Patent application number | Description | Published |
20080197435 | Wafer level image sensor package with die receiving cavity and method of making the same - The present invention provides a structure of package comprising a substrate with a die receiving cavity formed within an upper layer of the substrate, wherein terminal pads are formed on the upper surface of the substrate, the same plain as the micro lens. A die is disposed within the die receiving cavity by adhesion and a dielectric layer formed on the die and the substrate. A re-distribution metal layer (RDL) is formed on the dielectric layer and coupled to the die. An opening is formed within the dielectric layer and a top protection layer to expose the micro lens area of the die for Image Sensor chip. A protection layer (film) be coated on the micro lens area with water repellent and oil repellent to away the particle contamination. A transparent cover with coated IR filter is optionally formed over the micron lens area for protection. | 08-21-2008 |
20080197469 | Multi-chips package with reduced structure and method for forming the same - The present invention provides a structure of multi-chips package and Method of the same comprising a substrate with a pre-formed die receiving cavity formed within an upper surface of the substrate. A die is disposed within the die receiving cavity by adhesion and an elastic dielectric layer filled into a gap between the die and the substrate to absorb thermal mechanical stress; therefore the thickness of the package is reduced and the CTE mismatch of the structure is reduced. The present invention also provides a structure for SIP with higher reliability and lower manufacturing cost. the process is simpler and it is easy to form the multi-chips package than the traditional one. Therefore, the present invention discloses a fan-out WLP with reduced thickness and good CTE matching performance. | 08-21-2008 |
20080197474 | Semiconductor device package with multi-chips and method of the same - The present invention provides a semiconductor device package with the multi-chips comprising a substrate with at least a die receiving through hole, connecting through holes structure and first contact pads on an upper surface and second contact pads on a lower surface of the substrate. At least a first die having first bonding pads is disposed within the die receiving through hole. A first adhesion material is formed under the die and a second adhesion material is filled in the gap between the die and sidewall of the die receiving though hole of the substrate. Then, a first bonding wire is formed to couple the first bonding pads and the first contact pads. Further, at least a second die having second bonding pads is placed on the first die. A second bonding wire is formed to couple to the second bonding pads and the first contact pads. A dielectric layer is formed on the first and second bonding wire, the first and second die and the substrate. | 08-21-2008 |
20080197478 | SEMICONDUCTOR DEVICE PACKAGE WITH DIE RECEIVING THROUGH-HOLE AND CONNECTING THROUGH-HOLE AND METHOD OF THE SAME - The present invention provides a semiconductor device package with the die receiving through hole and connecting through holes structure comprising a substrate with a die receiving through hole, connecting through holes structure and first contact pads on an upper surface and second contact pads on a lower surface of the substrate. A die is disposed within the die receiving through hole. A first adhesion material is formed under the die and a second adhesion material is filled in the gap between the die and sidewall of the die receiving though hole of the substrate. Further, a bonding wire is formed to couple and the bonding pads and the first contact pads. A dielectric layer is formed on the bonding wire, the die and the substrate. | 08-21-2008 |
20080197480 | Semiconductor device package with multi-chips and method of the same - The present invention provides a semiconductor device package with the multi-chips comprising a substrate with a die receiving through hole, a conductive connecting through holes structure and coupled the first contact pads on an upper surface and second contact pads on a lower surface of the substrate through a conductive connecting through holes. A first die having first bonding pads is disposed within the die receiving through hole. A first adhesion material is formed under the die and a second adhesion material is filled in the gap between the die and sidewall of the die receiving though holes of the substrate. Then, a first conductive wire is formed to couple the first bonding pads and the first contact pads. Further, a second die having second bonding pads is attached on the first die. A second conductive wire is formed to couple the second bonding pads and the first contact pads. A plurality of dielectric layer is formed on the first and second bonding wire, the first and second die and the substrate. | 08-21-2008 |
