Patent application number | Description | Published |
20080230834 | Semiconductor apparatus having lateral type MIS transistor - A semiconductor apparatus comprises: a semiconductor substrate; and a lateral type MIS transistor disposed on a surface part of the semiconductor substrate. The lateral type MIS transistor includes: a line coupled with a gate of the lateral type MIS transistor; a polycrystalline silicon resistor that is provided in the line, and that has a conductivity type opposite to a drain of the lateral type MIS transistor; and an insulating layer through which a drain voltage of the lateral type MIS transistor is applied to the polycrystalline silicon resistor. | 09-25-2008 |
20080290490 | Semiconductor device and method for manufacturing the same - A semiconductor device includes: a first substrate made of semiconductor and having first regions, which are insulated from each other and disposed in the first substrate; and a second substrate having electric conductivity and having second regions and insulation trenches. Each insulation trench penetrates the second substrate so that the second regions are insulated from each other. The first substrate provides a base substrate, and the second substrate provides a cap substrate. The second substrate is bonded to the first substrate so that a sealed space is provided between a predetermined surface region of the first substrate and the second substrate. The second regions include an extraction conductive region, which is coupled with a corresponding first region. | 11-27-2008 |
20090008728 | Semiconductor device and manufacturing method of the same - A semiconductor device includes: a sensor element having a plate shape with a surface and including a sensor structure disposed in a surface portion of the sensor element; and a plate-shaped cap element bonded to the surface of the sensor element. The cap element has a wiring pattern portion facing the sensor element. The wiring pattern portion connects an outer periphery of the surface of the sensor element and the sensor structure so that the sensor structure is electrically coupled with an external element via the outer periphery. The sensor element does not have a complicated multi-layered structure, so that the sensor element is simplified. Further, the dimensions of the device are reduced. | 01-08-2009 |
20090015105 | Ultrasonic sensor and method of making the same - An ultrasonic sensor includes a piezoelectric element and an acoustic matching member that are joined together to form an ultrasonic detector base. The ultrasonic detector base is sectioned by a clearance extending in an ultrasonic propagation direction to form multiple ultrasonic detectors arranged in an array. The clearance does not entirely section the ultrasonic detector base so that the ultrasonic detectors are joined together by a portion of the ultrasonic detector base. | 01-15-2009 |
20090057812 | Semiconductor device having multiple element formation regions and manufacturing method thereof - In a manufacturing of a semiconductor device, at least one of elements is formed in each of element formation regions of a substrate having a main side and a rear side, and the substrate is thinned by polished from a rear side of the substrate, and then, multiple trenches are formed on the rear side of the substrate, so that each trench reaches the main side of the substrate. After that, an insulating material is deposited over an inner surface of each trench to form an insulating layer in the trench, so that the element formation regions are isolated. Thereby, generation of cracks and structural steps in the substrate and separation of element formation regions from the substrate can be suppressed. | 03-05-2009 |
20090071259 | Pressure Sensor and Manufacturing Method Thereof - A pressure sensor for a pressure medium includes: a sensor chip ( | 03-19-2009 |
20090079017 | Semiconductor device having multiple substrates - A semiconductor device includes a first substrate including first, second and third layers; and a second substrate including fourth, fifth and sixth layers. The first substrate provides an electric device. The second substrate provides a physical quantity sensor. The first layer of the first substrate and the fourth layer of the second substrate are shields for protecting the electric device and the physical quantity sensor. The device is protected from outside disturbance without adding an additional shield. | 03-26-2009 |
20090108288 | Semiconductor device and method of manufacturing the same - A semiconductor device includes a semiconductor substrate that includes a plurality of section having different thicknesses. The sections include a first section having a first thickness and a second section having a second thickness, the second section is the thinnest section among all the sections, and the first thickness is greater than the second thickness. A plurality of isolation trenches penetrates the semiconductor substrate for defining a plurality of element-forming regions in the first section and the second section. A plurality of elements is located at respective ones of the plurality of element-forming regions. The elements include a double-sided electrode element that includes a pair of electrodes separately disposed on the first surface and the second surface, and the double-sided electrode element is located in the second section. | 04-30-2009 |
