Entries |
Document | Title | Date |
20080233683 | PRE-PLATED LEADFRAME HAVING ENHANCED ENCAPSULATION ADHESION - A process for producing a pre-plated leadframe that has enhanced adhesion by molding compound is provided, wherein a base leadframe material is first plated with multiple layers of metallic material. Thereafter, the plated base leadframe material is covered with a mask, so as to expose selected surfaces thereof at unmasked areas where enhanced adhesion of molding compound is desired. The said unmasked areas are plated with a layer of copper before removing the mask. Optionally, the layer of copper may further be oxidized to form a layer of specially controlled copper oxide. | 09-25-2008 |
20080233684 | MICROELECTRONIC COMPONENT ASSEMBLIES EMPLOYING LEAD FRAMES HAVING REDUCED-THICKNESS INNER LENGTHS - The present disclosure suggests various microelectronic component assembly designs and methods for manufacturing microelectronic component assemblies. In one particular implementation, a microelectronic component assembly includes a microelectronic component, at least two leads, and at least two bond wires. Each of the leads may have a reduced-thickness inner length adjacent terminals of the microelectronic component and a body having an outer surface spaced farther from the microelectronic component than a bond surface of the inner length. Each of the bond wires couples the microelectronic component to one of the leads and has a maximum height outwardly from the microelectronic component that is no greater than the height of the outer surface of the lead. | 09-25-2008 |
20080268576 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - A semiconductor device improved in packaging reliability is disclosed. Each of leads used in the semiconductor device has a first surface positioned between a main surface of a resin sealing body and a back surface opposite to the main surface of the resin sealing body, a second surface positioned on the side opposite to the first surface and exposed from the back surface of the resin sealing body, a first end face positioned on a semiconductor chip side, a second end face positioned on the side opposite to the first end face and exposed from a side face of the resin sealing body, and a recessed portion depressed from the second surface to the first surface side and contiguous to the second end face, the second surface and an inner wall surface of the recessed portion being covered with a plating layer which is higher in solder wettability than the second end face of each of the leads. | 10-30-2008 |
20080293190 | Semiconductor package, method for fabricating the same, and semiconductor device - A semiconductor device includes a semiconductor chip, leads for sending and receiving signals between the semiconductor chip and an external device, fine metal wires, an encapsulant for sealing the leads, and a lid member. On the surface of each of the leads, a metal oxide film is formed by an oxidation treatment. The metal oxide film has a thickness larger than a natural oxide film and no more than 80 nm. | 11-27-2008 |
20080305586 | METHOD OF MANUACTURING A SEMICONDUCTOR DEVICE - According to the method of manufacturing a semiconductor device, a lead frame is provided wherein the thickness of a tab-side end portion of a silver plating for wire connection formed on each suspending lead | 12-11-2008 |
20080311705 | Lead frame and method for fabricating semiconductor package employing the same - A lead frame and a method of fabricating a semiconductor package including the lead frame, where the lead frame includes a die pad, a tie bar supporting the die pad, and a plurality of leads. The leads may include inner and outer leads arranged along an outer periphery of the die pad, with each of the inner and outer leads having tip terminals. The lead frame may include a connecting bar connected to tip terminals of each of the inner leads. In the method, a bonding pad of a semiconductor chip is mounted on the die pad and connected via a conductive wire to the inner leads of the lead frame. The semiconductor chip, wire and inner leads may be subjected to a molding process, and the connecting bar which connects the tip terminals of the inner leads may be cut so as to independently separate each of the inner leads from the die pad. | 12-18-2008 |
20090004782 | METHOD OF FABRICATING A TWO-SIDED DIE IN A FOUR-SIDED LEADFRAME BASED PACKAGE - A method of fabricating a leadframe-based semiconductor package, and a semiconductor package formed thereby, are disclosed. In embodiments, a semiconductor die having die bond pads along two adjacent edges may be electrically coupled to four sides of a four-sided leadframe. Embodiments relate to lead and no-lead type leadframe. | 01-01-2009 |
20090011548 | HYBRID INTEGRATED CIRCUIT DEVICE AND MANUFACTURING METHOD THEREOF - A method of manufacturing a hybrid integrated circuit device of the present invention includes the steps of preparing a lead frame which constituted by units each having a plurality of leads, and fixing a circuit substrate on each unit of the lead frame by fixing pads which are formed on the surface of the circuit substrate to the leads, where a space between a first pad which is formed at an end edge of the circuit substrate and a second pad which is adjacent to the first pad is set narrower than a space between the pads themselves. | 01-08-2009 |
20090042339 | PACKAGED INTEGRATED CIRCUITS AND METHODS TO FORM A PACKAGED INTEGRATED CIRCUIT - Packaged integrated circuits and methods to form a packaged integrated circuit are disclosed. A disclosed method comprises attaching an integrated circuit to a substrate, coupling a first end of a bond wire directly to the substrate without an intervening bonding pad and a second end of the bond wire to a contact of the integrated circuit, encapsulating the integrated circuit and the bond wire, and removing the substrate to expose the first end of the bond wire. | 02-12-2009 |
20090068796 | SEMICONDUCTOR CONNECTION COMPONENT - There is a need for providing a technology capable of decreasing on-resistance of a power transistor in a semiconductor device that integrates the power transistor and a control integrated circuit into a single semiconductor chip. There is another need for providing a technology capable of reducing a chip size of a semiconductor device. A semiconductor chip includes a power transistor formation region to form a power transistor, a logic circuit formation region to form a logic circuit, and an analog circuit formation region to form an analog circuit. A pad is formed in the power transistor formation region. The pad and a lead are connected through a clip whose cross section is larger than that of a wire. On the other hand, a bonding pad is connected through the wire | 03-12-2009 |
20090087953 | Manufacturing process of leadframe-based BGA packages - A manufacturing process of a leadframe-based BGA package is disclosed. A leadless leadframe with an upper layer and a lower layer is provided for the package. The upper layer includes a plurality of ball pads, and the lower layer includes a plurality of sacrificial pads aligning and connecting with the ball pads. A plurality of leads are formed in either the upper layer or the lower layer to interconnect the ball pads or the sacrificial pads. An encapsulant is formed to embed the ball pads after chip attachment and electrical connections. During manufacturing process, a half-etching process is performed after encapsulation to remove the sacrificial pads to make the ball pads electrically isolated and exposed from the encapsulant for solder ball placement where the soldering areas of the ball pads are defined without the need of solder mask(s) to solve the problem of solder bleeding of the solder balls on the leads or the undesired spots during reflow. Moreover, mold flash can easily be detected and removed. | 04-02-2009 |
20090093090 | METHOD FOR PRODUCING A POWER SEMICONDUCTOR MODULE COMPRISING SURFACE-MOUNTABLE FLAT EXTERNAL CONTACTS - A method for producing a power semiconductor module having surface mountable flat external contact areas is disclosed. At least one power semiconductor chip is fixed by its rear side on a drain external contact. An insulation layer covers the top side over the side edges of the semiconductor chip as far as the inner housing plane was a leaving free the source and gate contact areas on the top side of the semiconductor chip and also was partly leaving free the top sides of the corresponding external contacts. | 04-09-2009 |
20090093091 | Method of fabricating semiconductor package - A semiconductor package of this invention achieves higher wiring densities and increases the degree of freedom of the wiring design. The semiconductor package includes a first substrate having first and second faces, and first wiring provided on the first face of the first substrate. The semiconductor package also includes a second substrate having first and second faces, and second wiring provided on the first face of the second substrate. The semiconductor package also includes a semiconductor chip connected to the first and second wiring. The first face of the first substrate faces the first face of the second substrate, and the first and second wiring intersect one another in three dimensions in an isolated state. | 04-09-2009 |
20090098686 | METHOD OF FORMING PREMOLDED LEAD FRAME - A method of forming a pre-molded lead frame having increased stand-offs includes the steps of attaching a first tape to a first side of the lead frame and a second tape to a second side of the lead frame. The taped lead frame is placed in a mold and a first flow of mold compound is initiated. The first flow of the mold compound fills a space between the first tape and an upper mold chase of the mold. A second flow of the mold compound then is initiated. The second flow of the mold compound fills the spaces between a die pad and leads of the lead frame. The first and second tapes then are removed from the lead frame. Improved stand-offs are provided because the first tape was depressed by the first flow of the mold compound. | 04-16-2009 |
20090111220 | COATED LEAD FRAME - A lead frame having a coating of organic compounds on its lead fingers prevents tin and flux from contaminating the lead fingers after die attach. The coating is removed prior to wire bonding. The coating allows for reliable second bonds (bond between wires and lead fingers) to be formed, decreasing the likelihood of non-stick and improving wire peel strength. | 04-30-2009 |
20090117690 | INTEGRATED TRANSISTOR MODULE AND METHOD OF FABRICATING SAME - An integrated transistor module includes a lead frame that defines at least one low-side land and at least one high-side land. A stepped portion of the lead frame mechanically and electrically interconnects the low-side and high-side lands. A low-side transistor is mounted upon the low-side land with its drain electrically connected to the low-side land. A high-side transistor is mounted upon the high-side land with its source electrically connected to the high-side land. | 05-07-2009 |
20090130801 | RESIN-ENCAPSULATED SEMICONDUCTOR DEVICE AND LEAD FRAME, AND METHOD FOR MANUFACTURING THE SAME - There are provided a lead frame including a plurality of first external terminal portions | 05-21-2009 |
20090130802 | SUBSTRATE BASED UNMOLDED PACKAGE - A semiconductor die package is disclosed. In one embodiment, the semiconductor die package has a substrate. It includes (i) a lead frame structure including a die attach region with a die attach surface and a lead having a lead surface, and (ii) a molding material. The die attach surface and the lead surface are exposed through the molding material. A semiconductor die is on the die attach region, and the semiconductor die is electrically coupled to the lead. | 05-21-2009 |
