Patent application number | Description | Published |
20080258282 | LEAD FRAME FREE PACKAGE AND METHOD OF MAKING - A lead frame free packaged semiconductor device with an exposed heat sink is formed by die bonding the semiconductor device directly to the heat sink and bonding package leads directly to the semiconductor die, and optionally to the heat sink. In an alternative embodiment, a lead frame free packaged semiconductor device with an exposed heat sink is formed by die bonding the semiconductor device directly to the heat sink and wire bonding package leads to the semiconductor die, and optionally to the heat sink. | 10-23-2008 |
20090072359 | STACKED SYNCHRONOUS BUCK CONVERTER - A multichip module buck converter | 03-19-2009 |
20090079082 | BONDING PAD STRUCTURE ALLOWING WIRE BONDING OVER AN ACTIVE AREA IN A SEMICONDUCTOR DIE AND METHOD OF MANUFACTURING SAME - A wire bonding pad over an active area of a semiconductor die has grooves in two orthogonal sections thereof in the top surface of said wire bonding pad. | 03-26-2009 |
20090079092 | Stacked Dual-Die Packages, Methods of Making, and Systems Incorporating Said Packages - A semiconductor die package. It includes a substrate having a first surface and a second surface, a first semiconductor die having its front surface facing the first surface of the substrate, a conductive adhesive disposed between the first semiconductor die and the first surface of the substrate, and a second semiconductor die located on the first semiconductor die. The front surface of second semiconductor die faces away from the first semiconductor die, and the back surface faces toward the first semiconductor die. A plurality of conductive structures electrically couple regions at the front surface of the second semiconductor die to conductive regions at the first surface of the substrate. | 03-26-2009 |
20090114030 | DIE SCALE STRAIN GAUGE - A chip with resistive, metallic strain gauges distributed on surfaces on and buried within the chip. Also, vertically arranged vias and vertical thin film resistive strain gauges are described. The resistive strain gauges can be multiplexed wherein strain can be measured across the topology of the chip in each of the top, bottom and buried layers and any vertical strain. The resistive strain gauges may be in serpentine patterns and may be arranged on via or on vertical edges of grooves that extend from an upper or lower surface of the chip to buried layers. In this fashion, the distributed strain gauges may be used to map the strain throughout the body of a chip. A Kelvin bridge may be used to measure the strain, but other such measuring techniques and devices may be used. | 05-07-2009 |
20090140179 | SEMICONDUCTOR DIE PACKAGES SUITABLE FOR OPTOELECTRONIC APPLICATIONS HAVING CLIP ATTACH STRUCTURES FOR ANGLED MOUNTING OF DICE - An optocoupler package is disclosed. The package includes a substrate comprising a substrate surface, a first device, and a clip structure attached to the first device. The clip structure and the first device are mounted on the substrate, and the first device is oriented at an angle with respect to the substrate surface. A second device is mounted on the substrate, where the first device is capable of communicating with the second device. | 06-04-2009 |
20090140266 | PACKAGE INCLUDING ORIENTED DEVICES - An package such as an optocoupler package is disclosed. The optocoupler package includes a leadframe structure comprising a first die attach pad comprising a first die attach pad surface and a second die attach pad with a second die attach pad surface. The optocoupler package further has an optical emitter device on the first die attach pad, and an optical receiver device on second die attach pad. The optical receiver device is oriented at an angle with respect to the optical emitter device, and an optically transmissive medium is disposed between the optical emitter device and the optical receiver device. | 06-04-2009 |
20090173953 | PACKAGE WITH OVERLAPPING DEVICES - A die package is disclosed. The die package includes a substrate, a first device attached to the substrate, and a leadframe structure attached to the substrate. The leadframe structure includes a portion disposed over the first device, and a second device is attached to the first portion of the leadframe structure. | 07-09-2009 |
20090174046 | SEMICONDUCTOR PACKAGE WITH AN EMBEDDED PRINTED CIRCUIT BOARD AND STACKED DIE - A two tier power module has, in one form thereof, a PC board having upper and lower traces with an opening in the insulating material that contains a power device which has upward extending solder bump connections. An upper leadframe is mounted on the solder bumps and the upper tracks of the PC board. Vias in the PC board connect selected upper and lower traces. A control device is mounted atop the leadframe and wire bonded to the leadframe, and the assembly is encapsulated leaving exposed the bottom surfaces of the lower traces of the PC board as external connections. In another form the PC board is replaced by a planar leadframe and the upper leadframe has stepped sections which make connections with the planar leadframe, the bottom surfaces of the planar leadframe forming external connections of the module. | 07-09-2009 |