20090114974 | Semiconductor device including a plurality of memory cells and method of manufacturing semiconductor device - A semiconductor device includes a semiconductor substrate, a plurality of memory cells, a plurality of bit lines, and a plurality of source lines. The memory cells are located in the semiconductor substrate. Each of the memory cells includes a trench provided in the semiconductor substrate, an oxide layer disposed on a sidewall of the trench, a tunnel oxide layer disposed at a bottom portion of the trench, a floating gate disposed in the trench so as to be surrounded by the oxide layer and the tunnel oxide layer, and an erasing electrode disposed on an opposing side of the tunnel oxide layer from the floating gate. The bit lines and the source lines are alternately arranged on the memory cells in parallel with each other. | 05-07-2009 |
20090114985 | Semiconductor apparatus and method for manufacturing the same - A semiconductor apparatus is disclosed. The semiconductor apparatus includes a semiconductor substrate that has a first surface and a second surface opposite to each other. The semiconductor apparatus further includes multiple double-sided electrode elements each having a pair of electrodes located respectively on the first and second surfaces of the semiconductor substrate. A current flows between the first and second electrode. Each double-sided electrode element has a PN column region located in the semiconductor substrate. The semiconductor apparatus further includes an insulation trench that surrounds each of multiple double-sided electrode elements, and that insulates and separates the multiple double-sided electrode elements from each other. | 05-07-2009 |
20090127624 | Semiconductor device having soi substrate and method for manufacturing the same - A semiconductor device includes: a SOI substrate including a support layer, a first insulation film and a SOI layer; a first circuit; a second circuit; and a trench separation element. The SOI substrate further includes a first region and a second region. The first region has the support layer, the first insulation film and the SOI layer, which are stacked in this order, and the second region has only the support layer. The trench separation element penetrates the support layer, the first insulation film and the SOI layer. The trench separation element separates the first region and the second region. The first circuit is disposed in the SOI layer of the first region. The second circuit is disposed in the support layer of the second region. | 05-21-2009 |
20090194827 | Semiconductor Device Having Element Portion and Method of Producing the Same - A semiconductor device includes a semiconductor substrate, an element portion provided in the semiconductor substrate, and a connecting portion connected to the semiconductor substrate electrically, in which the connecting portion is formed of a conductive material in order to perform an electrical connection to an outside. The connecting portion is directly in contact with a surface of the semiconductor substrate such that the connecting portion and the semiconductor substrate are connected electrically. | 08-06-2009 |
20090261430 | Physical quantity sensor and method for manufacturing the same - A physical quantity sensor includes: a sensor substrate including a first support substrate, a first insulation film and a first semiconductor layer, which are stacked in this order; a cap substrate including a second support substrate disposed on the first semiconductor layer, and has a P conductive type; and multiple electrodes, which are separated from each other. The first support substrate, the first insulation film and the first semiconductor layer have the P conductive type. The physical quantity is detected based on a capacitance between the plurality of electrodes, and the electrodes are disposed in the first semiconductor layer. | 10-22-2009 |
20090282915 | Physical quantity sensor and method of making the same - A physical quantity sensor includes a sensor portion, a casing, and a vibration isolator. The casing includes a supporting portion with a supporting surface that is located to face an end surface of the sensor portion. The vibration isolator is located between the end surface of the sensor portion and the supporting surface of the casing to join the sensor portion to the casing. The vibration isolator reduces a relative vibration between the sensor portion and the casing. | 11-19-2009 |