20090162976 | Method of manufacturing pins of miniaturization chip module - A method of manufacturing a miniaturization chip module includes steps of providing a chip module having a substrate, wherein the substrate has a plurality of bonding pads spaced on a rear surface of substrate; providing a lead frame including a plurality of spaced metallic studs, wherein the metallic studs are attached onto the bonding pads; and forming metallic blocks as I/O pins by removing a part of each metallic stud and a part of the lead frame which is not in contact with the substrate. | 06-25-2009 |
20090176335 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - According to the method of manufacturing a semiconductor device, a lead frame is provided wherein the thickness of a tab-side end portion of a silver plating for wire connection formed on each suspending lead | 07-09-2009 |
20090203173 | MOLD CLEANING SHEET AND MANUFACTURING METHOD OF A SEMICONDUCTOR DEVICE USING THE SAME - A cleaning sheet with frame for cleaning a molding die comprising a cleaning heat main body that covers the entire mating surface of a molding die and a reinforcing frame which can be disposed along the peripheral edge to the outside of the plural cavities of the mating surface of the molding die, the cleaning sheet main body being formed with first through holes at positions corresponding to the cavities of the molding die, air vent slits and flow cavity recesses at positions corresponding to the air vents of the cavities, second through holes at positions corresponding to the pots of the molding die, and slits at positions corresponding to the runners of the molding die, thereby capable of improving the cleaning effect of the molding die and shortening the time for the cleaning operation to improve the productivity. | 08-13-2009 |
20090233403 | DUAL FLAT NON-LEADED SEMICONDUCTOR PACKAGE - A DFN semiconductor package includes a leadframe having a die bonding pad formed integrally with a drain lead, a gate lead and a source lead, a die coupled to the die bonding pad, a die source bonding area coupled to the source lead and a die gate bonding area coupled to the gate lead, and an encapsulant at least partially covering the die, drain lead, gate lead and source lead. | 09-17-2009 |
20090263937 | LEADFRAME PACKAGE FOR MEMS MICROPHONE ASSEMBLY - A cavity semiconductor package has a pre-molded leadframe construction. The leadframe is formed by molding around a die pad, and plural terminal lands. The leadframe has a hole for an acoustic port, such that the package can be soldered on a back side of a printed circuit board and have air access to a sensor die in the package from a front side of the printed circuit board via the acoustic port. The leadframe may also have a hollow or concave recess that defines an acoustic cavity in conjunction with the sensor die or printed circuit board. | 10-22-2009 |
20090269889 | Apparatus for Manufacturing Semiconductor Package for Wide Lead Frame and Method of Constructing Semiconductor Package Using the Same - An apparatus for manufacturing a semiconductor package includes an index rail transferring a lead frame in forward and backward directions, the lead frame having a first surface and a second surface that is opposite to the first surface, a loader portion connected to an end portion of the index rail and supplying the lead frame to the index rail, a frame driving portion connected to the opposite end portion of the end portion of the index rail and rotating the lead frame around a normal to the first surface, and a wire bonding portion electrically connecting the lead frame and a semiconductor chip attached to the lead frame supplied to the index rail using a wire bond. | 10-29-2009 |
20090311832 | Flex Chip Connector For Semiconductor Device - A semiconductor die package. The semiconductor die package includes a semiconductor die having a first surface comprising a die contact region, and a second surface. It also includes a leadframe structure having a die attach pad and a lead structure, where the semiconductor die is attached to the die attach pad. It also includes a flex clip connector comprising a flexible insulator, a first electrical contact region, and a second electrical contact region. The first electrical contact region of the flex clip connector is coupled to the die contact region and the second electrical contact region of the flex clip connector is coupled to the lead structure. | 12-17-2009 |
20090317948 | METHOD FOR MANUFACTURING A SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A method is provided for manufacturing a QFN type semiconductor integrated circuit device using a multi-device lead frame having a tie bar for tying external end portions of plural leads, wherein sealing resin filled between an outer periphery of a mold cavity and the tie bar is removed by a laser and thereafter a surface treatment such as solder plating is performed. | 12-24-2009 |
20100035385 | ALUMINUM BUMP BONDING FOR FINE ALUMINUM WIRE - The invention includes a packaged semiconductor device in which the bond wires are bonded to the leads with an aluminum bump bond. The semiconductor device is mounted on a leadframe having leads with a nickel plating. To form the bump bond between a fine aluminum wire, such as a 2 mil diameter wire, and the lead, an aluminum bump is bonded to the nickel plating and the wire is bonded to the bump. The bump is aluminum doped with nickel and is formed from a large diameter wire, such as a 6 mil diameter wire. | 02-11-2010 |
20100055844 | Method of manufacturing semiconductor device - A method of manufacturing a semiconductor device, which is capable of easily removing a sealing sheet building up terminal surfaces of leads, includes arranging, on molds, terminal surfaces of leads in a lead frame on which semiconductor elements are mounted so as to come in contact with a sealing sheet, pouring a resin into the molds to form a resin sealed body including the semiconductor elements, and cleaning the resin sealed body, and the cleaning of the resin sealed body ravels the sealing sheet by a cleaning solvent and removes the sealing sheet. | 03-04-2010 |
20100055845 | POWER SEMICONDUCTOR MODULE AND METHOD OF MANUFACTURING THE SAME - A power semiconductor module and a method of manufacture thereof includes lead a frame carrying lead having inner and outer lead portions. The outer lead portions, which are connected by soldering to semiconductor chips simultaneously, eliminate the need for using bonding wires. Since no bonding wire is used for connecting the leads and the semiconductor chips, a sufficient current capacity is obtained. The bonding between an insulating circuit board and the semiconductor chips and the bonding between the semiconductor chips and the leads can be made simultaneously in a single step of reflow-soldering. As a result, the mounting time can be shortened and the power semiconductor module can be manufactured more efficiently. | 03-04-2010 |
20100062570 | LEADFRAME SURFACE WITH SELECTIVE ADHESION PROMOTER APPLIED WITH AN OFFSET GRAVURE PRINTING PROCESS FOR IMPROVED MOLD COMPOUND AND DIE ATTACH ADHESIVE ADHESION - Placement of an encapsulation material adhesion promoter onto a semiconductor device leadframe can be performed through the use of an offset printing apparatus such as a rotogravure printing apparatus or a tampoprint printing apparatus. This can provide accurate and low-cost placement of the adhesion promoter. | 03-11-2010 |
20100062571 | MICROELECTRONIC DEVICES AND METHODS FOR MANUFACTURING MICROELECTRONIC DEVICES - Microelectronic devices and methods for manufacturing microelectronic devices are disclosed herein. In one embodiment, a device includes a support member and a flexed microelectronic die mounted to the support member. The flexed microelectronic die has a plurality of terminals electrically coupled to the support member and an integrated circuit operably coupled to the terminals. The die can be a processor, memory, imager, or other suitable die. The support member can be a lead frame, a plurality of electrically conductive leads, and/or an interposer substrate. | 03-11-2010 |
20100105174 | SEMICONDUCTOR DEVICE - To actualize a reduction in the on-resistance of a small surface mounted package having a power MOSFET sealed therein. A silicon chip is mounted on a die pad portion integrated with leads configuring a drain lead. The silicon chip has, on the main surface thereof, a source pad and a gate pad. The backside of the silicon chip configures a drain of a power MOSFET and bonded to the upper surface of a die pad portion via an Ag paste. A lead configuring a source lead is electrically coupled to the source pad via an Al ribbon, while a lead configuring a gate lead is electrically coupled to the gate pad via an Au wire. | 04-29-2010 |
20100124801 | ELECTRONIC PACKAGE STRUCTURE AND METHOD - An electronic package structure and method use a conductive strip to bond die-to-die, die-to-lead, chip carrier-to-lead, or lead-to-lead. A conductive strip may carry greater current than a bonding wire, and thus may replace several bonding wires. The bonding of the conductive strip may be carried out by an SMT process, and thus requires lower cost than wire bonding processes. A conductive strip may be bonded to more than two dice or leads to save more bonding wires. A conductive strip is stronger than a bonding wire, and thus lowers the possibility of being broken. | 05-20-2010 |
20100136749 | MICROARRAY PACKAGE WITH PLATED CONTACT PEDESTALS - A microarray package includes a leadframe having an array of contact posts, a die carried by the lead frame, and a plurality of bonding wires that electrically connect the die to the lead frame. An encapsulant is included that encapsulates the die, the bonding wire and the leadframe while leaving the distal ends of the contact posts exposed and substantially co-planar with a bottom surface of the microarray package. A plurality of pedestal members is plated to the distal end of a respective contact pad. A distal surface of each pedestal member protrudes outwardly beyond the bottom surface of the microarray package in the range of about 15 μm to about 35 μm. | 06-03-2010 |
20100136750 | Etched Leadframe Structure - A leadframe structure is disclosed. The leadframe structure includes a first leadframe structure portion with a first thin portion and a first thick portion, where the first thin portion is defined in part by a first recess. It also includes a second leadframe structure portion with a second thin portion and a second thick portion, where the second thin portion is defined in part by a second recess. The first thin portion faces the second recess, and the second thin portion faces the first recess. | 06-03-2010 |
20100178734 | Leadless Semiconductor Package with Electroplated Layer Embedded in Encapsulant and the Method for Manufacturing the Same - A leadless semiconductor package with an electroplated layer embedded in an encapsulant and its manufacturing processes are disclosed. The package primarily includes a half-etched leadframe, a chip, an encapsulant, and an electroplated layer. The half-etched leadframe has a plurality of leads and a plurality of outer pads integrally connected to the leads. The encapsulant encapsulates the chip and the leads and has a plurality of cavities reaching to the outer pads to form an electroplated layer on the outer pads and embedded in the cavities. Accordingly, under the advantages of lower cost and higher thermal dissipation, the conventional substrates and their solder masks for BGA (Ball Grid Array) or LGA (Land Grid Array) packages can be replaced. The leads encapsulated in the encapsulant have a better bonding strength and the electroplated layer embedded in the encapsulant will not be damaged during shipping, handling, or storing the semiconductor packages. Furthermore, the manufacturing processes include two half-etching steps to form the half-etched leadframe where a second half-etching step is performed after forming the encapsulant and before forming the electroplated layer. | 07-15-2010 |