20090174047 | Semiconductor Die Packages Having Overlapping Dice, System Using the Same, and Methods of Making the Same - Disclosed are semiconductor die packages having overlapping dice, systems that use such packages, and methods of making such packages. An exemplary die package comprises a leadframe, a first semiconductor die, and a second semiconductor die that has a recessed portion in one of its surfaces. The first die is disposed over a first portion of the leadframe, and the second die is disposed over a second portion of the leadframe with its recess portion overlying at least a portion of the first die. Another exemplary die package comprises a leadframe with a recessed area, a first semiconductor die disposed in the recessed area, and a second semiconductor die overlying at least a portion of the first die. Preferably, electrically conductive regions of both dice are electrically coupled to a conductive region of the leadframe to provide an interconnection between dice that has very low parasitic capacitance and inductance. | 07-09-2009 |
20090174048 | DIE PACKAGE INCLUDING SUBSTRATE WITH MOLDED DEVICE - A package is disclosed. The package includes a premolded substrate having a leadframe structure, a first device attached to the leadframe structure, and a molding material covering at least part of the leadframe structure and the first device. It also includes a second device attached to the premolded substrate. | 07-09-2009 |
20090189262 | MULTIPHASE SYNCHRONOUS BUCK CONVERTER - Disclosed in this specification is a multiphase buck converter package and process for forming such package. The package includes at least four dies and at least nine parallel leads. The dies are electrically connected through a plurality of die attach pads, thus eliminating the need for wirebonding. | 07-30-2009 |
20090189266 | SEMICONDUCTOR PACKAGE WITH STACKED DICE FOR A BUCK CONVERTER - Disclosed in this specification is a buck converter package with stacked dice and a process for forming a buck converter. The package includes a die attach pad with a low side die mounted on one surface and a high side die mounted on the opposing surface. The die attach pad is conductive, such that the drain of the low side die is connected to the source of the high side die through the pad. A controller die controls the gates of the high and low side dies. A plurality of leads extends outside of the package to permit electrical connections to the inside of the package. The high side drain is exposed to one of the surfaces of the package. | 07-30-2009 |
20090189273 | MULTIPHASE SYNCHRONOUS BUCK CONVERTER - Disclosed in this specification is a multiphase buck converter package and process for forming such package. The package includes at least four dice and several parallel leads. The dice are electrically connected through a plurality of die attach pads, thus eliminating the need for wirebonding. | 07-30-2009 |
20090194855 | FOLDED LEADFRAME MULTIPLE DIE PACKAGE - A multiple die package includes a folded leadframe for interconnecting at least two die attached to another leadframe. In a synchronous voltage regulator the folded leadframe, which is formed from a single piece of material, connects the high side switching device with the low side switching device to provide a low resistance, low inductance connection between the two devices. | 08-06-2009 |
20090194857 | Thin Compact Semiconductor Die Packages Suitable for Smart-Power Modules, Methods of Making the Same, and Systems Using the Same - Disclosed are semiconductor die packages, methods of making them, and systems incorporating them. An exemplary package comprises a first substrate, a second substrate, a semiconductor die disposed between the first and second substrates, and an electrically conductive member disposed between the first and second substrates. The semiconductor die has a conductive region at its first surface that is electrically coupled to a first conductive region of the first substrate, and another conductive region at its second surface that is electrically coupled to a first conductive region of the second substrate. The conductive member is electrically coupled between the first conductive region of the second substrate and a second electrically conductive region of the first substrate. This configuration enables terminals on both surfaces of the semiconductor die to be coupled to the first substrate. | 08-06-2009 |
20090194887 | EMBEDDED DIE PACKAGE ON PACKAGE (POP) WITH PRE-MOLDED LEADFRAME - A multiple-chip package has top and bottom pre-molded leadframes formed prior to the flip-chip attachment of semiconductor die to the leadframes. After die attachment, underfill is used to encase all but one surface of the die, and the top and bottom leadframes are joined together by solder bump balls with the exposed surfaces of the semiconductor dice proximate to each other. | 08-06-2009 |