20090289351 | Semiconductor apparatus having both-side heat radiation structure and method for manufacturing the same - A semiconductor apparatus having a first surface and a second surface opposite to the first surface includes: a semiconductor chip having a front side and a backside; a first heat radiation member electrically and thermally coupled with the backside of the chip; a second heat radiation member electrically and thermally coupled with the front side of the chip; and a resin mold sealing the first and second heat radiation members together with the chip. At least one of the first and second heat radiation members is exposed on both of the first and second surfaces. | 11-26-2009 |
20100050767 | Angular velocity sensor - An angular velocity sensor includes first and second oscillators and a coupling beam. The coupling beam couples the first and second oscillators together in such a manner that the first and second oscillators vibrate relative to each other in a predetermined direction. The coupling beam includes a first post portion joined to a surface of the first oscillator, a second post portion joined to a surface of the second oscillator, and a spring portion that joins the first post portion to the second post portion. The spring portion is spaced from the first and second oscillators and has elasticity in the predetermined direction. | 03-04-2010 |
20100109136 | Semiconductor device including semiconductor chip mounted on lead frame - A semiconductor device includes a lead frame, a semiconductor chip, a substrate, a plurality of chip parts, a plurality of wires, and a resin member. The lead frame includes a chip mounted section and a plurality of lead sections. The semiconductor chip is mounted on the chip mounted section. The substrate is mounted on the chip mounted section. The chip parts are mounted on the substrate. Each of the chip parts has a first end portion and a second end portion in one direction, and each of the chip parts has a first electrode at the first end portion and a second electrode at the second end portion. Each of the wires couples the second electrode of one of the chip parts and one of the lead sections. The resin member covers the lead frame, the semiconductor chip, the substrate, the chip parts, and the wires. | 05-06-2010 |
20100117167 | Semiconductor dymamic quantity sensor and method of producing the same - A semiconductor dynamic quantity sensor includes a sensor part and a cap connected to the sensor part. Dynamic quantity is detected based on a capacitance of a capacitor defined between a movable electrode and a fixed electrode of the sensor part. A float portion of the sensor part is separated from a support board of the sensor part to define a predetermined interval. At least one of the cap and the support board has a displacing portion displacing the float portion in a direction perpendicular to the support board so as to change the predetermined interval. The movable electrode has a displacement in accordance with the displaced float portion. | 05-13-2010 |
20100155865 | Semiconductor device and method of making the same - A semiconductor device includes a sensor portion, a cap portion, and an ion-implanted layer. The sensor portion has a sensor structure at a surface portion of a surface. The cap portion has first and second surfaces opposite to each other and includes a through electrode. The surface of the sensor portion is joined to the first surface of the cap portion such that the sensor structure is sealed between the sensor portion and the cap portion. The ion-implanted layer is located on the second surface of the cap portion. The through electrode extends from the first surface to the second surface and is exposed through the ion-implanted layer. | 06-24-2010 |
20100176466 | Semiconductor device and method of making the same - A semiconductor device includes a sensor member and a cap member. The sensor member has a surface and includes a first sensing section. The first sensing section includes first and second portions that are located on the surface side of the sensor member and electrically insulated from each other. The cap member has a surface and includes a cross wiring portion. The surface of the cap member is joined to the surface of the sensor member in such a manner that the first sensing section is sealed by the sensor member and the cap member. The cross wiring portion electrically connects the first portion to the second portion. | 07-15-2010 |
20100176480 | Semiconductor device, method for manufacturing the same, and multilayer substrate having the same - A method for manufacturing a semiconductor device includes: preparing a wafer formed of a SOI substrate; forming a circuit portion in a principal surface portion; removing a support substrate of the SOI substrate; fixing an insulation member on a backside of a semiconductor layer so as to be opposite to the circuit portion; dicing the wafer and dividing the wafer into multiple chips; arranging a first conductive member on the insulation member so as to be opposite to a part of the low potential reference circuit, and arranging a second conductive member on the insulation member so as to be opposite to a part of the high potential reference circuit; and coupling the first conductive member with a first part of the low potential reference circuit, and coupling the second conductive member with a second part of the high potential reference circuit. | 07-15-2010 |