20100203681 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE, AND WIRE BONDER - An improvement in the quality of wire bonding is achieved by reducing the vibration of a lead frame or a wiring substrate after wire bonding. Over a heat block in a wire bond portion of a wire bonder, there is provided a cooling blower for cooling a wire-bonded matrix frame so that the temperature thereof may decrease stepwise. After wire bonding, cold air is blown from the cooling blower to the matrix frame, and temperature control of the matrix frame is performed so that the temperature of the matrix frame after wire bonding may decrease stepwise. Or, the wire-bonded matrix frame is fixed with a holding tool such as a frame holding member, a guide member, a roller means, or an elastic means until cooling is completed. | 08-12-2010 |
20100203682 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME - A semiconductor device including a semiconductor device, an integrated circuit chip, a sealing resin encapsulating the integrated circuit chip and an insulating waterproof film covering at least a portion of a surface of said sealing resin and preventing penetration of moisture into the sealing resin. | 08-12-2010 |
20100203683 | SEMICONDUCTOR SYSTEM WITH FINE PITCH LEAD FINGERS AND METHOD OF MANUFACTURE THEREOF - A method for manufacturing a semiconductor package system includes: providing a die having a plurality of contact pads; forming a leadframe having a plurality of lead fingers with flat tops of predetermined lengths, the plurality of lead fingers having a fine pitch and each having a trapezoidal cross-section; attaching a plurality of bumps to the plurality of lead fingers, the plurality of bumps on the tops, extending beyond the widths of the trapezoidal cross-sections, and clamping down on the two sides of each of the plurality of lead fingers; attaching a plurality of bond wires to the plurality of contact pads; attaching the plurality of bond wires to the plurality of bumps; and forming an encapsulant over the plurality of lead fingers, the die, and the plurality of bond wires, the encapsulant leaving lower surfaces of the plurality of lead fingers exposed. | 08-12-2010 |
20100216283 | ELECTRONIC DEVICE AND LEAD FRAME - A lead frame facilitates the handling, positioning, attachment, and/or continued integrity of multiple dies, without the use of multiple separate parts, such as jumpers. The lead frame includes a number of structures, each of which is attached to at least one lead. At least one receiving surface, arranged to receive a die, is associated with each structure. When dies are disposed on the receiving surfaces, anodes are similarly-oriented. A number of fingers are attached to the lead frame, and one or more electrode contact surfaces are attached to each finger. Each electrode contact surface can be positioned (for example, bent) with respect to one receiving surface, to facilitate electrical connection between the anode of a die and a lead. The lead frame may be used in connection with surface- and through-hole-mountable electronic devices, such as bridge rectifier modules. | 08-26-2010 |
20100227436 | METHOD OF FABRICATING A SEMICONDUCTOR PACKAGE WITH MOLD LOCK OPENING - A method of fabricating a semiconductor package. In one embodiment the method includes forming a mold cavity about a portion of a first major surface of a leadframe, including about a mold lock opening extending through the leadframe between the first major surface and a second major surface. A spacer is inserted to fill at least a portion of the mold lock opening. The mold cavity is filled with an encapsulating material including filling a portion of the mold lock opening not occupied by the spacer. | 09-09-2010 |
20100261316 | SEMICONDUCTOR DEVICE WITH SURFACE MOUNTING TERMINALS - A semiconductor device has a sealing body formed of an insulating resin and a semiconductor chip positioned within the sealing body. A gate electrode and a source electrode are on a first main surface of the semiconductor chip and a back electrode (drain electrode) is on a second main surface thereof. An upper surface of a portion of a drain electrode plate that projects in a gull wing shape is exposed from the sealing body and a lower surface thereof is connected to the back electrode through an adhesive. A gate electrode plate projects in a gull wing shape on an opposite end side of the sealing body and is connected to the gate electrode within the sealing body. A source electrode plate projects in a gull wing shape on the opposite end side of the sealing body and is connected to the source electrode within the sealing body. | 10-14-2010 |
20100279470 | PACKAGE WITH MULTIPLE DIES - A semiconductor die package is disclosed. It includes a leadframe structure comprising a first die attach pad and a second die attach pad. A plurality of leads extend from the first and second die attach pads. The plurality of leads includes at least a first control lead and a second control lead. A first semiconductor die including a first device is mounted on the first die attach pad, and a second semiconductor die has a second device is mounted on the second die attach pad. A housing is provided in the semiconductor die package and protects the first and second dies. The housing may have an exterior surface and at least partially covers the first semiconductor die and the second semiconductor die. The first control lead and the second control lead are at opposite sides of the semiconductor die package. | 11-04-2010 |
20100304534 | METHOD FOR CONNECTING A DIE ATTACH PAD TO A LEAD FRAME AND PRODUCT THEREOF - Disclosed in this specification is a semiconductor package with a die attach pad and a lead frame which are electrically and mechanically connected to one another through a conductive wire ribbon. Such a configuration reduces the package footprint and also permits different styles of die attach pads and lead frames to be interchanged, thus reducing production costs. | 12-02-2010 |
20110008936 | Semiconductor Device Having Grooved Leads to Confine Solder Wicking - A packaged surface-mount semiconductor device has the outer, un-encapsulated lead segments structured in five adjoining portions: The first portion protrudes from the encapsulation about horizontally; the second portion forms a convex bend downwardly; the third portion is approximately straight downwardly; the fourth portion forms a concave bend upwardly; and the fifth portion is straight horizontally. Each segment has across the width a first groove in the third portion, either on the bottom surface or on the top surface. Preferably, the groove is about 2 leadframe thicknesses vertically over the bottom surface of the fifth lead portion. When stamped, the groove may have an angular outline about 5 and 50 μm deep; when etched, the groove may have an approximately semicircular outline about 50 to 125 μm deep. A second groove may be located in the second segment portion; a third groove may be located in the transition region from the third to the fourth segment portions. | 01-13-2011 |
20110033984 | MOLD CLEANING SHEET AND METHOD OF PRODUCING SEMICONDUCTOR DEVICES USING THE SAME - A cleaning sheet ( | 02-10-2011 |
20110033985 | Manufacturing Method for Integrating a Shunt Resistor into a Semiconductor Package - An integrated circuit package that comprises a lead frame, an integrated circuit located on the lead frame and a shunt resistor coupled to the lead frame and to the integrated circuit. The shunt resistor has a lower temperature coefficient of resistance than the lead frame, and the lead frame has a lower resistivity than the shunt resistor. The shunt resistor has a low-resistance coupling to external leads of the lead frame, or, the shunt resistor has its own integrated external leads. | 02-10-2011 |
20110039376 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A high positional accuracy of a semiconductor chip is attained to stabilize the quality of a semiconductor device. In a die bonding process during assembly of an SIP, a microcomputer chip not required to have a high positional accuracy is picked up with a surface non-contact type collet and is die-bonded onto a first chip mounting portion, thereafter, an ASIC chip required to have a high positional accuracy is picked up with a surface contact type collet and die-bonded onto a second chip mounting portion. By thus using two types of collets properly, not only a high positional accuracy of the ASIC chip which has been die-bonded with the surface contact type collet is attained, but also the quality of the SIP is stabilized. | 02-17-2011 |
20110045641 | Semiconductor Device Having Solder-Free Gold Bump Contacts for Stability in Repeated Temperature Cycles - A semiconductor device has a chip ( | 02-24-2011 |
20110059581 | Method for manufacturing semiconductor module - A method for manufacturing a semiconductor module, includes the steps of preparing a board; mounting a semiconductor device on the second metal foil; placing a resin case onto the board for surrounding a first metal foil, an insulating sheet, the second metal foil, and the semiconductor device; pouring a resin in a paste form into the case to fill a space relative to the first metal foil, insulating sheet, the second metal foil and the semiconductor device; and heat-curing the resin. A bottom end of a peripheral wall of the case is located above a bottom surface of the first metal. The bottom surface of the first metal foil and the resin form a flat bottom surface to contact an external mounting member. | 03-10-2011 |
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 |
20110070700 | Apparatus for Connecting Integrated Circuit Chip to Power and Ground Circuits - In a method and system for transferring at least one of power and ground signal between a die and a package base of a semiconductor device, a connector is formed there between. The connector, which is disposed above the die attached to the package base, includes a center pad electrically coupled to the die by a plurality of conductive bumps and a finger extending outward from the center pad towards the package base. The finger is electrically coupled to the package base by a conductive pad. A plurality of bond wires are formed to electrically couple the package base and the die. A resistance of a conductive path via the connector is much less than a resistance of a conductive path via any one of the plurality of bond wires to facilitate an efficient transfer of the at least one of power and ground signal. | 03-24-2011 |
20110076805 | MOLDED LEADFRAME SUBSTRATE SEMICONDUCTOR PACKAGE - A process for forming land grid array semiconductor packages includes a leadframe that is supported by a substrate comprising mold compound. In some embodiments, at least one die is electrically coupled to the leadframe by bondwires. The package comprises a second mold compound to act as an encapsulant. An apparatus for forming a land grid array semiconductor package includes means for molding a leadframe, assembling thereon at least one semiconductor device, applying a second mold, and singulating to form individual devices. A land grid array package comprises a leadframe, a substrate for supporting the leadframe, at least one semiconductor device and a mold compound. | 03-31-2011 |
20110076806 | Low Cost Lead-Free Preplated Leadframe Having Improved Adhesion and Solderability - A leadframe with a structure made of a base metal ( | 03-31-2011 |
20110076807 | SELF LOCKING AND ALIGNING CLIP STRUCTURE FOR SEMICONDUCTOR DIE PACKAGE - A semiconductor die package. The semiconductor die package includes a semiconductor die, and a lead comprising a flat surface. It also includes a clip structure including a (i) a contact portion, where the contact portion is coupled the semiconductor die, a clip aligner structure, where the clip aligner structure is cooperatively structured with the lead with the flat surface, and an intermediate portion coupling the contact portion and the clip aligner structure. | 03-31-2011 |
