Patent application number | Description | Published |
20080251898 | Semiconductor device - A semiconductor device includes: a semiconductor element; a die pad with the semiconductor element mounted thereon; a plurality of electrode terminals each having a connecting portion electrically connected with the semiconductor element; and a sealing resin for sealing the semiconductor element, the die pad and the electrode terminals so that a surface of each electrode terminal on an opposite side from a surface having the connecting portion is exposed as an external terminal surface. A recess having a planar shape of a circle is formed on the surface of each electrode terminal with the connecting portion, and the recess is arranged between an end portion of the electrode terminal exposed from an outer edge side face of the sealing resin and the connecting portion. While a function of the configuration for suppressing the peeling between the electrode terminal and the sealing resin can be maintained by mitigating an external force applied to the electrode terminal, the semiconductor device can be downsized. | 10-16-2008 |
20080303107 | OPTICAL DEVICE AND METHOD FOR FABRICATING THE SAME, CAMERA MODULE USING OPTICAL DEVICE, AND ELECTRONIC EQUIPMENT MOUNTING CAMERA MODULE - An optical device includes a light receiving element chip having: an active region formed on a principal plane of a substrate and made by arranging a plurality of light receiving pixels; a circuit region disposed around an outer circumference of the active region; a penetrating conductor provided to penetrate the substrate in the thickness direction of the substrate; and an external connection terminal provided on a back surface of the substrate facing the principal plane thereof and connected to the penetrating conductor. The optical device further includes a microlens, a planarization film, and a transparent protective film formed on the planarization film. | 12-11-2008 |
20080304790 | OPTICAL DEVICE AND METHOD FOR FABRICATING THE SAME - An optical device includes a base, an optical element chip attached to the base, an integrated circuit chip attached onto the back surface of the optical element chip, and a translucent member (window member). A wire is buried within the base, and the wire has an internal terminal portion, an external terminal portion, and a midpoint terminal portion. A pad electrode of the optical element chip is connected to the internal terminal portion through a bump, and a pad electrode of the integrated circuit chip is connected to the midpoint terminal portion through a fine metal wire. | 12-11-2008 |
20090034760 | ELECTRONIC COMPONENT, FABRICATION METHOD FOR THE SAME AND ELECTRONIC DEVICE HAVING THE SAME - The electronic component includes: a fixed film; a vibration film facing the fixed film; a first electrode formed on the fixed film and having at least one first through hole in the center portion; and a second electrode formed on a portion of the vibration film corresponding to the first electrode and having at least one second through hole in the peripheral portion. An air gap communicating with the first and second through holes is formed between the fixed film and the vibration film and surrounded with a rib. At least one side hole is provided to extend in the rib surrounding the air gap from the air gap toward outside. | 02-05-2009 |
20090086769 | SEMICONDUCTOR DEVICE - A semiconductor device includes an optical semiconductor element, a package including a base made of a metal for mounting the optical semiconductor element, and a cap for encapsulating the optical semiconductor element and a gas by covering the package and the optical semiconductor element. The gas encapsulated with the package has an oxygen concentration not less than 15% and less than 30% and has a dew-point not less than −15° C. and not more than −5° C. | 04-02-2009 |
20090091013 | LEAD FRAME, ELECTRONIC COMPONENT INCLUDING THE LEAD FRAME, AND MANUFACTURING METHOD THEREOF - A lead frame of the present invention includes: a die pad on which a device is mounted; a first connection terminal which is provided around the die pad, and the lower surface of which serves as an external terminal; a second connection terminal which is provided around the die pad and electrically independent of the die pad, and the upper surface of which serves as an external terminal; a bent part provided between the first and the second connection terminals and connecting the first and the second connection terminals; and an outer frame. The bent part is bending-processed in a direction perpendicular to a face of the die pad. Within the outer frame, electronic component regions are formed adjoining each other and each including a die pad, and the first and the second connection terminals. The adjoining electronic components are connected through the first or the second connection terminal. | 04-09-2009 |
20090146301 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device capable of realizing highly reliable three-dimensional mounting, and a method of manufacturing the same, are provided. A projected electrode | 06-11-2009 |
20090294950 | SEMICONDUCTOR DEVICE - A semiconductor device includes: a semiconductor element; a die pad with the semiconductor element mounted thereon; a plurality of electrode terminals each having a connecting portion electrically connected with the semiconductor element; and a sealing resin for sealing the semiconductor element, the die pad and the electrode terminals so that a surface of each electrode terminal on an opposite side from a surface having the connecting portion is exposed as an external terminal surface. A recess having a planar shape of a circle is formed on the surface of each electrode terminal with the connecting portion, and the recess is arranged between an end portion of the electrode terminal exposed from an outer edge side face of the sealing resin and the connecting portion. While a function of the configuration for suppressing the peeling between the electrode terminal and the sealing resin can be maintained by mitigating an external force applied to the electrode terminal, the semiconductor device can be downsized. | 12-03-2009 |
