image pickup apparatus satisfies predetermined conditional expressions. | 10-31-2013 |
20140022447 | Image Pickup Apparatus and Zoom Lens Used in Image Pickup Apparatus - The 1st positive lens unit is located closer to the object side at the telephoto end than at the wide angle end. The distance between the 1st negative lens unit and the 1st positive lens unit is larger at the telephoto end than at the wide angle end. The distance between the image side lens unit group and the 1st negative lens unit varies during zooming from the wide angle end to the telephoto end. The image side lens unit group comprises a 2nd positive lens unit and a 3rd positive lens unit. The distance between the 2nd positive lens unit and the 1st negative lens unit is smaller at the telephoto end than at the wide angle end. The distance between the 3rd positive lens unit and the 2nd positive lens unit varies during zooming from the wide angle end to the telephoto end. | 01-23-2014 |
20140022647 | ZOOM LENS, AND IMAGING APPARATUS INCORPORATING THE SAME - The invention provides a zoom lens, characterized by comprising, a zoom lens, which comprises, in order from an object side thereof: a first lens group of negative refracting power, a second lens group of positive refracting power, a third lens group of negative refracting power, and a fourth lens group of positive refracting power, wherein: upon zooming from a wide-angle end to a telephoto end of the zoom lens, a separation between the respective lens groups changes, upon focusing from a focusing-on-infinity state to a close-range focusing state, the third lens group moves in an optical axis direction, and the conditions (1) and (2) are satisfied at the wide-angle end. | 01-23-2014 |
20140110939 | WASTE HEAT POWER GENERATOR - The waste heat power generator (G | 04-24-2014 |
20140110945 | WASTE HEAT POWER GENERATOR - The waste heat power generator (G) includes: an evaporator ( | 04-24-2014 |
20140132790 | Zoom Lens and Image Pickup Apparatus Equipped with Same - A zoom lens includes a frontmost lens unit, which is located closest to the object side and a plurality of lens units located closer to the image side than the frontmost lens unit. All the distances between adjacent lens units vary during zooming in the state in which the zoom lens is focused on an object at infinity. One of the plurality of lens units is a first focusing lens unit. During focusing from an object at infinity to an object at a short distance in a first shooting mode, only the first focusing lens unit moves. During focusing from an object at infinity to an object at a short distance in a second shooting mode, two lens units in the zoom lens move. | 05-15-2014 |
20140185148 | ZOOM LENS - In a zoom lens of a fixed total length, at the time of changing the magnification from the wide-angle end toward the telephoto end, the first lens group is anchored while the second lens group is moved, and the third and fourth lens groups are moved so as to be located at the object side of the telephoto end relative to the wide-angle end, such that: the interval between the second and third lens groups is decreased at the telephoto end relative to the wide-angle end; the interval between the third and fourth lens groups is increased at the telephoto end relative to the wide-angle end; and the interval between the fourth and fifth lens groups is increased at the telephoto end relative to the wide-angle end, and at the time of focusing a near object point from a remote object point, the second lens group is moved. | 07-03-2014 |
20140354858 | Zoom Lens and Image Pickup Apparatus Using the Same - A zoom lens includes a first lens unit having a negative refractive power, a second lens unit having a positive refractive power, and a third lens unit having a negative refractive power. At the time of zooming, distances between the lens units change, and a distance between the first lens unit and the second lens unit at a telephoto end is shorter than at a wide angle end. An aperture stop is disposed on the image side of an image-side surface of the first lens unit, and on the object side of an image-side surface of the second lens unit. The second lens unit includes two sub lens units. The object-side sub lens unit in the second lens unit includes one lens component. The following conditional expressions are satisfied. | 12-04-2014 |
20140375870 | Zoom Lens and Image Pickup Apparatus Using the Same - A zoom lens includes in order from an object side to an image side, a first lens unit having a negative refractive power, a second lens unit having a positive refractive power, and a third lens unit having a negative refractive power. At the time of zooming, distances between the lens units change, and a distance between the first lens unit and the second lens unit at a telephoto end is shorter than a distance between the first lens unit and the second lens unit at a wide angle end, and an aperture stop is disposed on an image side of an image-side surface of the first lens unit, and on an object side of an image-side surface of the second lens unit, and the zoom lens satisfies the conditional expressions. | 12-25-2014 |