20110081750 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICES - The reliability of a semiconductor device is enhanced. A first lead frame, a first semiconductor chip, a second lead frame, and a second semiconductor chip are stacked over an assembly jig in this order with solder in between and solder reflow processing is carried out to fabricate their assembly. Thereafter, this assembly is sandwiched between first and second molding dies to form an encapsulation resin portion. The upper surface of the second die is provided with steps. At a molding step, the second lead frame is clamped between the first and second dies at a position higher than the first lead frame; and a third lead frame is clamped between the first and second dies at a higher position. The assembly jig is provided with steps at the same positions as those of the steps in the upper surface of the second die in positions corresponding to those of the same. | 04-07-2011 |
20110092028 | Lead frame and method of manufacturing the same - A lead frame includes a base material having a front surface for mounting of a semiconductor chip and a back surface for connection with an external board, and an Ni layer having a thick section and thin section. The thick section is formed on the back surface of the base material, whereas the thin section is formed on all or a part of the front surface of the base material. It is preferable that the thick section has a thickness ranging from 2.5 to 5 μm, and the thin section is 0.5-2 μm thinner than the thick section. The lead frame can be manufactured with improved productivity by forming an Ni layer on both front and back surfaces of the base material, and then etching only the Ni layer formed on the front surface of the base material. | 04-21-2011 |
20110097854 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING ELECTRONIC DEVICE - Foreign matter formed over (or adhered to) a surface of a lead is reliably removed. A laser beam is applied to a residual resin (sealing body) which is formed in (or adhered to) a region surrounded by a sealing body (a first sealing body), a lead exposed (projected) from the sealing body, and a dam bar. The foreign matter formed over (or adhered to) the surface of the lead can be reliably removed by washing the surface of the lead after the removal of the residual resin. Thus, in a subsequent plating step, the reliability (wettability, adhesion with the lead) of a plating film to be formed over the surface of the lead can be improved. | 04-28-2011 |
20110097855 | SEMICONDUCTOR DEVICE - A module including a carrier and a semiconductor chip applied to the carrier. An external contact element is provided having a first portion and a second portion extending perpendicular to the first portion, wherein a thickness of the second portion is smaller than a thickness of the carrier. | 04-28-2011 |
20110117704 | CIRCUIT MEMBER, MANUFACTURING METHOD OF THE CIRCUIT MEMBER, AND SEMICONDUCTOR DEVICE INCLUDING THE CIRCUIT MEMBER - A circuit member includes a lead frame material having a die pad, a lead part to be electrically connected with a semiconductor chip, and an outer frame configured to support the die pad and the lead part. The lead frame material includes a resin sealing region. Roughened faces | 05-19-2011 |
20110124159 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - Performing electrolysis plating to a wiring is made possible, aiming at the increasing of pin count of a semiconductor device. Package substrate | 05-26-2011 |
20110143500 | SEMICONDUCTOR CONNECTION COMPONENT - There is a need for providing a technology capable of decreasing on-resistance of a power transistor in a semiconductor device that integrates the power transistor and a control integrated circuit into a single semiconductor chip. There is another need for providing a technology capable of reducing a chip size of a semiconductor device. A semiconductor chip includes a power transistor formation region to form a power transistor, a logic circuit formation region to form a logic circuit, and an analog circuit formation region to form an analog circuit. A pad is formed in the power transistor formation region. The pad and a lead are connected through a clip whose cross section is larger than that of a wire. On the other hand, a bonding pad is connected through the wire | 06-16-2011 |
20110165735 | Flexible Interposer for Stacking Semiconductor Chips and Connecting Same to Substrate - A semiconductor device with a first ( | 07-07-2011 |
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 |
20110183473 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - To solve a problem in that a die processing cost increases when employing a method involving providing a suction hole in the die to fix an island onto a bottom surface, provided is a semiconductor device, which includes: a semiconductor chip, an island having a first surface, on which the semiconductor chip is mounted, and a second surface opposing to the first surface, a hanger pin extended from the island, a branch portion extended from one of the island and the hanger pin, and a resin encapsulating the semiconductor chip, the island, the hanger pin and the brunch portion while exposing the second surface of the island. | 07-28-2011 |
20110201158 | Selective Removal of Gold From a Lead Frame - A method of packaging an integrated circuit, including providing a lead frame having lead fingers, where the lead frame has a gold layer thereon on a top surface and a bottom surface. An integrated circuit die is attached to the lead frame. The gold layer is substantially removed from portions of the top surface of the lead frame. The integrated circuit die is wire bonded to the lead fingers with a plurality of wire stitches subsequent to substantially removing the gold. The die is encapsulated in a mold compound to form a packaged integrated circuit. | 08-18-2011 |
20110201159 | SEMICONDUCTOR PACKAGE AND MANUFACTURING METHOD THEREOF - A semiconductor package | 08-18-2011 |
20110212577 | SEMICONDUCTOR POWER DEVICE HAVING A STACKED DISCRETE INDUCTOR STRUCTURE - A power device includes a discrete inductor having contacts formed on a first surface of the discrete inductor and at least one semiconductor component mounted on the first surface of the discrete inductor and coupled to the contacts. The discrete inductor further includes contacts formed on a second surface opposite the first surface and routing connections connecting the first surface contacts to corresponding second surface contacts. The semiconductor components may be flip chip mounted onto the discrete inductor contacts or wire bonded thereto. | 09-01-2011 |
20110223719 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF THE SAME - A wire short-circuit defect during molding is prevented. A semiconductor device has a tab, a plurality of leads arranged around the tab, a semiconductor chip mounted over the tab, a plurality of wires electrically connecting the electrode pads of the semiconductor chip with the leads, and a molded body in which the semiconductor chip is resin molded. By further stepwise shortening the chip-side tip end portions of the leads as the first edge or side of the principal surface of the semiconductor chip goes away from the middle portion toward the both end portions thereof, and shortening the tip end portions of those of first leads corresponding to the middle portion of the first edge or side of the principal surface which are adjacent to second leads located closer to the both end portions of the first edge or side, the distances between second wires connected to the second leads and the tip end portions of the first leads adjacent to the second leads can be increased. As a result, it is possible to prevent the wire short-circuit defect even when wire sweep occurs due to the flow resistance of a mold resin. | 09-15-2011 |
20110237032 | Semiconductor Package and Method for Making the Same - The present invention relates to a semiconductor package and a method for making the same. The semiconductor package includes a substrate, a first passivation layer, a first metal layer, a second passivation layer, a second metal layer and a third metal layer. The substrate has a surface having at least one first pad and at least one second pad. The first passivation layer covers the surface of the substrate and exposes the first pad and the second pad. The first metal layer is formed on the first passivation layer and is electrically connected to the second pad. The second passivation layer is formed on the first metal layer and exposes the first pad and part of the first metal layer. The second metal layer is formed on the second passivation layer and is electrically connected to the first pad. The third metal layer is formed on the second passivation layer and is electrically connected to the first metal layer. | 09-29-2011 |
20110256670 | METHOD FOR MANUFACTURING INTEGRATED CIRCUIT PACKAGE SYSTEM WITH UNDER PADDLE LEADFINGERS - A method for manufacturing an integrated circuit package system includes: forming a die paddle; forming an under paddle leadframe including lower leadfingers thereon; attaching the under paddle leadframe to the die paddle with the lower leadfingers extending under the die paddle; attaching a die to the die paddle; and planarizing a bottom surface of the under paddle leadframe to separate the lower leadfingers under the die paddle. | 10-20-2011 |
20110300671 | LEADFRAME-BASED SEMICONDUCTOR PACKAGE AND FABRICATION METHOD THEREOF - A leadframe-based semiconductor package and a fabrication method thereof are provided. The leadframe-based semiconductor package includes a chip implanted with a plurality of first and second conductive bumps thereon, and a leadframe having a plurality of leads. The first conductive bumps are bonded to the leads to electrically connect the chip to the leadframe. The chip, the first and second conductive bumps, and the leadframe are encapsulated by an encapsulant, with bottom ends of the second conductive bumps and bottom surfaces of the leads being exposed from the encapsulant. This allows the second conductive bumps to provide additional input/output electrical connections for the chip besides the leads. | 12-08-2011 |
20110312134 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICES - The reliability of a semiconductor device is enhanced. A first lead frame, a first semiconductor chip, a second lead frame, and a second semiconductor chip are stacked over an assembly jig in this order with solder in between and solder reflow processing is carried out to fabricate their assembly. Thereafter, this assembly is sandwiched between first and second molding dies to form an encapsulation resin portion. The upper surface of the second die is provided with steps. At a molding step, the second lead frame is clamped between the first and second dies at a position higher than the first lead frame; and a third lead frame is clamped between the first and second dies at a higher position. The assembly jig is provided with steps at the same positions as those of the steps in the upper surface of the second die in positions corresponding to those of the same. | 12-22-2011 |
20120009739 | Metallic Leadframes Having Laser-Treated Surfaces for Improved Adhesion to Polymeric Compounds - A leadframe for the assembly of a semiconductor chip has regions ( | 01-12-2012 |
20120034742 | SEMICONDUCTOR DEVICE - To actualize a reduction in the on-resistance of a small surface mounted package having a power MOSFET sealed therein. A silicon chip is mounted on a die pad portion integrated with leads configuring a drain lead. The silicon chip has, on the main surface thereof, a source pad and a gate pad. The backside of the silicon chip configures a drain of a power MOSFET and bonded to the upper surface of a die pad portion via an Ag paste. A lead configuring a source lead is electrically coupled to the source pad via an Al ribbon, while a lead configuring a gate lead is electrically coupled to the gate pad via an Au wire. | 02-09-2012 |