20100001174 | SEMICONDUCTOR DEVICE, ITS MANUFACTURING METHOD AND OPTICAL PICKUP MODULE - In a semiconductor device, a semiconductor element is mounted on a substantially rectangular package. First ribs are respectively provided on a pair of opposite external edges of a mounting surface and project upward from the pair of opposite external edges. External edges of a lid are placed on the upper surfaces of the first ribs, and fixed thereto with an adhesive. Dams are provided on external edges of the first rib upper surfaces. The adhesive is continuously present from side surfaces of the lid to the dams. | 01-07-2010 |
20100008203 | SEMICONDUCTOR DEVICE, ITS MANUFACTURING METHOD AND OPTICAL PICKUP MODULE - A semiconductor element is mounted on a rectangular base of a package including the base and ribs provided on a pair of opposite external edges of the base. Electrode pads of the semiconductor element and connection electrodes provided on rib upper surfaces are connected to each other by metal wires. On the rib upper surfaces, spacers are provided at locations closer to the outside than the connection electrodes. A transparent lid adheres to the upper surfaces of the spacers to cover the entire surface of the package. The height of the spacers is greater than the diameter of the metal wires. | 01-14-2010 |
20100014262 | MODULE WITH EMBEDDED ELECTRONIC COMPONENTS - In a module with embedded electronic components, connection electrodes are formed on the component mounting surface of a substrate. The electrode portions of each of the electronic components are placed on the individual connection electrodes and connected in fixed relation thereto by using a solder. The electronic components are encapsulated in an encapsulating resin. When the distance between the lower surface of the main body portion of each of the electronic components and the component mounting surface is assumed to be a and the thickness of the portion of the encapsulating resin which is located above the main body portion of the electronic component is assumed to be b, if b/a is set to a value of not more than 6, it becomes possible to prevent, when the module with embedded electronic components is reflow-mounted on a printed wiring substrate or the like, the occurrence of a short circuit failure resulting from the melting and flowing of the solder which causes a short circuit between the two electrode portions. | 01-21-2010 |
20100048017 | BONDED STRUCTURE AND BONDING METHOD - An aluminum wire is bonded to a silicon electrode by a wedge tool pressing the aluminum wire against the silicon electrode. In this way, a firmly bonded structure is obtained by sequentially stacking aluminum, aluminum oxide, silicon oxide, and silicon. | 02-25-2010 |
20100091630 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE, OPTICAL PICKUP MODULE AND SEMICONDUCTOR DEVICE - A plurality of parallel rib prototypes are provided on a flat base plate. A plurality of semiconductor elements are placed in each trench between adjacent ones of the rib prototypes, and a transparent member is bonded to each of the semiconductor elements. Electrode pads of the semiconductor elements are wire bonded to connection electrodes. The trenches are then filled with an encapsulating resin. Thereafter, middle portions, in the longitudinal direction, of the rib prototypes are cut with a dicing saw, and adjacent ones of the semiconductor elements are separated from each other, thereby obtaining semiconductor devices. | 04-15-2010 |
20100091633 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE, SEMICONDUCTOR DEVICE AND OPTICAL PICKUP MODULE - A flat pre-board plate including connection electrodes, internal interconnections, and external-connection portions is prepared. This pre-board plate is cut at portions each located between adjacent ones of the connection electrodes, thereby forming trenches. A plurality of semiconductor elements are placed in each of the trenches. Electrode pads and the connection electrodes are connected to each other by metal wires. Transparent lids are placed on, and bonded to, spacers to cover the semiconductor elements. Thereafter, two lines of the connection electrodes arranged between adjacent ones of the trenches are separated from each other. Subsequently, adjacent ones of the semiconductor elements are also separated from each other. | 04-15-2010 |
20100096739 | STACKED SEMICONDUCTOR MODULE - A stacked semiconductor module is made by stacking a second semiconductor device having a second semiconductor chip mounted to the top surface of a second semiconductor substrate above the top surface of a first semiconductor device having a first semiconductor chip mounted to a first semiconductor substrate. The top surface of the first semiconductor substrate is provided with a first connection terminal and the bottom surface of the first semiconductor substrate is provided with an external connection terminal. A region of the bottom surface of the second semiconductor substrate lying opposite to the second semiconductor chip is provided with a second connection terminal. A conductive connecting member connects the first connection terminal to the second connection terminal. | 04-22-2010 |
20100128750 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD FOR THE SAME - The semiconductor device includes: a base; a first mount placed on the bottom of the base; a second mount placed on the top of the base; a first light-emitting element placed on the bottom of the first mount; and a second light-emitting element placed on the top of the second mount for emitting light. The first light-emitting element and the second light-emitting element are placed so that the emission direction of light from the second light-emitting element is at an angle of depression with respect to the emission direction of light from the first light-emitting element and that the emission direction of light from the first light-emitting element and the emission direction of light from the second light-emitting element substantially coincide with each other as viewed from above the base. | 05-27-2010 |