20080206918 | IMAGE SENSOR PACKAGE AND FORMING METHOD OF THE SAME - An image sensor package comprises a substrate, a chip mounted over the substrate. A molding material is formed surrounding the chip to expose a micron lens area, wherein the molding material includes via structure passing there through. A protection layer is formed on the micro lens area to prevent the micro lens. A redistributed conductive layer is formed over the molding material to connect to a pad of the chip. Metal pads are formed on via structure as connecting points with PCB. A cover layer is formed over the substrate to isolate the metal pads. | 08-28-2008 |
20080211075 | IMAGE SENSOR CHIP SCALE PACKAGE HAVING INTER-ADHESION WITH GAP AND METHOD OF THE SAME - A structure of semiconductor device package having inter-adhesion with gap comprising: a chip with bonding pads and a sensor area embedded into a substrate with die window and inter-connecting through holes, wherein a RDL is formed over the substrate for coupling between the bonding pads and the inter-connecting through holes; a multiple rings (dam bar) formed over the substrate, the RDL, and the bonding pads area except the sensor area; an adhesive glues fill into the space of the multiple ring except the sensor area; and a transparency material bonded on the top of the multiple ring and the adhesive glues, wherein the adhesive glues adhesion between the transparency material and the multiple rings. | 09-04-2008 |
20080211080 | Package structure to improve the reliability for WLP - The present invention provides a package structure to improve the reliability for WLP (Wafer Level Package). The package structure includes at least two areas. One area is harder than another. The hard area sustains more shears resulting from board drop test than the soft area in order to disperse the shear in the soft area to avoid the peeling of the buffer layers within the soft area. | 09-04-2008 |
20080217761 | Structure of semiconductor device package and method of the same - The present invention provides a semiconductor device package comprising a substrate with at lease a pre-formed die receiving cavity formed and terminal contact metal pads formed within an upper surface of the substrate. At lease a first die is disposed within the die receiving cavity. A first dielectric layer is formed on the first die and the substrate and refilled into a gap between the first die and the substrate to absorb thermal mechanical stress there between. A first re-distribution layer (RDL) is formed on the first dielectric layer and coupled to the first die. A second dielectric layer is formed on the first RDL, and then a second die is disposed on the second dielectric layer and surrounded by core pastes having through holes thereon. A second re-distribution layer (RDL) is formed on the core pastes to fill the through holes, and then a third dielectric layer formed on the second RDL. | 09-11-2008 |
20080224248 | Image sensor module having build-in package cavity and the method of the same - The present invention provides an image sensor module having build-in package cavity and the Method of the same. An image sensor module structure comprising a substrate with a package receiving cavity formed within an upper surface of the substrate and conductive traces within the substrate, and a package having a die with a micro lens disposed within the package receiving cavity. A dielectric layer is formed on the package and the substrate, a re-distribution conductive layer (RDL) is formed on the dielectric layer, wherein the RDL is coupled to the die and the conductive traces and the dielectric layer has an opening to expose the micro lens. A lens holder is attached on the substrate and the lens holder has a lens attached an upper portion of the lens holder. A filter is attached between the lens and the micro lens. The structure further comprises a passive device on the upper surface of the substrate within the lens holder. | 09-18-2008 |
20080224276 | Semiconductor device package - The present invention provides a package structure and a method for forming the same; wherein the structure comprises a substrate with certain open through holes filled with conducting metals for performing electrical connection or heat dissipation, a chip with bonding pads attached on the contacting pad by an adhesive with high thermal conductivity, wire bounded the contacting pad and the chip pad, a protection layer covered on the chip, wire and a portion of pad by molding or dispensing and a solder ball disposed on the pad. The advantages of the present invention are: the structure is reduced; the heat dissipation of the structure is enhanced; the structure can form package on package structure; the pads provides better ground shielding, heat dissipation of the structure. | 09-18-2008 |