20120077316 | BRACE FOR WIRE BOND - An electrical connection includes a first wire having one end stitch bonded to a surface, such as the lead finger of a lead frame or the connection pad of a substrate. A second wire has a first end attached to the surface on a first side of the first wire and a second end attached to the surface on a second, opposing side of the first wire. The second wire acts as a brace that prevents the first wire from lifting off of the surface. If necessary, a third wire can be added that, like the second wire, acts as a brace to prevent the first wire from lifting off of the surface. | 03-29-2012 |
20120083072 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - Performing electrolysis plating to a wiring is made possible, aiming at the increasing of pin count of a semiconductor device. Package substrate | 04-05-2012 |
20120088337 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device, includes the steps of mounting a lead frame in a recessed portion of a lower die, bringing the lower die and an upper die to overlap each other so that a portion for sliding the lead frame slides the lead frame toward injection surfaces, the sliding portion being formed on the recessed portion of the lower die or on the recessed portion of the upper die, clamping the lower die and the upper die together so that at least one projection formed on the upper die crushes down an end portion of the lead frame so as to form lateral projections on the left and right sides of the gate, the lateral projections blocking up the gap between the injection surfaces and the lead frame, and injecting a molding resin through the gate. | 04-12-2012 |
20120100672 | METHODS AND APPARATUS FOR A STACKED-DIE INTERPOSER - An improved stacked-die package includes an interposer which improves the manufacturability of the package. A semiconductor package includes a package substrate having a plurality of bond pads; a first semiconductor device mounted on the package substrate, the first semiconductor device having a plurality of bond pads provided thereon; an interposer mounted on the first semiconductor device, the interposer having a first interposer bond pad and a second interposer bond pad, wherein the first and second interposer bond pads are electrically coupled; a second semiconductor device mounted on the interposer, the second semiconductor device having a plurality of bond pads provided thereon; a first bond wire connected to one of the plurality of bond pads on said first semiconductor and to the first interposer bond pad; and a second bond wire connected to the second interposer bond pad and to one of the plurality of bond pads on the semiconductor device. | 04-26-2012 |
20120108013 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - In QFN packages for vehicles which are required to have high reliability, the side surface of leads is mostly covered with lead-to-lead resin protrusions, which prevent smooth formation of solder fillets during reflow mounting. When the lead-to-lead protrusions are mechanically removed using a punching die, there is a high possibility of causing cracks of the main body of the package or terminal deformation. When a spacing is provided between the punching die and the main body of the package in order to avoid such damages, a resin residue is produced to hinder complete removal of this lead-to-lead resin protrusion. The present invention provides a method for manufacturing semiconductor device of a QFN type package using multiple leadframes having a dam bar for tying external end portions of a plurality of leads. This method includes a step of removing a sealing resin filled between the circumference of a mold cavity and the dam bar by using laser and then carrying out surface treatment, for example, solder plating. | 05-03-2012 |
20120156832 | ELECTRONIC COMPONENT - An electronic component and method of making an electronic component is disclosed. In one embodiment, the electronic component includes a frame having a base layer, a first layer, a second layer including palladium placed on the first layer, and a third layer including gold placed on the second layer. A semiconductor chip is positioned on the frame. | 06-21-2012 |
20120164794 | METHOD OF MAKING A COPPER WIRE BOND PACKAGE - A method for making a wire bond package comprising the step of providing a lead frame array comprising a plurality of lead frame units therein, each lead frame unit comprises a first die pad and a second die pad each having a plurality of tie bars connected to the lead frame array, a plurality of reinforced bars interconnecting the first and second die pads; the reinforced bars are removed after molding compound encapsulation. | 06-28-2012 |
20120164795 | Ultrasonic Wire Bonding Method for a Semiconductor Device - A risk of an electrical short between electrode pads of a semiconductor device can be reduced to thereby improve quality of the semiconductor device. During ball bonding in wire bonding, in each of the electrode pads of a semiconductor chip which are arrayed along an ultrasonic wave application direction (ultrasonic vibration direction), a ball at the tip of a copper wire and the electrode pad are coupled to each other while being rubbed against each other in a direction intersecting the ultrasonic wave application direction. Thus, the amount of AL splash formed on the electrode pad can be minimized to make the AL splash smaller. As a result, the quality of the semiconductor device assembled by the above-mentioned ball bonding can be improved. | 06-28-2012 |
20120196405 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device comprises: preparing a lead frame including a package external region and a package internal region, a burred surface being provided at a top end of a side of the lead frame, and a fracture surface being provided in the vicinity of the top end of the side; chamfering the top end of the side in the package external region; mounting a semiconductor element on the lead frame and sealing the semiconductor element with mold resin in the package internal region; and removing resin burr provided on the side of the lead frame in the package external region after the chamfering and the sealing. | 08-02-2012 |
20120208323 | Method for Mounting a Semiconductor Chip on a Carrier - A method includes providing a semiconductor chip having a first main surface and a layer of solder material deposited on the first main surface, wherein the layer of solder material has a roughness of at least 1 μm. The semiconductor chip is placed on a carrier with the first main surface of the semiconductor chip facing the carrier. The semiconductor chip is pressed on the carrier with a pressure of at least 1 Newton per mm | 08-16-2012 |
20120208324 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - In a multichip thin package requiring a thickness of submillimeter region, it is difficult to thin the package if the chips are mounted over a usual die pad. According to a technique of the present application, in a manufacturing method of a semiconductor device of a thin resin sealed multichip rectangular package having wire connection between the chips, at least one chip is fixed to a die pad thinned more than a die pad support lead, the die pad is supported by die pad support leads arranged to respectively connect a pair of long sides of the rectangle, and sealing resin is introduced from one side of the pair of long sides when resin molding is performed. | 08-16-2012 |
20120244665 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes: forming a first layer including crystals by processing a surface of a first electrode of a semiconductor element; forming a second layer including crystals by processing a surface of a second electrode of a mounting member on which the semiconductor element is mounted; reducing a first oxide film present over or in the first layer and a second oxide film present over or in the second layer at a first temperature, the first temperature being lower than a second temperature at which a first metal included in the first electrode diffuses in a solid state and being lower than a third temperature at which a second metal included in the second electrode diffuses in a solid state; and bonding the first layer and the second layer to each other by solid-phase diffusion. | 09-27-2012 |
20120264259 | Method for Forming a Semiconductor Device and a Semiconductor Device - A method for forming a semiconductor device is provided. The method includes providing a semiconductor substrate having a main horizontal surface, an opposite surface and a completely embedded dielectric region. A deep vertical trench is etched from the main horizontal surface into the semiconductor substrate using the dielectric region as an etch stop. A vertical transistor structure is formed in the semiconductor substrate. A first metallization in ohmic contact with the transistor structure is formed on the main horizontal surface. The semiconductor substrate is thinned at the opposite surface at least close to the dielectric region. Further, a semiconductor device is provided. | 10-18-2012 |
20120270370 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A disclosed semiconductor device includes a wiring board, a semiconductor element mounted on a principal surface of the wiring board with flip chip mounting, a first conductive pattern formed on the principal surface along at least an edge portion of the semiconductor element, a second conductive pattern formed on the principal surface along the first conductive pattern and away from the first conductive pattern, a passive element bridging between the first conductive pattern and the second conductive pattern on the principal surface of the wiring board, and a resin layer filling a space between the wiring board and the semiconductor chip, wherein the resin layer extends between the semiconductor element and the first conductive pattern on the principal surface of the wiring board. | 10-25-2012 |
20120276692 | Method for Assemblying a Semiconductor Chip Package with Deflection-Resistant Leadfingers - Embodiments of the invention relate to methods for semiconductor chip package assembly. An embodiment of the invention includes providing a metallic leadframe with a chip mounting surface and a plurality of leadfingers. The leadfingers have a proximal end for receiving one or more wirebonds and a distal end for providing an electrical path from the proximal end. One or more of the leadfingers also has an offset portion and underlying heat spreader, increasing the stiffness of the leadfinger, and increasing leadfinger deflection-resistance and spring-back. The offset is in the direction opposite the plane of a heat spreader thermally coupled to the mounting surface. A semiconductor chip is affixed to the mounting surface and a plurality of bond pads of the chip are wirebonded to the offset portions of the proximal ends of individual leadfingers. The chip, the bondwires, portions of the heat spreader and leadfingers are encapsulated. | 11-01-2012 |
20120276693 | Module Comprising a Semiconductor Chip - A module includes a semiconductor chip having at least a first terminal contact surface and a second terminal contact surface. A first bond element made of a material on the basis of Cu is attached to the first terminal contact surface, and a second bond element is attached to the second terminal contact surface. The second bond element is made of a material different from the material of the first bond element or is made of a type of bond element different from the type of the first bond element. | 11-01-2012 |