20090200657 | 3D SMART POWER MODULE - A 3D smart power module for power control, such as a three phase power control module, includes a two sided printed circuit (PC) board with power semiconductor devices attached to one side and control semiconductor devices attached to the other side. The power semiconductor devices are die bonded to a direct bonded copper substrate which has a bottom surface exposed in the molded package. In one embodiment the module has 27 external connectors attached to one side of the PC board and arranged in the form of a ball grid array. | 08-13-2009 |
20090212403 | THERMALLY ENHANCED MOLDED LEADLESS PACKAGE - A molded leadless package (MLP) semiconductor device includes a heat spreader with a single connecting projection extending from an edge of a cap of the heat spreader to a leadframe. The heat spreader can include additional projections on its edges that act as heat collectors and help to secure the spreader in the MLP. The connecting projection is attached to a lead of the leadframe so that heat gathered by the cap can be transferred through the connecting projection to the lead and to a printed circuit board to which the lead is connected. In embodiments, the heat spreader includes a central heat collector projection from the cap toward the die, preferably in the form of a solid cylinder, that enhances heat collection and transfer to the cap. The cap can include fins projecting from its top surface to facilitate radiant and convection cooling. | 08-27-2009 |
20090212405 | STACKED DIE MOLDED LEADLESS PACKAGE - A stacked die molded leadless package (MLP) stacks two dice and uses leads formed integrally with top and central clips and a leadframe to avoid wire bonding. The central clip leads are source and gate leads leading to source and gate portions of the central clip common to source and gate regions of both dice. The top clip and leadframe are thus connected to the drain regions of the upper and lower dice, the leads of the top clip being drain leads connected to the leadframe leads. The central clip and leadframe leads provide source, gate, and drain terminals in the finished MLP. A method of making the MLP includes flip-chip assembly of the clips, dice, and leadframes in pairs or greater simultaneous quantities. Spacers can be employed between connected components to ensure proper alignment and distribution of bonding material. | 08-27-2009 |
20090230518 | SEMICONDUCTOR DIE PACKAGE INCLUDING IC DRIVER AND BRIDGE - A semiconductor die package. Embodiments of the semiconductor die package are usable in backlight circuitry. Systems in packages may include a bridge circuit or a part thereof, and a integrated circuit die, such as a driver die, encapsulated by a molding material or other package. The bridge circuit may be stacked on opposing surfaces of a leadframe. | 09-17-2009 |
20090230536 | SEMICONDUCTOR DIE PACKAGE INCLUDING MULTIPLE SEMICONDUCTOR DICE - A semiconductor die package. The semiconductor die package includes a leadframe structure comprising a first die attach pad, and a second die attach pad laterally spaced from the first die attach pad, a first side and a second side opposite to the first side. The semiconductor die package further includes a first semiconductor die attached the first die attach pad at the first side of the leadframe structure, and a second semiconductor die attached to the second die attach pad at the second side of the leadframe structure. The semiconductor die package further includes a housing material covering at least a portion of the leadframe structure, the first semiconductor die, and the second semiconductor die. | 09-17-2009 |
20090230537 | SEMICONDUCTOR DIE PACKAGE INCLUDING EMBEDDED FLIP CHIP - A semiconductor die package. The semiconductor die package includes a leadframe structure, a first semiconductor die comprising a first surface attached to a first side of the leadframe structure, and a second semiconductor die attached to a second side of the leadframe structure. The second semiconductor die comprises an integrated circuit die. A housing material is formed over at least a portion of the leadframe structure, the first semiconductor die, and the second semiconductor die. An exterior surface of the molding material is substantially coplanar with the first surface of the semiconductor die. | 09-17-2009 |
20090256245 | Stacked Micro-Module Packages, Systems Using the Same, and Methods of Making the Same - Semiconductor die packages, methods of making said packages, and systems using said packages are disclosed. An exemplary package comprising at least one semiconductor die disposed on one surface of a leadframe and electrically coupled to at least one conductive region of the leadframe, and at least one passive electrical component disposed on the other surface of a leadframe and electrically coupled to at least one conductive region of the leadframe. | 10-15-2009 |