20080224306 | MULTI-CHIPS PACKAGE AND METHOD OF FORMING THE SAME - The present invention provides a structure of multi-chips package comprising: a substrate with a die receiving cavity formed within an upper surface of the substrate and a first through holes structure, wherein terminal pads are formed under the first through holes structure. A first die is disposed within the die receiving cavity and a first dielectric layer is formed on the first die and the substrate. A first re-distribution conductive layer (RDL) is formed on the first dielectric layer. A second dielectric layer is formed over the first RDL. A third dielectric layer is formed under a second die. A second re-distribution conductive layer (RDL) is formed under the third dielectric layer. A fourth dielectric layer is formed under the second RDL. Conductive bumps are coupled to the first RDL and the second RDL. A surrounding material surrounds the second die. The second die is coupled to the first die through the first RDL, second RDL and the conductive bumps. | 09-18-2008 |
20080229574 | Self chip redistribution apparatus and method for the same - The present invention provides an apparatus and a method for self chip redistribution. The apparatus of the present invention comprises a glass base on which a trench and a cavity formed by a layer of photo resistance. Chips are picked from a sawed wafer and placed on the glass base and moved by fluid flow to the front of index bar. The glass base and the index bar vibrate with low frequency to fill chips into chip cavities. The present invention further provides a method for self chip redistribution, comprising providing a self redistribution tool, transferring redistributed chips onto a panel forming tool, forming a chip panel and separating said chip panel from panel forming tool. | 09-25-2008 |
20080230884 | Semiconductor device package having multi-chips with side-by-side configuration and method of the same - The present invention provides a semiconductor device package having multi-chips with side-by-side configuration comprising a substrate with die receiving through holes, connecting through holes structure and first contact pads on an upper surface and second contact pads on a lower surface of the substrate. A first die having first bonding pads and a second die having second bonding pads are respectively disposed within the die receiving through holes. The first adhesion material is formed under the first and second die and the substrate, and the second adhesion material is filled in the gap between the first and second die and sidewall of the die receiving though holes of the substrate. Further, bonding wires are formed to couple between the first bonding pads and the first contact pads, between the second bonding pads and the first contact pads. A dielectric layer is formed on the bonding wires, the first and second die and the substrate. A build up layer is form on the lower surface of substrate and the back side of first and second die. | 09-25-2008 |
20080237828 | SEMICONDUCTOR DEVICE PACKAGE WITH DIE RECEIVING THROUGH-HOLE AND DUAL BUILD-UP LAYERS OVER BOTH SIDE-SURFACES FOR WLP AND METHOD OF THE SAME - The present invention discloses a structure of package comprising a substrate with at least one die receiving through holes, a conductive connecting through holes structure and a contact pads on both side of substrate. At least one die is disposed within the die receiving through holes. A first material is formed under the die and second material is formed filled in the gap between the die and sidewall of the die receiving though holes. Dielectric layers are formed on the surface of both side of the die and the substrate. Redistribution layers (RDL) are formed on the both sides and coupled to the contact pads. A protection bases are formed over the RDLs. | 10-02-2008 |
20080237879 | SEMICONDUCTOR DEVICE PACKAGE WITH DIE RECEIVING THROUGH-HOLE AND DUAL BUILD-UP LAYERS OVER BOTH SIDE-SURFACES FOR WLP AND METHOD OF THE SAME - A structure of a semiconductor device package having a substrate with a die receiving through hole, a connecting through hole structure and a contact pad. A die is disposed within the die receiving through hole. A surrounding material is formed under the die and filled in the gap between the die and the sidewall of the die receiving though hole. Dielectric layers are formed on the both side surface of the die and the substrate. Re-distribution layers (RDL) are formed on the dielectric layers and coupled to the contact pads. Protection layers are formed over the RDLs. | 10-02-2008 |