20120322211 | DIE BACKSIDE STANDOFF STRUCTURES FOR SEMICONDUCTOR DEVICES - Standoff structures that can be used on the die backside of semiconductor devices and methods for making the same are described. The devices contain a silicon substrate with an integrated circuit on the front side of the substrate and a backmetal layer on the backside of the substrate. Standoff structures made of Cu of Ni are formed on the backmetal layer and are embedded in a Sn-containing layer that covers the backmetal layer and the standoff structures. The standoff structures can be isolated from each other so that they are not connected and can also be configured to substantially mirror indentations in the leadframe that is attached to the Sn-containing layer. Other embodiments are described. | 12-20-2012 |
20120329214 | SEMICONDUCTOR DIE PACKAGE AND METHOD FOR MAKING THE SAME - A semiconductor die package. The semiconductor die package includes a premolded clip structure assembly having a clip structure, a semiconductor die attached to the clip structure, and a first molding material covering at least a portion of the clip structure and the semiconductor die. The semiconductor die package also includes a leadframe structure having a die attach pad, where the leadframe structure is attached to premolded clip structure assembly. | 12-27-2012 |
20130011973 | LEADFRAME STRIP AND MOLD APPARATUS FOR AN ELECTRONIC COMPONENT AND METHOD OF ENCAPSULATING AN ELECTRONIC COMPONENT - A leadframe strip comprises a plurality of units arranged in a line. Each unit provides two component positions, each having a chip support substrate. The chip support substrates of the two component positions are mechanically linked by at least one support bar. The two component positions of a unit are molded at essentially the same time to produce a plastic housing for a package in each component position. The central portion of the first support bars remains outside of the plastic housing of the two packages. | 01-10-2013 |
20130017653 | Integrated Antennas in Wafer Level Package - A semiconductor module comprises components in one wafer level package. The module comprises an integrated circuit (IC) chip embedded within a package molding compound. The package comprises a molding compound package layer coupled to an interface layer for integrating an antenna structure and a bonding interconnect structure to the IC chip. The bonding interconnect structure comprises three dimensional interconnects. The antenna structure and bonding interconnect structure are coupled to the IC chip and integrated within the interface layer in the same wafer fabrication process. | 01-17-2013 |
20130034937 | Exposed Die Package for Direct Surface Mounting - A method of forming an electronic assembly includes attaching a backside metal layer the bottomside of a semiconductor die. An area of the backside metal layer matches an area of the bottomside of the die. A die pad and leads are encapsulated within the molding material. The leads include an exposed portion that includes a bonding portion. A gap exposes the backside metal layer along a bottom surface of the package. Bond wires couple the pads on the topside of the die to the leads and the bonding portions. Packaged semiconductor device is soldered to a printed circuit board (PCB). The backside metal layer and the bonding portions of the leads are soldered substrate pads on said PCB. | 02-07-2013 |
20130045573 | CHIP ON LEADS - Described herein are microelectronic packages including a plurality of bonding fingers and multiple integrated circuit chips, at least one integrated circuit chip being mounted onto the bonding fingers. According to various embodiments of the present invention, mounting the integrated circuit chip onto the bonding fingers may reduce the pin-out count by allowing multiple integrated circuit chips to be interconnected within the same microelectronic package. Other embodiments may be described and claimed. | 02-21-2013 |
20130071971 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - In a structure of a semiconductor device, a Si chip and a metal leadframe are jointed by metallic bond via a porous joint layer made of high conductive metal, having a three-dimensional network structure and using Ag as a bonding material, and a film containing Zn oxide or Al oxide is formed on a surface of a semiconductor assembly contacting to a polymer resin. In this manner, by the joint with the joint layer having the porous structure mainly made of Ag, thermal stress load of the Si chip can be reduced, and fatigue life of the joint layer itself can be improved. Besides, since adhesion of the polymer resin to the film can be enhanced by the anchor effect, occurrence of cracks in a bonding portion can be prevented, so that a highly-reliable Pb-free semiconductor device can be provided. | 03-21-2013 |
20130109137 | LARGE PANEL LEADFRAME | 05-02-2013 |
20130115737 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE WITH OUTER LEADS HAVING A LEAD-FREE PLATING - A semiconductor device has a tab having a semiconductor chip fixed thereto, a plurality of inner leads, a plurality of outer leads formed integrally with the inner leads, a plurality of wires coupling the electrode pads of the semiconductor chip to the inner leads, and a molded body having the semiconductor chip molded therein. Over a surface of each of the outer leads protruding from the molded body, an outer plating including lead-free platings is formed. The outer plating has, in a thickness direction thereof, a first lead-free plating and a second lead-free plating, the first and second lead-free platings having the same composition and meeting at an interface. The first and second lead-free platings are formed under different conditions and may have different physical properties. | 05-09-2013 |
20130171775 | EXPOSED DIE PAD PACKAGE WITH POWER RING - A method of fabricating a packaged semiconductor includes forming a conductive frame as an integral piece of conductive material. The frame includes an inner portion and a ring portion encircling the inner portion. The ring portion includes a first ring portion encircling first and second sides of the inner portion, and a first bar portion located on a third side of the inner portion. The method includes mounting a semiconductor die to a first surface of the inner portion of the frame. The die is configured to receive power via the first ring portion. The method includes applying a casing, which covers the die, to the frame. The method includes, after the casing is applied to the frame, removing (i) sections of the frame that connect the inner portion to the ring portion, and (ii) sections of the frame that connect the first ring portion to the first bar portion. | 07-04-2013 |
20130196473 | MOLD CHASE - A mold chase for packaging a semiconductor die includes first and second toothed mold clamps, each having teeth, recesses located between the teeth, and an open cavity located in a center of the first mold clamp. The second mold clamp is in facing arrangement with the first mold clamp and the teeth in the first mold clamp mate with corresponding recesses in the second mold clamp and vice-versa. In an open position a lead frame can be inserted into one of the first or second mold clamps and in a closed position, the teeth and recesses of the first and second mold clamps bend leads of the lead frame into two spaced, planar rows. | 08-01-2013 |
20130210197 | LEADFRAME BASED MULTI TERMINAL IC PACKAGE - A semiconductor package comprises a die attach pad and a support member at least partially circumscribing it. Several sets of contact pads are attached to the support member. The support member is able to be etched away thereby electrically isolating the contact pads. A method for making a leadframe and subsequently a semiconductor package comprises partially etching desired features into a copper substrate, and then through etching the substrate to form the support member and several sets of contact pads. Die attach, wirebonding and molding follow. The support member is etched away, electrically isolating the contact pads and leaving a groove in the bottom of the package. The groove is able to be filled with epoxy or mold compound. | 08-15-2013 |
20130244381 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - A manufacturing yield of a semiconductor device including a power transistor is improved. When forming a tip portion LE | 09-19-2013 |
20130252382 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes providing an electrically conductive carrier and placing a semiconductor chip over the carrier. The method includes applying an electrically insulating layer over the carrier and the semiconductor chip. The electrically insulating layer has a first face facing the carrier and a second face opposite to the first face. The method includes selectively removing the electrically insulating layer and applying solder material where the electrically insulating layer is removed and on the second face of the electrically insulating layer. | 09-26-2013 |
20130280865 | QFN Package and Manufacturing Process Thereof - The present invention provides a Quad Flat Non-leaded (QPN) package, which comprises a chip, a lead frame, a plurality of composite bumps and an encapsulant. The chip has a plurality of pads, and the lead frame has a plurality of leads. Each of the plurality of composite bumps has a first conductive layer and a second conductive layer. The first conductive layer is electrically connected between one of the pads and the second conductive layer, and the second conductive layer is electrically connected between the first conductive layer and one of the leads. The encapsulant encapsulates the chip, the leads and the composite bumps. Thereby, a QFN package with composite bumps and a semi-cured encapsulant is forming between the spaces of leads of lead frame before chip bonded to the lead frame are provided. | 10-24-2013 |
20130295723 | Package 3D Interconnection and Method of Making Same - A method of manufacturing an integrated circuit (IC) package is provided. The method includes mounting a fast plurality of contact members on a surface of a package member, and coupling a second plurality of contact members located on a first surface of an interposer substrate to corresponding ones of the first plurality of contact members. The interposer substrate is configured such that a circuit member mounted to a second surface of the interposer substrate is electrically coupled to the first plurality of contact members. | 11-07-2013 |
20130295724 | Power Semiconductor Chip Package - A device includes a vertical power semiconductor chip having an epitaxial layer and a bulk semiconductor layer. A first contact pad is arranged on a first main face of the power semiconductor chip and a second contact pad is arranged on a second main face of the power semiconductor chip opposite to the first main face. The device further comprises an electrically conducting carrier attached to the second contact pad. | 11-07-2013 |
20130309816 | SEMICONDUCTOR ENCAPSULATION METHOD - A semiconductor encapsulation comprises a lead frame further comprising a chip carrier and a plurality of pins in adjacent to the chip carrier. A plurality of grooves opened from an upper surface of the chip carrier partially dividing the chip carrier into a plurality of chip mounting areas. A bottom portion of the grooves is removed for completely isolate each chip mounting area, wherein a width of the bottom portion of the grooves removed is smaller than a width of the grooves. In one embodiment, a groove is located between the chip carrier and the pins with a bottom portion of the groove removed for isolate the pins from the chip carrier, wherein a width of the bottom of the grooves removed is smaller than a width of the grooves. | 11-21-2013 |