20090256252 | Semiconductor Die Packages With Multiple Integrated Substrates, Systems Using the Same, and Methods Using the Same - An exemplary semiconductor die package is disclosed having one or more semiconductor dice disposed on a first substrate, one or more packaged electrical components disposed on a second substrate that is electrical coupled to the first substrate, and an electrically insulating material disposed over portions of the substrates. The first substrate may hold power-handling devices and may be specially constructed to dissipation heat and to facilitate fast and inexpensive manufacturing. The second substrate may hold packaged components of control circuitry for the power-handling devices, and may be specially constructed to enable fast and inexpensive wiring design and fast and inexpensive component assembly. The first substrate may be used with different designs of the second substrate. | 10-15-2009 |
20090278241 | SEMICONDUCTOR DIE PACKAGE INCLUDING DIE STACKED ON PREMOLDED SUBSTRATE INCLUDING DIE - A semiconductor die package. The semiconductor includes a premolded substrate. The premolded substrate includes (i) a leadframe structure, (ii) a first semiconductor die comprising a first die surface and a second die surface, attached to the leadframe structure, and (iii) a molding material covering at least a portion of the leadframe structure and the first semiconductor die. The premolded substrate includes a first premolded substrate surface and a second premolded substrate surface. A second semiconductor die is stacked on the second premolded substrate surface of the premolded substrate. A housing material is on at least a portion of the second semiconductor die and the second premolded substrate surface of the premolded substrate. One of the first semiconductor die and the second semiconductor die includes a transistor while the other includes an integrated circuit. | 11-12-2009 |
20090294936 | FOUR MOSFET FULL BRIDGE MODULE - A molded, leadless packaged semiconductor multichip module includes | 12-03-2009 |
20090315162 | Micro-Modules with Molded Passive Components, Systems Using the Same, and Methods of Making the Same - Semiconductor die packages, methods of making said packages, and systems using said packages are disclosed. An exemplary package comprises at least one semiconductor die disposed on one surface of a leadframe and electrically coupled to at least one conductive region of the leadframe, and at least one passive electrical component disposed on the other surface of a leadframe and electrically coupled to at least one conductive region of the leadframe. Molding material is disposed over the at least one passive electrical component to provide a molded passive component. | 12-24-2009 |
20090315163 | Semiconductor Die Packages with Stacked Flexible Modules Having Passive Components, Systems Using the Same, and Methods of Making the Same - Disclosed are semiconductor die packages comprising flexible modules having passive components, with the flexible modules and one or more semiconductor dice disposed in a stacked relationship, systems using the same, and methods of making the same. In one exemplary package embodiment, one or more semiconductor dice are disposed on a leadframe that is disposed in a stacked relationship with the flexible module. In another embodiment, one or more semiconductor dice are attached to a surface of a flexible module. | 12-24-2009 |
20090315171 | PIN SUBSTRATE AND PACKAGE - A semiconductor die package. Embodiments of the package can include a substrate with solid conductive pins disposed throughout. A semiconductor die can be attached to a surface of the substrate. Electrical connection to the semiconductor die can be provided by the solid conductive pins. | 12-24-2009 |
20100052119 | Molded Ultra Thin Semiconductor Die Packages, Systems Using the Same, and Methods of Making the Same - Disclosed are molded ultra-thin semiconductor die packages, systems that incorporate such packages, and methods of making such packages. An exemplary package comprises a leadframe having an aperture formed between the leadframe's first and second surfaces, and a plurality of leads disposed adjacent to the aperture. The package further comprises a semiconductor disposed in the aperture of the leadframe with its top surface substantially flush with the leadframe's first surface, and at least one gap between at least one side surface of the semiconductor die and at least one lead of the leadframe. A body of electrically insulating material is disposed in the at least one gap. A plurality of conductive members interconnect leads of the leadframe with conductive regions on the die's top surface, with at least one conductive member having a portion disposed over at least a portion of the body of insulating material. | 03-04-2010 |