20080248614 | WAFER LEVEL PACKAGE WITH GOOD CTE PERFORMANCE - The present invention provides a structure of package comprising a substrate with a pre-formed die receiving cavity formed and/or terminal contact metal pads formed within an upper surface of the substrate. A die is disposed within the die receiving cavity by adhesion and a dielectric layer formed on the die and the substrate. At least one re-distribution built up layer (RDL) is formed on the dielectric layer and coupled to the die via contact pad. Connecting structure, for example, UBM is formed over the re-distribution built up layer. Terminal Conductive bumps are coupled to the UBM. | 10-09-2008 |
20080251908 | Semiconductor device package having multi-chips with side-by-side configuration and method of the same - The present invention provides a semiconductor device package with the die receiving through hole and connecting through hole structure comprising a substrate with a die receiving through hole, a connecting through hole structure and a first contact pad. A die is disposed within the die receiving through hole. An adhesion material is formed under the die and filled in the gap between the die and sidewall of the die receiving though hole. Further, a wire bonding is formed to couple to the bonding pads and the first contact pad. A dielectric layer is formed on the wire bonding, the die and the substrate. A second contact pad is formed at the lower surface of the substrate and under the connecting through hole structure. | 10-16-2008 |
20080258293 | SEMICONDUCTOR DEVICE PACKAGE TO IMPROVE FUNCTIONS OF HEAT SINK AND GROUND SHIELD - The present invention provides a package structure and a method for forming the same. The structure comprises a substrate with contact pads and through holes filled with conducting metals for performing heat dissipation and ground shielding A chip with bonding pads is attached on the contact pad by an adhesive with high thermal conductivity to achieve heat dissipation. A RDL is formed on the substrate and the chip to couple the bonding pad and the contact pad formed on the substrate. The structure of present invention can improve the thickness thereof, and the heat dissipation and ground shielding of the structure are enhanced. Furthermore, the structure can achieve package on package (PoP) structure. | 10-23-2008 |
20080261346 | SEMICONDUCTOR IMAGE DEVICE PACKAGE WITH DIE RECEIVING THROUGH-HOLE AND METHOD OF THE SAME - The present invention discloses a structure of package comprising: a substrate with a die receiving through hole, a connecting through hole structure and a first contact pad; a die having micro lens area disposed within the die receiving through hole; a transparent cover covers the micro lens area; a surrounding material formed under the die and filled in the gap between the die and sidewall of the die receiving though hole; a dielectric layer formed on the die and the substrate; a re-distribution layer (RDL) formed on the dielectric layer and coupled to the first contact pad; a protection layer formed over the RDL; and a second contact pad formed at the lower surface of the substrate and under the connecting through hole structure. | 10-23-2008 |
20080265393 | STACK PACKAGE WITH RELEASING LAYER AND METHOD FOR FORMING THE SAME - The present invention provides a structure and a of stacked dice package and a process for forming the same, wherein an elastic adhesive layer applied on the first die covering all top surface of the first die and forming rims at the peripheral edges of the first die except the openings formed on the first contacting pads. With this shape of the elastic adhesive layer, the present invention can avoid micro crack happens in the die while performing wire bonding on the contacting pad of the die. | 10-30-2008 |
20080265462 | PANEL/WAFER MOLDING APPARATUS AND METHOD OF THE SAME - The present invention provides an apparatus and a method for panel/wafer molding. The present invention discloses a base with a first separation layer, an upper molding base with a second separation layer, a cheap molding layer and a vacuum panel bonding machine for bonding, a curing unit, a cleaning unit and a separating unit; wherein upper molding base is rectangular or round. Therefore the present invention providing a simple, cheap universal panel/wafer molding apparatus for a round or rectangular type panel, and does no harm to the chip active surface. | 10-30-2008 |