20130323885 | METHOD OF MANUFACTURING HIGH-CAPACITY SEMICONDUCTOR PACKAGE - A method of manufacturing a high-capacity semiconductor package includes preparing a leadframe not comprising a chip mount area and comprising only a lead on a tape; attaching an interposer on a center area of the leadframe; stacking semiconductor chips stepwise on a first surface of the interposer; performing a first wire bonding process so as to connect the semiconductor chips, the lead, and the interposer; performing a first molding process so as to encapsulate a top surface of the leadframe, the semiconductor chips, and wires; detaching a tape from the leadframe and turning the leadframe on which the first molding process has been performed upside down; stacking semiconductor chips on a second surface of the interposer; performing a second wire bonding process so as to connect the semiconductor chips, the lead, and the interposer; and performing a second molding process so as to encapsulate a bottom surface of the leadframe, the semiconductor chips, and wires. | 12-05-2013 |
20130337613 | POWER MODULE PACKAGE AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein are a power module package and a method for manufacturing the same. The power module package includes first and second lead frames disposed to face each other; ceramic coating layers formed on a portion of a first surface of both or one of both of the first and second lead frames; and semiconductor devices mounted on second surfaces of the first and second lead frames. | 12-19-2013 |
20130344660 | HEATSINK ATTACHMENT MODULE - An assembly process for a heatsink attachment module for a chip packaging apparatus is provided and includes attaching a semiconductor chip to a substrate to form a module subassembly, placing a load frame and shim in a fixture, dispensing adhesive to the load frame and loadably placing the module subassembly chip face down in the fixture. | 12-26-2013 |
20140004662 | MICROELECTRONIC FLIP CHIP PACKAGES WITH SOLDER WETTING PADS AND ASSOCIATED METHODS OF MANUFACTURING | 01-02-2014 |
20140004663 | LEAD CARRIER WITH PRINT-FORMED PACKAGE COMPONENTS | 01-02-2014 |
20140024177 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device includes: at least one semiconductor element having electrode terminals; a metal plate supporting the semiconductor element; and a wiring board covering the semiconductor element and including a plurality of insulating layers and wiring layers alternately stacked and external connection terminals on a surface, the wiring layers being electrically connected to each other by vias. The electrode terminals and the external connection terminals are electrically connected via at least one of the wiring layers and the vias. At least one of the electrode terminals, the wiring layers, and the vias is electrically connected to the metal plate. | 01-23-2014 |
20140030853 | ELECTRICAL CONNECTIVITY FOR CIRCUIT APPLICATIONS - According to example configurations herein, a leadframe includes a first conductive strip, a second conductive strip, and a third conductive strip disposed substantially adjacent and substantially parallel to each other. A semiconductor chip substrate includes a first array of switch circuits disposed adjacent and parallel to a second array of switch circuits. Source nodes in switch circuits of the first array are disposed substantially adjacent and substantially parallel to source nodes in switch circuits of the second array. When the semiconductor chip and the leadframe device are combined to form a circuit package, a connectivity interface between the semiconductor chip and conductive strips in the circuit package couples each of the source nodes in switch circuits of the first array and each of the multiple source nodes in switch circuits of the second array to a common conductive strip in the leadframe device. | 01-30-2014 |
20140038363 | TSOP WITH IMPEDANCE CONTROL - A semiconductor device of an illustrative embodiment includes a die, a lead frame including a plurality of leads having substantial portions arranged in a lead plane and electrically connected to the die. Most preferably, the package includes at least a substantial portion of one conductive element arranged in a plane positioned adjacent the lead frame and substantially parallel to the lead plane, the conductive element being capacitively coupled to the leads such that the conductive element and at least one of the leads cooperatively define a controlled-impedance conduction path, and an encapsulant which encapsulates the leads and the conductive element. The leads and, desirably, the conductive element have respective connection regions which are not covered by the encapsulant. | 02-06-2014 |
20140080263 | Semiconductor Packaging Method Using Connecting Plate for Internal Connection - A semiconductor package with connecting plate for internal connection comprise: a plurality of chips each having a plurality of contact areas on a top surface; one or more connecting plates having a plurality of electrically isolated connecting plate portions each connecting a contact area of the semiconductor chips. The method of making the semiconductor package includes the steps of connecting one or more connecting plates to a plurality of semiconductor chips, applying a molding material to encapsulate the chips and the connecting plates, separating a plurality of connecting plate portions of the connecting plates by shallow cutting through or by grinding. | 03-20-2014 |
20140080264 | METHOD FOR FABRICATING LEADFRAME-BASED SEMICONDUCTOR PACKAGE - A semiconductor package and a method for fabricating the same are provided. A leadframe including a die pad and a plurality of peripheral leads is provided. A carrier, having a plurality of connecting pads formed thereon, is attached to the die pad, wherein a planar size of the carrier s greater than that of the die pad, allowing the connecting pads on the carrier to be exposed from the die pad. At least a semiconductor chip is attached to a side of an assembly including the die pad and the carrier, and is electrically connected to the connecting pads of the carrier and the leads via bonding wires. A package encapsulant encapsulates the semiconductor chip, the bonding wires, a part of the carrier and a part of the leadframe, allowing a bottom surface of the carrier and a part of the leads to be exposed from the package encapsulant. | 03-20-2014 |
20140094000 | SEMICONDUCTOR DEVICE - Provided is a semiconductor device with a semiconductor chip mounted on a small-sized package substrate that includes a slot, a large number of external connection terminals, and bonding fingers. The bonding fingers are connected to the external connection terminals. The bonding fingers constitute a bonding finger arrangement in a central section and end sections of a bonding finger area along each longer side of the slot. The arrangement includes a first bonding finger array, which is located at a close distance from each longer side of the slot, and a second array, which is located at a farther distance than the distance of the first bonding finger array from each longer side of the slot. The central section of the bonding finger area includes the second bonding finger array, and the end sections of the bonding finger area include the first bonding finger array. | 04-03-2014 |
20140106509 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME AND A MOUNTING STRUCTURE OF A SEMICONDUCTOR DEVICE - The semiconductor device includes a tab including a chip supporting surface, and a back surface opposite to the chip supporting surface; a plurality of suspension leads supporting the tab; a plurality of leads arranged between the suspension leads; a semiconductor chip mounted on the chip supporting surface of the tab, the semiconductor chip including a main surface, a plurality of pads formed on the main surface, and a rear surface opposite to the main surface; a seal portion sealing the semiconductor chip such that a part of each of the leads is exposed from the seal portion; and a Pb-free solder formed on the part of each of the leads. A part of the rear surface of the semiconductor chip is contacted with the seal portion. | 04-17-2014 |
20140120664 | LEAD FRAME WITH GROOVED LEAD FINGER - A lead finger of a lead frame has a number of channels or grooves in a portion of its top surface that provide a locking mechanism for securing a bond wire to the lead finger. The bond wire may be attached to the lead finger by stitch bonding. | 05-01-2014 |
20140127864 | METHOD OF FABRICATING A SEMICONDUCTOR PACKAGE - A method of fabricating a semiconductor package is provided, including providing an interposer having a plurality of conductive elements, disposing the interposer on a carrier having a plurality of recessed portions for the conductive elements to be received therein such that the interposer is coupled to the carrier, attaching the semiconductor element to the interposer, and removing the carrier. Coupling the interposer to the carrier prevents the conductive elements from displacement under pressure. Therefore, the conductive elements will not be in poor or no electrical contact with the interposer. | 05-08-2014 |
20140134806 | MANUFACTURING METHODS OF SEMICONDUCTOR SUBSTRATE, PACKAGE AND DEVICE - A manufacturing method of semiconductor substrate includes following steps: providing a base layer; forming a plurality of traces on the base layer; forming a plurality of studs correspondingly on the traces; forming a molding material layer on the base layer to encapsulate the traces and studs; forming a concave portion on the molding material layer; and, removing the base layer. | 05-15-2014 |
20140154843 | Method for Top-side Cooled Semiconductor Package with Stacked Interconnection Plates - A top-side cooled semiconductor package with stacked interconnection plate is disclosed. The semiconductor package includes a circuit substrate with terminal leads, a semiconductor die atop the circuit substrate, a low thermal resistance intimate interconnection plate for bonding and interconnecting a top contact area of the semiconductor die with the circuit substrate, a low thermal resistance stacked interconnection plate atop the intimate interconnection plate for top-side cooling, a molding encapsulant for encapsulating the package except for exposing a top surface of the stacked interconnection plate to maintain effective top-side cooling. The top portion of the stacked interconnection plate can include a peripheral overhang above the intimate interconnection plate. The peripheral overhang allows for a maximized exposed top surface area for heat dissipation independent of otherwise areal constraints applicable to the intimate interconnection plate. The stacked interconnection plate can be partially etched or three dimensionally formed to create the peripheral overhang. | 06-05-2014 |
20140162409 | METHOD FOR FABRICATING QUAD FLAT NON-LEADED SEMICONDUCTOR PACKAGE - A Quad Flat No-Lead (QFN) semiconductor package includes a die pad; I/O connections disposed at the periphery of the die pad; a chip mounted on the die pad; bonding wires; an encapsulant for encapsulating the die pad, the I/O connections, the chip and the bonding wires while exposing the bottom surfaces of the die pad and the I/O connections; a surface layer formed on the bottoms surfaces of the die pad and the I/O connections; a dielectric layer formed on the bottom surfaces of the encapsulant and the surface layer and having openings for exposing the surface layer. The surface layer has good bonding with the dielectric layer that helps to prevent solder material in a reflow process from permeating into the die pad and prevent solder extrusion on the interface of the I/O connections and the dielectric layer, thereby increasing product yield. | 06-12-2014 |