20100072590 | Stacking Quad Pre-Molded Component Packages, Systems Using the Same, and Methods of Making the Same - Pre-molded component packages that may be as thin as a leadframe for a semiconductor die, systems using the same, and methods of making the same are disclosed. The leads of an exemplary package are exposed at both surfaces at the leadframe. The packages may be stacked upon one another and electrically coupled at the exposed portions of their leads. | 03-25-2010 |
20100109129 | WAFER LEVEL BUCK CONVERTER - A buck converter module includes a high side (HS) die having source, drain, and gate bonding pads on a front side of the HS die, a low side (LS) die having a first section thereof with a plurality of through silicon vias (TSVs) extending from a back side to a front side of the LS die, the LS die having source, drain, and gate bonding pads located on a front side of a second section separate from the first section, the drain bonding pad electrically connected to the back side of the LS die in the second section. The HS die and the LS die are bonded together such that the source bonding pad of the HS die is electrically connected to the back side of the LS die, and each of the drain and gate bonding pads are electrically connected to separate TSVs in the LS die. | 05-06-2010 |
20100123257 | Flexible and Stackable Semiconductor Die Packages, Systems Using the Same, and Methods of Making the Same - Disclosed are semiconductor die packages, systems, and methods therefor. An exemplary package comprises a patterned conductive layer having a first surface, a second surface, and a first thickness between its first and second surfaces; a semiconductor die disposed over the first surface of the patterned conductive layer and electrically coupled thereto; a plurality of conductive bodies disposed at the second surface of the patterned conductive layer and electrically coupled thereto, each conductive body having a thickness that is greater than the first thickness; and a body of electrically insulating material disposed on the semiconductor die and a portion of the first surface of the patterned conductive layer. A further embodiment farther comprises a second semiconductor die disposed over the second surface of the patterned conductive layer and electrically coupled thereto. | 05-20-2010 |
20100148337 | STACKABLE SEMICONDUCTOR PACKAGE AND PROCESS TO MANUFACTURE SAME - In one form a stackable electrical device package has a first plurality of traces, the electrical device bonded to at least some of the first plurality of traces, a second plurality of vertical posts attached to the first plurality of traces, and encapsulation material enclosing the electrical device and sides of the first plurality of traces and the second plurality of vertical posts such that bottoms of the first plurality of traces are exposed on the bottom of the semiconductor package, and tops of the vertical posts are exposed on the top of the semiconductor package. In another form a multiple electrical device package has a semiconductor device in a wafer having a plurality of contacts on an upper surface of the wafer, a first plurality of traces attached to the top of the wafer, a second plurality of vertical posts attached to the first plurality of traces, an electrical device bonded to at least some of the first plurality of traces, and encapsulation material enclosing the electrical device and sides of the first plurality of traces and the second plurality of vertical posts such that tops of the vertical posts are exposed on the top of the semiconductor package. | 06-17-2010 |
20100167465 | MULTIPHASE SYNCHRONOUS BUCK CONVERTER - Disclosed in this specification is a multiphase buck converter package and process for forming such package. The package includes at least four dies and at least nine parallel leads. The dies are electrically connected through a plurality of die attach pads, thus eliminating the need for wirebonding. | 07-01-2010 |
20100193803 | Stacked Micro Optocouplers and Methods of Making the Same - Disclosed are packages for optocouplers and methods of making the same. An exemplary optocoupler comprises a substrate having a first surface and a second surface, a plurality of optoelectronic dice for one or more optocouplers disposed on the substrate's first surface, and a plurality of optoelectronic dice for one or more optocouplers disposed on the substrate's second surface. The substrate may comprise a pre-molded leadframe, and electrical connections between optoelectronic dice on opposite surfaces of the substrate may be made via one or more leads of the leadframe. | 08-05-2010 |
20100230792 | Premolded Substrates with Apertures for Semiconductor Die Packages with Stacked Dice, Said Packages, and Methods of Making the Same - Disclosed are premolded substrates for semiconductor die packages and methods of making such substrates. An exemplary premolded substrate comprises a leadframe having a first surface, a second surface, a central portion disposed between the first and second surfaces, and a plurality of electrically conductive leads disposed about the central portion; a body of electrically insulating material disposed in a portion of the central portion of the leadframe and between the leads of the leadframe; and an aperture disposed in the leadframe's central portion and between the leadframe's first and second surfaces. | 09-16-2010 |