20150015745 | Zoom Lens and Image Pickup Apparatus Equipped with Same - There is provided a zoom lens in which the load on the driving system for wobbling operation can easily made low and an image pickup apparatus equipped with the same. A zoom lens in which each of distances between a plurality of lens units changes during zooming from the wide angle end to the telephoto end, includes a focus lens unit that shifts along an optical axis to effect focusing from infinity to a close distance and a plurality of wobbling lens units that wobble after a shift of the focus lens unit at an amplitude smaller than the shift of the focus lens unit in focusing operation, wherein a combination of the wobbling lens units caused to operate changes in the middle of the zooming from the wide angle end to the telephoto end. | 01-15-2015 |
20150029387 | IMAGING APPARATUS - An imaging apparatus includes: an imaging optical system having a variable power lens and a focus lens; an imaging element that generates image data via the imaging optical system; a movable frame that holds the focus lens and is movable along an optical axis of the imaging optical system; a first driving unit that causes the movable frame to move toward an in-focus position along the optical axis direction; a focus sensitivity determination unit that, based on a zoom position of the variable power lens, determines whether a focus sensitivity indicating a ratio of a change amount of the in-focus position to a movement amount of the focus lens is equal to or smaller than a specified value; and a driving controller that drives the first driving unit to move the movable frame to the in-focus position if the focus sensitivity is larger than the specified value. | 01-29-2015 |
Patent application number | Description | Published |
20080278773 | IMAGE READING APPARATUS - An image reading apparatus includes an integral scanning optical unit in which a light source device for illuminating an original placed on an original table, a plurality of mirrors for reflecting a light beam from the original and an imaging optical system for imaging the light beam reflected by the mirrors, upon a reading device, are integrally accommodated, wherein at least one mirror is so configured that the light beam is incident thereon twice or more, wherein, in a sub-scan section, reflection surfaces of the mirrors are disposed in a space at an original-reading-position side of a light entrance surface of the imaging optical system, and wherein the reflection surface of a mirror disposed at a position optically closest to the light entrance surface of the imaging optical system is placed at a position furthermost from the original table with respect to a direction of a normal thereto, as compared with the reflection surfaces of the remaining mirrors. | 11-13-2008 |
20130321879 | LIGHT GUIDE AND IMAGE READING APPARATUS - A light guide includes an incidence surface configured to allow light from a light emitting unit to enter the light guide, a light guide portion configured to propagate the light entering via the incidence surface, a reflection portion configured to reflect the propagated light, an exit surface configured to allow light reflected on the reflection portion to exit, and a protrusion portion configured to position the light guide, wherein the protrusion portion is provided downstream of the reflection portion. | 12-05-2013 |
20130321880 | IMAGE READING APPARATUS AND ASSEMBLING METHOD - A document reading apparatus includes a sensor configured to receive light from a document, an imaging lens configured to form an image of light from the document on the sensor, a first holding member to which the imaging lens is fixed, and a second holding member to which the sensor is fixed, wherein the first holding member and the second holding member are fixed using an adhesive and solder. | 12-05-2013 |
Patent application number | Description | Published |
20130182470 | Power Module Package Having a Multi-Phase Inverter and Power Factor Correction - According to an exemplary implementation, a power module package includes a multi-phase inverter. The power module package also includes a multi-phase inverter driver configured to drive the multi-phase inverter. The power module package further includes a power factor correction (PFC) circuit where the PFC circuit is configured to regulate a bus voltage of the multi-phase inverter and a PFC driver configured to drive the PFC circuit. The multi-phase inverter, the multi-phase inverter driver, the PFC circuit, and the PFC driver are situated on a package substrate of the power module package. The multi-phase inverter driver and the PFC driver can be in a common driver integrated circuit (IC). | 07-18-2013 |
20130271201 | System on Chip for Power Inverter - According to an exemplary implementation, an integrated circuit (IC) includes a logic circuit monolithically formed on the IC. The logic circuit is configured to generate modulation signals for controlling power switches of a power inverter. The logic circuit generates the modulation signals based on at least one input value. The IC further includes a voltage level shifter monolithically formed on the IC. The voltage level shifter is configured to shift the modulation signals to a voltage level suitable for driving the power switches of the power inverter. The logic circuit can be a digital logic circuit and the input value can be a digital input value. The IC can also include a sense circuit monolithically formed on the IC. The sense circuit is configured to generate the input value. | 10-17-2013 |