20080268647 | METHOD OF PLASMA ETCHING WITH PATTERN MASK - The present invention provides a method of plasma etching with pattern mask. There are two different devices in the two section of a wafer, comprising silicon and Gallium Arsenide (GaAs). The Silicon section is for general semiconductor. And the GaAs section is for RF device. The material of pad in the silicon is usually metal, and metal oxide is usually formed on the pads. The metal oxide is unwanted for further process; therefore it should be removed by plasma etching process. A film is attached to the surface of the substrate exposing the area need for etching. Then a mask is attached and aligned onto the film therefore exposing the area need for etching. Then plasma dry etching is applied on the substrate for removing the metal oxide. | 10-30-2008 |
20080274579 | Wafer level image sensor package with die receiving cavity and method of making the same - The present invention provides a structure of package comprising a substrate with a die receiving cavity formed within an upper layer of the substrate, wherein terminal pads are formed on the upper surface of the substrate, the same plain as the micro lens. A die is disposed within the die receiving cavity by adhesion and a dielectric layer formed on the die and the substrate. A re-distribution metal layer (RDL) is formed on the dielectric layer and coupled to the die. An opening is formed within the dielectric layer and a top protection layer to expose the micro lens area of the die for Image Sensor chip. A protection layer (film) be coated on the micro lens area with water repellent and oil repellent to away the particle contamination. A transparent cover with coated IR filter is optionally formed over the micron lens area for protection. | 11-06-2008 |
20080274593 | Semiconductor device package with multi-chips and method of the same - The present invention provides a semiconductor device package with the multi-chips comprising a substrate with at least a die receiving through hole, connecting through holes structure and first contact pads on an upper surface and second contact pads on a lower surface of the substrate. At least a first die having first bonding pads is disposed within the die receiving through hole. A first adhesion material is formed under the die and a second adhesion material is filled in the gap between the die and sidewall of the die receiving though hole of the substrate. Then, a first bonding wire is formed to couple the first bonding pads and the first contact pads. Further, at least a second die having second bonding pads is placed on the first die. A second bonding wire is formed to couple to the second bonding pads and the first contact pads. A dielectric layer is formed on the first and second bonding wire, the first and second die and the substrate. | 11-06-2008 |
20090008729 | IMAGE SENSOR PACKAGE UTILIZING A REMOVABLE PROTECTION FILM AND METHOD OF MAKING THE SAME - The present invention discloses a structure of image sensor package utilizing a removable protection film. The structure comprises a substrate with a die receiving cavity and inter-connecting through holes. Terminal pads are formed under the inter-connecting through holes and metal pads are formed on an upper surface of the substrate. A die is disposed within the die receiving cavity by an adhesion material. Bonding pads are formed on the upper edge of the die. Bonding wires are coupled to the metal pads and the bonding pads. A protection layer is formed on the micro lens area to protect the micro lens from particle contamination. A removable protection film is formed over the protection layer to protect the micro lens from water, oil, dust or temporary impact during the packaging and assembling process. | 01-08-2009 |
20090008777 | INTER-CONNECTING STRUCTURE FOR SEMICONDUCTOR DEVICE PACKAGE AND METHOD OF THE SAME - An interconnecting structure for a semiconductor die assembly, comprising: a substrate with pre-formed wiring circuit formed therein; a die having contact pads on an active surface; an adhesive material formed over the substrate to adhere the die over the substrate, wherein the substrate includes a via through the substrate and the adhesive material; and conductive material refilled into the via to couple the contact pads of the die to the wiring circuit of the substrate. | 01-08-2009 |
20090039497 | SEMICONDUCTOR DEVICE PACKAGE HAVING A BACK SIDE PROTECTIVE SCHEME - The present invention provides a semiconductor device package, comprising a die having a back surface and an active surface formed thereon; an adhesive layer formed on the back surface of the die; a protection substrate formed on the adhesive layer; and a plurality of bumps formed on the active surface of the die for electrically connection. The present invention further provides a method for forming a semiconductor device package, comprising providing a plurality of die having a back surface and an active surface on a wafer; forming an adhesive layer on the back surface of the die; forming a protection substrates on the adhesive layer; forming a plurality of bumps on the active surface of each die; and dicing the plurality of die into individual die for singulation. | 02-12-2009 |