20100229646 | OSCILLATING ANGULAR SPEED SENSOR - An oscillating angular speed sensor includes a detector, a driving portion, and a separating portion. When an angular speed is generated while the detector is driven to oscillate by the driving portion, Coriolis force is applied to the detector. Therefore, the angular speed is detected based on a capacitance variation in accordance with a variation of an interval between a movable electrode and a fixed electrode of the detector. The separating portion is distanced from the detector and the driving portion, and is configured to separate a first space accommodating the detector and a second space accommodating the driving portion. | 09-16-2010 |
20100235107 | CONCENTRATION SENSOR DEVICE AND CONCENTRATION DETECTING METHOD - A concentration sensor device includes a sensor unit, a substrate, and a sedimentation limit unit. The sensor unit detects a concentration of a specific component contained in liquid. The substrate has a face to which the sensor unit is arranged. The sedimentation limit unit is integrally arranged with the sensor unit or arranged at an upstream side of the sensor unit in a flowing direction of the liquid. The sedimentation limit unit is configured to prevent sedimentation of a foreign object on the sensor unit. The sedimentation limit unit includes a piezoelectric element to vibrate when electricity is supplied so as to promote the foreign object to be separated from the sensor unit. The substrate has a recess recessed in a thickness direction of the substrate. | 09-16-2010 |
20100252898 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device includes a first semiconductor substrate, a second semiconductor substrate, and a sealing member. The first semiconductor substrate has a surface and includes a sensing portion on the surface side. The sensing portion has a movable portion. The first semiconductor substrate and the second semiconductor substrate are bonded together to form a stacked substrate. The stacked substrate defines a hermetically sealed space for accommodating the sensing portion between the first and second semiconductor substrates. The stacked substrate further defines a recess extending between the first semiconductor substrate and the second semiconductor substrate to penetrate an interface between the first semiconductor substrate and the second semiconductor substrate. The sealing member is located in the recess. | 10-07-2010 |
20100270630 | Semiconductor device and method for manufacturing the same - A semiconductor device includes: a first substrate made of semiconductor and having first regions, which are insulated from each other and disposed in the first substrate; and a second substrate having electric conductivity and having second regions and insulation trenches. Each insulation trench penetrates the second substrate so that the second regions are insulated from each other. The first substrate provides a base substrate, and the second substrate provides a cap substrate. The second substrate is bonded to the first substrate so that a sealed space is provided between a predetermined surface region of the first substrate and the second substrate. The second regions include an extraction conductive region, which is coupled with a corresponding first region. | 10-28-2010 |
20100307246 | Semiconductor dynamic quantity sensor and method of manufacturing the same - A semiconductor dynamic quantity sensor has a substrate including a semiconductor substrate, an insulation layer on a main surface of the semiconductor substrate, and a semiconductor layer on the insulation layer. The main surface has a projection that is trapezoidal or triangular in cross section. The semiconductor layer is divided by a through hole into a movable portion. A tip of the projection is located directly below the movable portion and spaced from the movable portion by a predetermined distance in a thickness direction of the substrate. A width of the tip of the projection is less than a width of the movable portion in a planar direction of the substrate. The distance between the tip of the projection and the movable portion is equal to a thickness of the insulation layer. | 12-09-2010 |
20110042741 | Semiconductor device having semiconductor chip and metal plate and method for manufacturing the same - A semiconductor device includes a first protection film for covering a first metal wiring. A second protection film is disposed on the first protection film, which is covered with a solder layer. Even if a crack is generated in the second protection film before the solder layer is formed on the second protection film, the crack is restricted from proceeding into the first protection film. | 02-24-2011 |