20100148342 | STACKED SEMICONDUCTOR MODULE - A stacked semiconductor module is made by stacking a second semiconductor device having a second semiconductor chip mounted to the top surface of a second semiconductor substrate above the top surface of a first semiconductor device having a first semiconductor chip mounted to a first semiconductor substrate. The top surface of the first semiconductor substrate is provided with a first connection terminal and the bottom surface of the first semiconductor substrate is provided with an external connection terminal. A region of the bottom surface of the second semiconductor substrate lying opposite to the second semiconductor chip is provided with a second connection terminal. A conductive connecting member connects the first connection terminal to the second connection terminal. | 06-17-2010 |
20100190287 | SEMICONDUCTOR IMAGE SENSOR AND METHOD FOR FABRICATING THE SAME - A semiconductor image sensor includes: a semiconductor imaging element including an imaging area, a peripheral circuit area, and an electrode area; cylindrical electrodes provided on electrode terminals so as to be electrically connected with an external device; and a transparent resin layer provided on the upper surface of the semiconductor imaging element. The upper surface of each cylindrical electrode and the upper surface of the transparent resin layer are substantially of the same height. | 07-29-2010 |
20100308468 | SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE FABRICATION METHOD - In a semiconductor device made of a plurality of materials, if the device is fabricated through a step of cutting the bonded plurality of materials, a boundary line of the plurality of materials is exposed on a cutting plane. Internal stress in the cutting remains at this boundary line to allow moisture and corrosive gas to easily enter into the device. In order to reduce the entrance of the moisture, the gas, and the like, the boundary appearing on the cutting plane is covered by a covering layer. At this time, partial cutting exposing the boundary line and not separating semiconductor devices are performed so that the covering layer can be formed with the plurality of semiconductor devices attached to the substrate. | 12-09-2010 |
20110001208 | SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE MANUFACTURING METHOD - An insulation is provided in a portion surrounding a light receiving portion in a semiconductor element, and a sealing resin is provided around the insulation, thereby warping the insulation outward when viewed from the light receiving portion to prevent diffuse light from returning to the light receiving portion of the semiconductor element. | 01-06-2011 |
20110083322 | OPTICAL DEVICE AND METHOD FOR MANUFACTURING THE SAME - An optical device includes a substrate, an optical element, a translucent component, a plurality of first terminals and a sealant. The sealant is located lower than the top surface of the translucent component. The top surface of the translucent component is exposed out of the sealant, while the side surface of the translucent component is covered with the sealant. | 04-14-2011 |
20110177657 | SEMICONDUCTOR DEVICE - A semiconductor device includes: a semiconductor element; a die pad with the semiconductor element mounted thereon; a plurality of electrode terminals each having a connecting portion electrically connected with the semiconductor element; and a sealing resin for sealing the semiconductor element, the die pad and the electrode terminals so that a surface of each electrode terminal on an opposite side from a surface having the connecting portion is exposed as an external terminal surface. A recess having a planar shape of a circle is formed on the surface of each electrode terminal with the connecting portion, and the recess is arranged between an end portion of the electrode terminal exposed from an outer edge side face of the sealing resin and the connecting portion. While a function of the configuration for suppressing the peeling between the electrode terminal and the sealing resin can be maintained by mitigating an external force applied to the electrode terminal, the semiconductor device can be downsized. | 07-21-2011 |
20110254094 | Semiconductor device - A semiconductor device | 10-20-2011 |
20110285003 | OPTICAL DEVICE AND METHOD FOR MANUFACTURING OPTICAL DEVICE, AND CAMERA MODULE AND ENDOSCOPE MODULE EQUIPPED WITH OPTICAL DEVICE - An optical device is equipped with a light receiving region | 11-24-2011 |
20110291253 | LEAD FRAME, ELECTRONIC COMPONENT INCLUDING THE LEAD FRAME, AND MANUFACTURING METHOD THEREOF - A lead frame of the present invention includes: a die pad on which a device is mounted; a first connection terminal which is provided around the die pad, and the lower surface of which serves as an external terminal; a second connection terminal which is provided around the die pad and electrically independent of the die pad, and the upper surface of which serves as an external terminal; a bent part provided between the first and the second connection terminals and connecting the first and the second connection terminals; and an outer frame. The bent part is bending-processed in a direction perpendicular to a face of the die pad. Within the outer frame, electronic component regions are formed adjoining each other and each including a die pad, and the first and the second connection terminals. The adjoining electronic components are connected through the first or the second connection terminal. | 12-01-2011 |
20130127034 | SEMICONDUCTOR DEVICE - A semiconductor device includes: a lead frame; a semiconductor element held by the lead frame; a frame body which is formed on the lead frame to surround the semiconductor element, cover a side surface of the lead frame, and expose a bottom surface of the lead frame; and a protective resin filling a region surrounded by the frame body. The lead frame includes an uneven part formed in a section which is part of an upper surface of the lead frame, and is covered with the frame body. | 05-23-2013 |