20140097498 | Open Source Power Quad Flat No-Lead (PQFN) Leadframe - According to an exemplary implementation, a power quad flat no-lead (PQFN) leadframe includes U-phase, V-phase, and W-phase power switches situated on the PQFN leadframe. A drain of the U-phase power switch is connected to a U-phase output strip of the PQFN leadframe. A source of the U-phase power switch is connected to a U-phase current sense terminal. The U-phase output strip can substantially traverse across the PQFN leadframe. Another U-phase power switch is situated on the PQFN leadframe with a source of the another U-phase power switch connected to the U-phase output strip of the PQFN leadframe. The PQFN leadframe can include a leadframe island within the U-phase output strip. At least one wirebond may be connected to the U-phase output strip. | 04-10-2014 |
20140097531 | Power Quad Flat No-Lead (PQFN) Package in a Single Shunt Inverter Circuit - According to an exemplary implementation, a power quad flat no-lead (PQFN) package includes a driver integrated circuit (IC) situated on a leadframe. The PQFN package further includes low-side U-phase, low-side V-phase, and low-side W-phase power switches situated on the leadframe. A logic ground of the leadframe is coupled to a support logic circuit of the driver IC. A power stage ground of the leadframe is coupled to sources of the low-side U-phase, low-side V-phase, and low-side W-phase power switches. The power stage ground can further be coupled to gate drivers of the driver IC. | 04-10-2014 |
20140103514 | Power Quad Flat No-Lead (PQFN) Package Having Bootstrap Diodes on a Common Integrated Circuit (IC) - According to an exemplary implementation, a power quad flat no-lead (PQFN) package includes a multi-phase inverter situated on a leadframe. The PQFN package further includes drivers situated on the leadframe and configured to drive the multi-phase inverter. The PQFN package also includes bootstrap diodes respectively coupled to the drivers. The bootstrap diodes are in a common integrated circuit (IC) that is situated on the leadframe. The common IC can include the drivers. The drivers can be high side drivers that are coupled to high side power switches of the multi-phase inverter. Also, the bootstrap diodes can be coupled to a supply voltage terminal of the PQFN package. Furthermore, the PQFN package can include wirebonds coupling the common IC to bootstrap supply voltage terminals of the PQFN package. | 04-17-2014 |
20140117517 | Power Quad Flat No-Lead (PQFN) Package Having Control and Driver Circuits - According to an exemplary implementation, a power quad flat no-lead (PQFN) package includes a multi-phase power inverter, a control circuit, and a driver circuit. The driver circuit is configured to drive the multi-phase power inverter responsive to a control signal from the control circuit. The multi-phase power inverter, the control circuit, and the driver circuit are each situated on a PQFN leadframe of the PQFN package. The control circuit and the driver circuit can be in a common integrated circuit (IC). Furthermore, the control circuit can be configured to reconstruct at least two phase currents of the multi-phase power inverter from a combined phase current. | 05-01-2014 |
20140117518 | Control and Driver Circuits on a Power Quad Flat No-Lead (PQFN) Leadframe - According to an exemplary implementation, a power quad flat no-lead (PQFN) leadframe includes U-phase and W-phase power switches situated on the PQFN leadframe and respectively connected to a U-phase output strip and a W-phase output pad of the PQFN leadframe. The PQFN leadframe further includes a common integrated circuit (IC) including a driver circuit and a control circuit where the common IC is connected to the U-phase output strip and to the W-phase output pad of the PQFN leadframe. The PQFN leadframe can also include a V-phase power switch situated on the PQFN leadframe where the V-phase power switch is connected to a V-phase output strip of the PQFN leadframe. | 05-01-2014 |
20140124890 | Semiconductor Package Having Multi-Phase Power Inverter with Internal Temperature Sensor - According to an exemplary implementation, a semiconductor package includes a multi-phase power inverter having power switches and situated on a leadframe of the semiconductor package. The semiconductor package further includes a temperature sensor situated on the leadframe, where the temperature sensor is configured to generate a sensed temperature of the power switches. The semiconductor package also includes a driver circuit configured to drive the power switches of the multi-phase power inverter responsive to the sensed temperature. The temperature sensor can be on a common IC with the driver circuit. Furthermore, the semiconductor package can include an over-temperature protection circuit configured to provide over-temperature protection to the multi-phase power inverter using the sensed temperature. | 05-08-2014 |
20140126256 | Semiconductor Package Having an Over-Temperature Protection Circuit Utilizing Multiple Temperature Threshold Values - According to an exemplary implementation, a semiconductor package includes a multi-phase power inverter having power switches and situated on a leadframe of the semiconductor package. The semiconductor package further includes an over-temperature protection circuit configured to reduce current through the power switches based on multiple temperature threshold values of the power switches and a sensed temperature of the power switches. The over-temperature protection circuit can be configured to enter first and second modes based on the multiple temperature threshold values and the sensed temperature, where the second mode reduces current through the power switches to a greater extent than the first mode. | 05-08-2014 |