20110094303 | Physical quantity sensor and method of making the same - A physical quantity sensor includes a sensor portion, a casing, and a vibration isolator. The casing includes a supporting portion with a supporting surface that is located to face an end surface of the sensor portion. The vibration isolator is located between the end surface of the sensor portion and the supporting surface of the casing to join the sensor portion to the casing. The vibration isolator reduces a relative vibration between the sensor portion and the casing. | 04-28-2011 |
20110133295 | REGION DIVIDED SUBSTRATE AND SEMICONDUCTOR DEVICE - A region divided substrate includes a substrate, a plurality of trenches, a conductive layer, and an insulating member. The substrate has a first surface and a second surface opposed to each other. The trenches penetrate the substrate from the first surface to the second surface and divide the substrate into a plurality of partial regions. The conductive layer is disposed on a sidewall of each of the trenches from a portion adjacent to the first surface to a portion adjacent to the second surface. The conductive layer has an electric conductivity higher than an electric conductivity of the substrate. The insulating member fills each of the trenches through the conductive layer. | 06-09-2011 |
20110147859 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device includes a base substrate made of silicon, a cap substrate and a leading electrode having a metal part. The base substrate has base semiconductor regions being insulated and separated from each other at a predetermined portion of a surface layer thereof. The cap substrate is bonded to the predetermined portion of the surface layer of the base substrate. The leading electrode has a first end connected to one of the plurality of base semiconductor regions of the base substrate and extends through the cap substrate such that a second end of the leading electrode is located adjacent to a surface of the cap substrate for allowing an electrical connection with an external part, the surface being opposite to a bonding surface at which the base substrate and the cap substrate are bonded. The leading electrode defines a groove between an outer surface thereof and the cap substrate. | 06-23-2011 |
20110147863 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF THE SAME - A semiconductor device includes: a sensor element having a plate shape with a surface and including a sensor structure disposed in a surface portion of the sensor element; and a plate-shaped cap element bonded to the surface of the sensor element. The cap element has a wiring pattern portion facing the sensor element. The wiring pattern portion connects an outer periphery of the surface of the sensor element and the sensor structure so that the sensor structure is electrically coupled with an external element via the outer periphery. The sensor element does not have a complicated multi-layered structure, so that the sensor element is simplified. Further, the dimensions of the device are reduced. | 06-23-2011 |
20110227174 | SEMICONDUCTOR PHYSICAL QUANTITY SENSOR AND METHOD OF MANUFACTURING THE SAME - In a semiconductor physical quantity sensor, a pattern portion including a wiring pattern as a wiring is formed on a surface of a first semiconductor substrate. A support substrate having a surface made of an electrically insulating material is prepared. The first semiconductor substrate is joined to the support substrate by bonding the pattern portion to the surface of the support substrate. Further, a sensor structure is formed in the first semiconductor substrate. The sensor structure is electrically connected to the wiring pattern. A cap is bonded to the first semiconductor substrate such that the sensor structure is hermetically sealed. | 09-22-2011 |
20110248363 | PHYSICAL QUANTITY DETECTION DEVICE AND METHOD FOR MANUFACTURING THE SAME - A physical quantity detection device includes: an insulating layer; a semiconductor layer on the insulating layer; and first and second electrodes in the semiconductor layer. Each electrode has a wall part, one of which includes two diaphragms and a cover part. The diaphragms facing each other provide a hollow cylinder having an opening covered by the cover part. One diaphragm faces the other wall part or one diaphragm in the other wall part. A distance between the one diaphragm and the other wall part or the one diaphragm in the other wall part is changed with pressure difference between reference pressure in the hollow cylinder and pressure of an outside when a physical quantity is applied to the diaphragms. The physical quantity is detected by a capacitance between the first and second electrodes. | 10-13-2011 |