20100232131 | FLMP BUCK CONVERTER WITH A MOLDED CAPACITOR - An encapsulated buck converter module includes a low side transistor and a control integrated circuit bonded to a first section on a first side of a leadframe, a first clip between a source of the low side transistor and a second section, a source contact of a high side transistor attached to the first section on a second side of the leadframe with a gate contact of the high side transistor attached to a third section, a conductive member attached to the first and second sections on the second side of the leadframe wherein the first side of the conductive member attached to the second conductive member forms a conductive path with a portion of a second side of the conductive member while any portion of the first side of the conductive member attached to the first component attachment section is insulated from the first side of the conductive member, a first plate of a capacitor attached to a drain contact of the high side transistor and a second plate of the capacitor attached to the second side of the conductive member, and means for forming an external connection to the drain contact of the high side transistor. | 09-16-2010 |
20110003432 | FLIP CHIP MLP WITH FOLDED HEAT SINK - A semiconductor package assembly including a molded leadless package (MLP) having an exposed top emitter pad and an exposed bottom source pad. A folded heat sink is attached to the exposed top emitter pad of the MLP by a soft solder attach process. The folded heat sink has a planar member generally coextensive in size with the MLP and in electrical and thermal contact with the top emitter pad of the MLP, and also has one or more leads extending generally perpendicularly to the planar member in a direction towards the lower surface of the MLP. These heat sink leads may provide the emitter connection to a printed circuit (PC) board. | 01-06-2011 |
20110059582 | MOLDED ULTRA THIN SEMICONDUCTOR DIE PACKAGES, SYSTEMS USING THE SAME, AND METHODS OF MAKING THE SAME - Disclosed are molded ultra-thin semiconductor die packages, systems that incorporate such packages, and methods of making such packages. An exemplary package comprises a leadframe having an aperture formed between the leadframe's first and second surfaces, and a plurality of leads disposed adjacent to the aperture. The package further comprises a semiconductor disposed in the aperture of the leadframe with its top surface substantially flush with the leadframe's first surface, and at least one gap between at least one side surface of the semiconductor die and at least one lead of the leadframe. A body of electrically insulating material is disposed in the at least one gap. A plurality of conductive members interconnect leads of the leadframe with conductive regions on the die's top surface, with at least one conductive member having a portion disposed over at least a portion of the body of insulating material. | 03-10-2011 |
20110070699 | 3D SMART POWER MODULE - A 3D smart power module for power control, such as a three phase power control module, includes a two sided printed circuit (PC) board with power semiconductor devices attached to one side and control semiconductor devices attached to the other side. The power semiconductor devices are die bonded to a direct bonded copper substrate which has a bottom surface exposed in the molded package. In one embodiment the module has 27 external connectors attached to one side of the PC board and arranged in the form of a ball grid array. | 03-24-2011 |
20110108747 | OPTOCOUPLER DEVICES - Optocoupler devices and methods for making and using such devices are described. The optocoupler devices contain a light emitting component (a light emitting diode [LED]) and a light receiving component (a phototransistor [PT]) device that are embedded within the substrate, rather than being attached to the surface of the pre-molded substrate. Such a configuration eliminates the bond wires that are often used when the LED and PT are attached on the substrate, improves the electrical performance, and allows the final optocoupler package to be made smaller and thinner. Other embodiments are described. | 05-12-2011 |
20110121413 | MICROELECTROMECHANICAL SYSTEMS MICROPHONE PACKAGING SYSTEMS - This document discusses, among other things, a conductive frame, a silicon die coupled to the conductive frame, the silicon die including a vibratory diaphragm, the die having a silicon die top opposite a silicon die bottom, with a silicon die port extending through the silicon die to the vibratory diaphragm, with a silicon die terminal in electrical communication with the conductive frame and an insulator affixed to the conductive frame and the silicon die, with the insulator extending through interstices in the conductive frame to a conductive frame bottom of the conductive frame, and around an exterior of the silicon die to the silicon die top, with the insulator physically affixed to the silicon die and to the conductive frame, with the silicon die port exposed and with a conductive frame terminal disposed at the conductive frame bottom in electrical communication with the silicon die terminal. | 05-26-2011 |