20090039532 | SEMICONDUCTOR DEVICE PACKAGE HAVING A BACK SIDE PROTECTIVE SCHEME - The present invention provides a semiconductor device package, comprising a die having a back surface and an active surface formed thereon; an adhesive layer formed on the back surface of the die; a protection substrate formed on the adhesive layer; and a plurality of bumps formed on the active surface of the die for electrically connection. The present invention further provides a method for forming a semiconductor device package, comprising providing a plurality of die having a back surface and an active surface on a wafer; forming an adhesive layer on the back surface of the die; forming a protection substrates on the adhesive layer; forming a plurality of bumps on the active surface of each die; and dicing the plurality of die into individual die for singulation. | 02-12-2009 |
20090096093 | INTER-CONNECTING STRUCTURE FOR SEMICONDUCTOR PACKAGE AND METHOD OF THE SAME - The interconnecting structure for a semiconductor die assembly comprises a build-up layers having RDL formed therein formed over a die having die pads formed thereon, wherein the RDL is coupled to the die pads; an isolation base having ball openings attached over the build-up layer to expose ball pads within the build-up layers; and conductive balls placed into the ball openings of the isolation base and attached on the ball pads within the build-up layers. | 04-16-2009 |
20090096098 | INTER-CONNECTING STRUCTURE FOR SEMICONDUCTOR PACKAGE AND METHOD OF THE SAME - The interconnecting structure for a semiconductor die assembly comprises a build-up layers having RDL formed therein formed over a die having die pads formed thereon, wherein the RDL is coupled to the die pads; an isolation base having ball openings attached over the build-up layer to expose ball pads within the build-up layers; and conductive balls placed into the ball openings of the isolation base and attached on the ball pads within the build-up layers. | 04-16-2009 |
20090127686 | Stacking die package structure for semiconductor devices and method of the same - The present invention disclosed a first multi-die package structure for semiconductor devices, the structure comprises a substrate having die receiving window and inter-connecting through holes formed therein; a first level semiconductor die formed under a second level semiconductor die by back-to-back scheme and within the die receiving window, wherein the first multi-die package includes first level contact pads formed under the first level semiconductor die having a first level build up layer formed there-under to couple to a first bonding pads of the first level semiconductor die; a second level contact pads formed on the second level semiconductor die having a second level build up layer formed thereon to couple to second bonding pads of the second level semiconductor die; and conductive bumps formed under the first level build up layer. | 05-21-2009 |
20090160052 | UNDER BUMP METALLURGY STRUCTURE OF SEMICONDUCTOR DEVICE PACKAGE - The under bump metallization (UBM) structure of semiconductor device comprises a substrate having a bonding pad disposed on an active surface; a UBM adhered on the bonding pad, wherein the UBM includes lateral embedded portions and the size of the UBM is larger than the size of the bonding pad; a dielectric layer over the UBM having opening that is smaller than the size of the UBM so as to allow the lateral embedded portions being embedded into the dielectric layer with a desired dimension; and a conductive ball melted on the UBM within the opening defined by the dielectric layer. | 06-25-2009 |
20090166873 | INTER-CONNECTING STRUCTURE FOR SEMICONDUCTOR DEVICE PACKAGE AND METHOD OF THE SAME - The interconnecting structure for a semiconductor die includes a die having bonding pads on an active surface; a core attached the side wall (edge) of the die by adhesion material; an isolating base adhered on the active surface of the die by adhesion glue; a through silicon via (TSV) open from the back side of the die to expose the bonding pads; a build up layer coupled between the bonding pads to terminal metal pads by the through silicon via; solder balls melted on terminal pads, wherein the terminal pads located on the core and/or the die. | 07-02-2009 |