20110266666 | CIRCUIT BOARD WITH BUILT-IN SEMICONDUCTOR CHIP AND METHOD OF MANUFACTURING THE SAME - A circuit board includes an insulating member and a semiconductor chip encapsulated with the thermoplastic resin portion of the insulating member. A wiring member is located in the insulating member and electrically connected to first and second electrodes on respective sides of the semiconductor chip. The wiring member includes a pad, an interlayer connection member, and a connection portion. A diffusion layer is located between the first electrode and the connection portion between the pad and the connection portion, and between the second electrode and the interlayer connection member. At least one element of the interlayer connection member has a melting point lower than a glass-transition point of the thermoplastic resin portion. The connection portion is made of material having a melting point higher than a melting point of the thermoplastic resin portion. | 11-03-2011 |
20110268593 | ELECTRIC DEVICE MOUNTED IN ELECTRIC COMPRESSOR - An electric device includes: a circuit board arranged in cooling medium in a housing and having an electric element and an external coupling electrode, wherein the electric element is sealed in and mounted in a substrate, and the electric element is electrically coupled with the external coupling electrode; an external coupling terminal electrically coupled with the external coupling electrode; and a separation member for separating the external coupling terminal and a connection portion between the external coupling electrode and the external coupling terminal away from the cooling medium. | 11-03-2011 |
20120025874 | SEMICONDUCTOR DEVICE HAVING SWITCHING ELEMENT AND FREE WHEEL DIODE AND METHOD FOR CONTROLLING THE SAME - A semiconductor device includes a switching element having: a drift layer; a base region; an element-side first impurity region in the base region; an element-side gate electrode sandwiched between the first impurity region and the drift layer; a second impurity region contacting the drift layer; an element-side first electrode coupled with the element-side first impurity region and the base region; and an element-side second electrode coupled with the second impurity region, and a FWD having: a first conductive layer; a second conductive layer; a diode-side first electrode coupled to the second conductive layer; a diode-side second electrode coupled to the first conductive layer; a diode-side first impurity region in the second conductive layer; and a diode-side gate electrode in the second conductive layer sandwiched between first impurity region and the first conductive layer and having a first gate electrode as an excess carrier injection suppression gate. | 02-02-2012 |
20120223410 | REGION-DIVIDED SUBSTRATE, SEMICONDUCTOR DEVICE HAVING REGION-DIVIDED SUBSTRATE, AND METHOD FOR MANUFACTURING THE SAME - A region-divided substrate includes: a substrate having a first surface and a second surface opposite to the first surface and having a plurality of partial regions, which are divided by a plurality of trenches, wherein each trench penetrates the substrate from the first surface to the second surface; a conductive layer having an electrical conductivity higher than the substrate and disposed on a sidewall of one of the plurality of partial regions from the first surface to the second surface; and an insulator embedded in each trench. | 09-06-2012 |
20120299127 | DYNAMIC QUANTITY SENSOR DEVICE AND MANUFACTURING METHOD OF THE SAME - A dynamic quantity sensor device includes: first and second dynamic quantity sensors having first and second dynamic quantity detecting units; and first and second substrates, which are bonded to each other to provide first and second spaces. The first and second units are air-tightly accommodated in the first and second spaces, respectively. A SOI layer of the first substrate is divided into multiple semiconductor regions by trenches. First and second parts of the semiconductor regions provide the first and second units, respectively. The second part includes: a second movable semiconductor region having a second movable electrode, which is provided by a sacrifice etching of the embedded oxide film; and a second fixed semiconductor region having a second fixed electrode. The second sensor detects the second dynamic quantity by measuring a capacitance between the second movable and fixed electrodes, which is changeable in accordance with the second dynamic quantity. | 11-29-2012 |
20120302036 | SEMICONDUCTOR DEVICE HAVING SOI SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device includes: a SOI substrate including a support layer, a first insulation film and a SOI layer; a first circuit; a second circuit; and a trench separation element. The SOI substrate further includes a first region and a second region. The first region has the support layer, the first insulation film and the SOI layer, which are stacked in this order, and the second region has only the support layer. The trench separation element penetrates the support layer, the first insulation film and the SOI layer. The trench separation element separates the first region and the second region. The first circuit is disposed in the SOI layer of the first region. The second circuit is disposed in the support layer of the second region. | 11-29-2012 |