20110140255 | SEMICONDUCTOR DIE PACKAGE INCLUDING IC DRIVER AND BRIDGE - A semiconductor die package. Embodiments of the semiconductor die package are usable in backlight circuitry. Systems in packages may include a bridge circuit or a part thereof, and a integrated circuit die, such as a driver die, encapsulated by a molding material or other package. The bridge circuit may be stacked on opposing surfaces of a leadframe. | 06-16-2011 |
20110163391 | WAFER LEVEL STACK DIE PACKAGE - This document discusses, among other things, an IC package including first and a second discrete components fabricated into a semiconductor substrate. The first and second discrete components can be adjacent to one another in the semiconductor substrate, and an integrated circuit die can be mounted on the semiconductor substrate and coupled to the first and second discrete components. | 07-07-2011 |
20120001313 | SEMICONDUCTOR PACKAGE WITH AN EMBEDDED PRINTED CIRCUIT BOARD AND STACKED DIE - A two tier power module has, in one form thereof, a PC board having upper and lower traces with an opening in the insulating material that contains a power device which has upward extending solder bump connections. An upper leadframe is mounted on the solder bumps and the upper tracks of the PC board. Vias in the PC board connect selected upper and lower traces. A control device is mounted atop the leadframe and wire bonded to the leadframe, and the assembly is encapsulated leaving exposed the bottom surfaces of the lower traces of the PC board as external connections. In another form the PC board is replaced by a planar leadframe and the upper leadframe has stepped sections which make connections with the planar leadframe, the bottom surfaces of the planar leadframe forming external connections of the module. | 01-05-2012 |
20120001322 | DOUBLE MOLDED CHIP SCALE PACKAGE - Chip scale semiconductor packages and methods for making and using the same are described. The chip scale semiconductor packages (CSPs) contain a die with an integrated circuit device, a patterned plating layer, and a second interconnect structure formed from a Cu etched substrate that has a portion of an upper surface connected to the patterned plating layer, a side surface, and a bottom surface. The die can be attached to the patterned plating layer by a first interconnect structure that uses wirebonding or that uses a flip chip attachment process. The CSP contains a double molded structure where a first molding layer encapsulates the die, the patterned plating layer, the first interconnect structure, and the upper surface of the second interconnect structure. The second molding layer encapsulates the side surface of the second interconnect structure without encapsulating the bottom surface of the second interconnect structure. With such a configuration, the second molding layer helps control warpage during the manufacturing process and no printed circuit board (PCB) substrate is needed when the package is used in an electronic device since the signal routing is performed by the second interconnect structure. Other embodiments are described. | 01-05-2012 |
20120012993 | DIE PACKAGE INCLUDING SUBSTRATE WITH MOLDED DEVICE - A package is disclosed. The package includes a premolded substrate having a leadframe structure, a first device attached to the leadframe structure, and a molding material covering at least part of the leadframe structure and the first device. It also includes a second device attached to the premolded substrate. | 01-19-2012 |
20120088331 | WAFER LEVEL STACK DIE PACKAGE - This document discusses, among other things, apparatus and methods for an IC package including first and a second discrete components fabricated into a semiconductor substrate. The first and second discrete components can be adjacent to one another in the semiconductor substrate, and an integrated circuit die can be mounted on the semiconductor substrate and coupled to the first and second discrete components. | 04-12-2012 |
20120094436 | EMBEDDED DIE PACKAGE ON PACKAGE (POP) WITH PRE-MOLDED LEADFRAME - A multiple-chip package has top and bottom pre-molded leadframes formed prior to the flip-chip attachment of semiconductor die to the leadframes. After die attachment, underfill is used to encase all but one surface of the die, and the top and bottom leadframes are joined together by solder bump balls with the exposed surfaces of the semiconductor dice proximate to each other. | 04-19-2012 |