20090212428 | RE-DISTRIBUTION CONDUCTIVE LINE STRUCTURE AND THE METHOD OF FORMING THE SAME - A conductive line structure of a semiconductor device, the structure comprising a substrate having bonding pad; a first dielectric layer formed over the substrate; a solder pad formed over the first dielectric layer; a buffer scheme formed over the first dielectric layer and between the bonding pad and the solder pad; a conductive line formed over the buffer scheme for coupling between the bonding pad and the solder pad; a second dielectric layer formed over the conductive line to expose the solder pad; and a solder ball formed over the solder pad. | 08-27-2009 |
20100072588 | Substrate structure with die embedded inside and dual build-up layers over both side surfaces and method of the same - The present invention discloses a structure of device package comprising a first substrate with a die metal pad, a first wiring circuit on top surface of said first substrate and a second wiring circuit on bottom surface of said first substrate. A die is disposed on the die metal pad. A second substrate has a die opening window for receiving the die, a third wiring circuit on top surface of the second substrate and a fourth wiring circuit on bottom surface of the second substrate. An adhesive material is filled into the gap between back side of the die and top surface of the first substrate and between the side wall of the die and the side wall of the die receiving through hole and the bottom side of the second substrate. | 03-25-2010 |
20100072606 | Stacking Package Structure with Chip Embedded Inside and Die Having Through Silicon Via and Method of the same - The semiconductor device package structure includes a first die with a through silicon via (TSV) open from back side of the first die to expose bonding pads; a build up layer coupled between the bonding pads to terminal metal pads by the through silicon via (TSV); a substrate with a second die embedded inside and top circuit wiring and bottom circuit wiring on top and bottom side of the substrate respectively; and a conductive through hole structure coupled between the terminal metal pads to the top circuit wiring and the bottom circuit wiring. | 03-25-2010 |
20100078655 | Substrate structure with die embedded inside and dual build-up layers over both side surfaces and method of the same - The present invention comprises a first substrate with a die formed on a die metal pad, a first and a second wiring circuits formed on the surfaces of the first substrate. A second substrate has a die opening window for receiving the die, a third wiring circuit is formed on top surface of the second substrate and a fourth wiring circuit on bottom surface of the second substrate. An adhesive material is filled into the gap between back side of the die and top surface of the first substrate and between the side wall of the die and the side wall of the die receiving through hole and the bottom side of the second substrate. During the formation, laser is introduced to cut the backside of the first substrate and an opening hole is formed in the first substrate to expose a part of the backside of the Au or Au/Ag metal layer of chip/die. | 04-01-2010 |
20100301474 | Semiconductor Device Package Structure and Method for the Same - The present invention discloses a semiconductor device package and the method for the same. The method includes preparing a first substrate and a second substrate; opening a die opening window through the second substrate by using laser or punching; preparing an adhesion material; attaching the first substrate to the second substrate by the adhesion material; aligning a die by using the aligning mark of the die metal pad and attaching the die onto the die metal pad with force by the adhesion material; forming a first dielectric layer on top surfaces of the second substrate and the die and pushing the first dielectric layer into gap between the side wall of the die and the side wall of the die opening window under vacuum condition; opening a plurality of via openings in the first dielectric layer; and forming a redistribution layer in the plurality of via openings and on the first dielectric layer. | 12-02-2010 |
20110195546 | STACKING PACKAGE STRUCTURE WITH CHIP EMBEDDED INSIDE AND DIE HAVING THROUGH SILICON VIA AND METHOD OF THE SAME - The semiconductor device package structure includes a first die with a through silicon via (TSV) open from back side of the first die to expose bonding pads; a build up layer coupled between the bonding pads to terminal metal pads by the through silicon via (TSV); a substrate with a second die embedded inside and top circuit wiring and bottom circuit wiring on top and bottom side of the substrate respectively; and a conductive through hole structure coupled between the terminal metal pads to the top circuit wiring and the bottom circuit wiring. | 08-11-2011 |