20130098155 | PHYSICAL QUANTITY SENSOR AND METHOD OF MAKING THE SAME - A physical quantity sensor includes a sensor portion, a casing, and a vibration isolator. The casing includes a supporting portion with a supporting surface that is located to face an end surface of the sensor portion. The vibration isolator is located between the end surface of the sensor portion and the supporting surface of the casing to join the sensor portion to the casing. The vibration isolator reduces a relative vibration between the sensor portion and the casing. | 04-25-2013 |
20130178008 | METHOD OF MAKING SEMICONDUCTOR DEVICE - A semiconductor device includes a sensor portion, a cap portion, and an ion-implanted layer. The sensor portion has a sensor structure at a surface portion of a surface. The cap portion has first and second surfaces opposite to each other and includes a through electrode. The surface of the sensor portion is joined to the first surface of the cap portion such that the sensor structure is sealed between the sensor portion and the cap portion. The ion-implanted layer is located on the second surface of the cap portion. The through electrode extends from the first surface to the second surface and is exposed through the ion-implanted layer. | 07-11-2013 |
20140048922 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device includes a base substrate made of silicon, a cap substrate and a leading electrode having a metal part. The base substrate has base semiconductor regions being insulated and separated from each other at a predetermined portion of a surface layer thereof. The cap substrate is bonded to the predetermined portion of the surface layer of the base substrate. The leading electrode has a first end connected to one of the plurality of base semiconductor regions of the base substrate Wand extends through the cap substrate such that a second end of the leading electrode is located adjacent to a surface of the cap substrate for allowing an electrical connection with an external part, the surface being opposite to a bonding surface at which the base substrate and the cap substrate are bonded. The leading electrode defines a groove between an outer surface thereof and the cap substrate. | 02-20-2014 |
20140053648 | PHYSICAL QUANTITY SENSOR AND METHOD OF MAKING THE SAME - A physical quantity sensor includes a sensor portion, a casing, and a vibration isolator. The casing includes a supporting portion with a supporting surface that is located to face an end surface of the sensor portion. The vibration isolator is located between the end surface of the sensor portion and the supporting surface of the casing to join the sensor portion to the casing. The vibration isolator reduces a relative vibration between the sensor portion and the casing. | 02-27-2014 |
20140084437 | SEMICONDUCTOR DEVICE INCLUDING SEMICONDUCTOR CHIP MOUNTED ON LEAD FRAME - A semiconductor device includes a lead frame, a semiconductor chip, a substrate, a plurality of chip parts, a plurality of wires, and a resin member. The lead frame includes a chip mounted section and a plurality of lead sections. The semiconductor chip is mounted on the chip mounted section. The substrate is mounted on the chip mounted section. The chip parts are mounted on the substrate. Each of the chip parts has a first end portion and a second end portion in one direction, and each of the chip parts has a first electrode at the first end portion and a second electrode at the second end portion. Each of the wires couples the second electrode of one of the chip parts and one of the lead sections. The resin member covers the lead frame, the semiconductor chip, the substrate, the chip parts, and the wires. | 03-27-2014 |
20150041850 | SEMICONDUCTOR DEVICE HAVING SWITCHING ELEMENT AND FREE WHEEL DIODE AND METHOD FOR CONTROLLING THE SAME - A semiconductor device includes a switching element having: a drift layer; a base region; an element-side first impurity region in the base region; an element-side gate electrode sandwiched between the first impurity region and the drift layer; a second impurity region contacting the drift layer; an element-side first electrode coupled with the element-side first impurity region and the base region; and an element-side second electrode coupled with the second impurity region, and a FWD having: a first conductive layer; a second conductive layer; a diode-side first electrode coupled to the second conductive layer; a diode-side second electrode coupled to the first conductive layer; a diode-side first impurity region in the second conductive layer; and a diode-side gate electrode in the second conductive layer sandwiched between first impurity region and the first conductive layer and having a first gate electrode as an excess carrier injection suppression gate. | 02-12-2015 |