20120100670 | WAFER LEVEL BUCK CONVERTER - A buck converter module includes a high side (HS) die having source, drain, and gate bonding pads on a front side of the HS die, a low side (LS) die having a first section thereof with a plurality of through silicon vias (TSVs) extending from a back side to a front side of the LS die, the LS die having source, drain, and gate bonding pads located on a front side of a second section separate from the first section, the drain bonding pad electrically connected to the back side of the LS die in the second section. The HS die and the LS die are bonded together such that the source bonding pad of the HS die is electrically connected to the back side of the LS die, and each of the drain and gate bonding pads are electrically connected to separate TSVs in the LS die. | 04-26-2012 |
20120149149 | FOUR MOSFET FULL BRIDGE MODULE - A molded, leadless packaged semiconductor multichip module includes | 06-14-2012 |
20120241930 | FOLDED LEADFRAME MULTIPLE DIE PACKAGE - A multiple die package includes a folded leadframe for interconnecting at least two die attached to another leadframe. In a synchronous voltage regulator the folded leadframe, which is formed from a single piece of material, connects the high side switching device with the low side switching device to provide a low resistance, low inductance connection between the two devices. | 09-27-2012 |
20120292778 | EMBEDDED SEMICONDUCTOR POWER MODULES AND PACKAGES - Disclosed are semiconductor die packages constructed from modules of embedded semiconductor dice and electrical components. In one embodiment, a semiconductor die package comprises a first module and a second module attached to the first module. One or more semiconductor dice are embedded in the first module, and one or more electrical components, such as surface-mounted components, are embedded in the second module. The first module may be formed by a lamination process, and the second module may be formed by a lamination process or a molding process. Patterned metal layers and vias provide electrical interconnections to the package and among the die and components of the package. The second module may be attached to the first module by coupling interconnect lands of separately manufactured modules to one another, or may be directly attached by lamination or molding. | 11-22-2012 |
20120326170 | WAFER LEVEL MOLDED OPTO-COUPLERS - Optocoupler packages and methods of making the same. An exemplary package comprises a substrate having a first surface, a second surface opposite the first surface, and a body of electrically insulating material disposed between the first and second surfaces; a first optoelectronic device embedded in the body of electrically insulating material of the substrate and disposed between the substrate's first and second surfaces, the first optoelectronic device having a first conductive region and a second conductive region; a second optoelectronic device embedded in the body of electrically insulating material of the substrate and disposed between the substrate's first and second surfaces and optically coupled to the first optoelectronic device, the second optoelectronic device having a first conductive region and a second conductive region; and a plurality of electrical traces disposed on one or both surfaces of the substrate and electrically coupled to the conductive regions of the optoelectronic devices. | 12-27-2012 |
20130001770 | WAFER LEVEL EMBEDDED AND STACKED DIE POWER SYSTEM-IN-PACKAGE PACKAGES - Wafer level embedded and stacked die power system-in-package semiconductor devices, and methods for making and using the same, are described. The methods include placing a first side of a substrate frame, which includes through cavity and an adjacent via, on a carrier. A first side of a component selected from an active device and a passive device can be placed on the carrier, within the cavity. A perimeter of the cavity can be attached to a perimeter of the component. Material at a second side of the substrate frame can be removed so the via extends from the frame's first side to the frame's second side. The substrate frame and component can then be removed from the carrier so that routing can be distributed between the first side of the frame and the first side of the component to electrically connect the component with the via. Other embodiments are described. | 01-03-2013 |
20130005083 | FOUR MOSFET FULL BRIDGE MODULE - A molded, leadless packaged semiconductor multichip module includes | 01-03-2013 |
20130307145 | SEMICONDUCTOR PACKAGE AND METHOD OF FABRICATING THE SAME - A semiconductor package including a package substrate; a semiconductor chip on the package substrate; a first via contact on the package substrate; a second via contact on the semiconductor chip; a metal wiring, which is arranged on the first via contact and the second via contact and interconnects the first via contact and the second via contact; a first encapsulating material which is arranged between the metal wiring and the package substrate and encapsulates the semiconductor chip, the first via contact, and the second via contact; and a second encapsulating material which encapsulates the first encapsulating material and the metal wiring. | 11-21-2013 |