20110256714 | SUBSTRATE STRUCTURE WITH DIE EMBEDDED INSIDE AND DUAL BUILD-UP LAYERS OVER BOTH SIDE SURFACES AND METHOD OF THE SAME - The present invention comprises a first substrate with a die formed on a die metal pad, a first and a second wiring circuits formed on the surfaces of the first substrate. A second substrate has a die opening window for receiving the die, a third wiring circuit is formed on top surface of the second substrate and a fourth wiring circuit on bottom surface of the second substrate. An adhesive material is filled into the gap between back side of the die and top surface of the first substrate and between the side wall of the die and the side wall of the die receiving through hole and the bottom side of the second substrate. During the formation, laser is introduced to cut the backside of the first substrate and an opening hole is formed in the first substrate to expose a part of the backside of the Au or Au/Ag metal layer of chip/die. | 10-20-2011 |
20120037935 | Substrate Structure of LED (light emitting diode) Packaging and Method of the same - The present invention provides a substrate for LED packaging and a fabrication method thereof. The substrate can dissipate heat quickly and enhance light emitting efficiency. For this purpose, several via holes are formed in the substrate and metal layers are coated to act as light reflector. In the substrate, the via holes are filled with the material with high thermal conductivity, such as Copper, to conduct the heat efficiently; and the reflector are coated the metal with high reflection factor to visible light, such as Ag, Au, Al, to enhance the light emitting efficiency. | 02-16-2012 |
20120043635 | Image Sensor Package with Dual Substrates and the Method of the Same - The image sensor package with dual substrates comprises a first substrate with a die receiving opening and a plurality of first through hole penetrated through the first substrate; a second substrate with a die opening window and a plurality of second through hole penetrated through the second substrate, formed on the first substrate. A part of the second wiring pattern is coupled to a part of the third wiring pattern; an image die having conductive pads and sensing array received within the die receiving opening and the sensing array being exposed by the die opening window; and a through hole conductive material refilled into the plurality of second through hole, some of the plurality of second through hole coupling to the conductive pads of the image sensor. | 02-23-2012 |
20130056773 | LED PACKAGE AND METHOD OF THE SAME - LED package includes a substrate with pre-formed P-type through-hole and N-type through-hole through the substrate; a reflective layer formed on an upper surface of the substrate; a LED die having P-type pad and N-type pad aligned with the P-type through-hole and the N-type through-hole; wherein the LED die is formed on the upper surface of the substrate; a refilling material within the P-type through-hole and the N-type through-hole thereby forming electrical connection from the P-type pad and the N-type pad; and a lens formed over the upper surface of the substrate. | 03-07-2013 |
20130181351 | Semiconductor Device Package with Slanting Structures - A semiconductor device package structure includes a substrate with a via contact pad on top surface of the substrate, a terminal pad on bottom surface of the substrate and a conductive through hole through the substrate, wherein the conductive through hole electrically couples the via contact pad and the terminal pad on the substrate; a die having bonding pads thereon, wherein the die is formed on the top surface of the substrate; a slanting structure formed adjacent to at least one side of the die for carrying conductive traces; and a conductive trace formed on upper surface of the slanting structure to offer path between the bonding pads and the via contact pad. | 07-18-2013 |
20130214418 | Semiconductor Device Package with Slanting Structures - A semiconductor device package structure includes a substrate with a via contact pad on top surface of the substrate, a terminal pad on bottom surface of the substrate and a conductive through hole through the substrate, wherein the conductive through hole electrically couples the via contact pad and the terminal pad on the substrate; a die having bonding pads thereon, wherein the die is formed on the top surface of the substrate; a slanting structure formed adjacent to at least one side of the die for carrying conductive traces; and a conductive trace formed on upper surface of the slanting structure to offer path between the bonding pads and the via contact pad. | 08-22-2013 |