20140162410 | ELECTRICAL CONNECTIVITY FOR CIRCUIT APPLICATIONS - According to example configurations herein, a leadframe includes a first conductive strip, a second conductive strip, and a third conductive strip disposed substantially adjacent and substantially parallel to each other. A semiconductor chip substrate includes a first array of switch circuits disposed adjacent and parallel to a second array of switch circuits. Source nodes in switch circuits of the first array are disposed substantially adjacent and substantially parallel to source nodes in switch circuits of the second array. When the semiconductor chip and the leadframe device are combined to form a circuit package, a connectivity interface between the semiconductor chip and conductive strips in the circuit package couples each of the source nodes in switch circuits of the first array and each of the multiple source nodes in switch circuits of the second array to a common conductive strip in the leadframe device. | 06-12-2014 |
20140179067 | FABRICATION METHOD OF SEMICONDUCTOR PACKAGE - A semiconductor package and a fabrication method thereof are disclosed. The fabrication method includes the steps of providing a semiconductor chip having an active surface and a non-active surface opposing to the active surface, roughening a peripheral portion of the non-active surface so as to divide the non-active surface into the peripheral portion formed with a roughened structure and a non-roughened central portion, mounting the semiconductor chip on a chip carrier via a plurality of solder bumps formed on the active surface, forming an encapsulant on the chip carrier to encapsulate the semiconductor chip. The roughened structure formed on the peripheral portion of the non-active surface of the semiconductor chip can reinforce the bonding between the semiconductor chip and the encapsulant, and the non-roughened central portion of the non-active surface of the semiconductor chip can maintain the structural strength of the semiconductor chip. | 06-26-2014 |
20140206151 | Method for Producing a Semiconductor Module Arrangement - A method for producing a semiconductor module arrangement includes providing a semiconductor module and a printed circuit board. The semiconductor module has a circuit mount populated with a semiconductor chip, an adjustment device in a first relative position with respect to the circuit mount, and a plurality of electrical connections each of which has a free end. Each of the connections is routed through a different passage opening in the adjustment device. The printed circuit board is pushed onto the electrical connections by each of the free ends being inserted into a different contact opening in the printed circuit board. The adjustment device is moved to a second relative position, which is different from the first relative position, with respect to the circuit mount. | 07-24-2014 |
20140220742 | METHOD FOR FORMING A THIN SEMICONDUCTOR DEVICE - A method for forming a thin semiconductor device is disclosed. In one embodiment, a lead frame is provided over a carrier. At least one semiconductor chip is provided on the lead frame and the at least one semiconductor chip is enclosed with an encapsulating material. The thickness of the at least one semiconductor chip and the encapsulating material are reduced. At least one through connection is formed in the encapsulating material and at least one electrical contact element is formed over the at least one semiconductor chip and the at least one through connection. | 08-07-2014 |
20140220743 | POWER MODULE PACKAGE AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein is a power module package including an external connection terminal, a substrate in which a fastening unit allowing one end of the external connection terminal to be insertedly fastened thereinto is formed to penetrate in a thickness direction thereof, and a semiconductor chip mounted on one surface of the substrate. | 08-07-2014 |
20140273352 | SEMICONDUCTOR DEVICE - A method includes forming a packaged integrated circuit that includes forming a lead frame by separating an outer portion of the metal structure into a plurality of leads by stamping. The plurality of leads have sides with a first concavity. The lead frame is further formed by performing an etch on the sides of the plurality of leads to achieve a second concavity on the sides of leads. The second concavity is greater than the first concavity. A semiconductor die is attached to a center portion of the metal structure. Electrical attachments are made between the die and the leads. | 09-18-2014 |
20140287557 | SEMICONDUCTOR DEVICE - In a semiconductor device including a semiconductor element and a wiring substrate on which the semiconductor element is mounted. The wiring substrate includes an insulating substrate and conductive wiring formed in the insulating substrate and electrically connected to the semiconductor element. The conductive wiring includes an underlying layer formed on the insulating substrate, a main conductive layer formed on the underlying layer, and an electrode layer covering side surfaces of the underlying layer and side surfaces and an upper surface of the main conductive layer. The underlying layer includes an adhesion layer being formed in contact with the insulating substrate and containing an alloy of Ti. | 09-25-2014 |
20140287558 | PACKAGE INCLUDING AN INTERPOSER HAVING AT LEAST ONE TOPOLOGICAL FEATURE - Embodiments include but are not limited to apparatuses and systems including semiconductor packages, e.g. memory packages, having an interposer including at least one topological feature, such as a depression in a surface of the interposer, a die coupled to the surface of the interposer, and an encapsulant material formed over the die and the interposer, and disposed in the at least one depression to resist movement of the encapsulant material relative to the interposer. Other embodiments may be described and claimed. | 09-25-2014 |
20140329360 | METHOD OF MANUFACTURING LEAD FRAME - There is provided a method of manufacturing a lead frame, the method including: preparing a lead frame raw material; forming openings in the lead frame raw material so that the lead frame material includes: a die pad; a die pad supporting portion supporting the die pad; a rail portion supporting the die pad supporting portion; a lead supporting portion having both ends fixed to the die pad supporting portion; and a plurality of leads having a first end connected to the rail portion and a second end connected to the lead supporting portion; plating the lead frame raw material having the openings with a plating layer; and removing the lead supporting portion. | 11-06-2014 |
20140329361 | Method for Mounting a Semiconductor Chip on a Carrier - A method includes providing a semiconductor chip having a first main surface and a layer of solder material deposited on the first main surface, wherein the layer of solder material has a roughness of at least 1 μm. The semiconductor chip is placed on a carrier with the first main surface of the semiconductor chip facing the carrier. The semiconductor chip is pressed on the carrier with a pressure of at least 1 Newton per mm | 11-06-2014 |
20140335660 | BONDING STRUCTURE AND METHOD - A bonding structure and a method for bonding components, wherein the bonding structure includes a nanoparticle preform. In accordance with embodiments, the nanoparticle preform is placed on a substrate and a workpiece is placed on the nanoparticle preform. | 11-13-2014 |
20140349447 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - To stably remove a resin body formed in a supply route of a resin in a sealing step. A leadframe has, in a sub-runner portion thereof, a sub-through-hole. The sub-through-hole has, along a first direction along which the sub-runner portion extends, a first portion located on the side of a main-runner portion and a second portion located on the side of a gate portion relative to the first portion. In a plan view, an opening width of the sub-through-hole in the first direction is greater than that of the sub-through-hole in a second direction perpendicular to the first direction. In a plan view, an opening width of the sub-through-hole in the second direction gradually decreases from the first portion to an end portion of the second portion on the side of the gate portion. | 11-27-2014 |
20140363926 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device permitting the reduction of cost is disclosed. In a semiconductor package wherein electrode pads of a semiconductor chip and corresponding inner leads are electrically coupled with each other through a plurality of bonding wires, sensing wires (second and fourth bonding wires) are made thinner than other bonding wires (first and third bonding wires) coupled to inner leads same as those with the sensing wires coupled thereto, thereby reducing the cost of gold wires to attain the reduction in cost of the semiconductor package. | 12-11-2014 |
20140370661 | Dual Lead Frame Semiconductor Package and Method of Manufacture - A semiconductor package and a method for making the same are provided. In the method, a clip is used to conduct a lead frame and at least one chip. The clip has at least one second connection segment, at least one third connection segment, and at least one intermediate connection segment. The second connection segment is electrically connected to a second conduction region of the chip and a second pin of the lead frame respectively, and the third connection segment is electrically connected to a third conduction region of the chip and a third pin of the lead frame respectively. The intermediate connection segment connects the at least one second connection segment and the at least one third connection segment, and is removed in a subsequent process. Thereby, the present invention does not need to use any gold wire, which effectively saves the material cost and the processing time. | 12-18-2014 |
20140377912 | MICROELECTRONIC FLIP CHIP PACKAGES WITH SOLDER WETTING PADS AND ASSOCIATED METHODS OF MANUFACTURING - Processes of assembling microelectronic packages with lead frames and/or other suitable substrates are described herein. In one embodiment, a method for fabricating a semiconductor assembly includes forming an attachment area and a non-attachment area on a lead finger of a lead frame. The attachment area is more wettable to the solder ball than the non-attachment area during reflow. The method also includes contacting a solder ball carried by a semiconductor die with the attachment area of the lead finger, reflowing the solder ball while the solder ball is in contact with the attachment area of the lead finger, and controllably collapsing the solder ball to establish an electrical connection between the semiconductor die and the lead finger of the lead frame. | 12-25-2014 |
20150011053 | SEMICONDUCTOR DEVICE AND METHOD OF ASSEMBLING SAME - A semiconductor device has a die support and external leads formed integrally from a single sheet of electrically conductive material. A die mounting substrate is mounted on the die support, with bonding pads coupled to respective external connection pads on an external connector side of the substrate. A die is attached to the die mounting substrate with die connection pads. Bond wires selectively electrically couple the die connection pads to the external leads and the bonding pads and electrically conductive external protrusions are mounted to the external connection pads. An encapsulant covers the die and bond wires. The external protrusions are located at a central region of a surface mounting side of the package and the external leads project outwardly from locations near the die support towards peripheral edges of the package. | 01-08-2015 |
20150037938 | PACKAGING A SEMICONDUCTOR DEVICE HAVING WIRES WITH POLYMERIZED INSULATOR SKIN - A chip is attached to a substrate with wires spanning from the chip to the substrate is loaded in a heated cavity of a mold. The wire surfaces are coated with an adsorbed layer of molecules of a heterocyclic compound. A pressure chamber of the mold is loaded with a solid pellet of a packaging material including a polymerizable resin. The chamber is connected to the cavity. The vapor of resin molecules is allowed to spread from the chamber to the assembly inside the cavity during the time interval needed to heat the solid pellet for rendering it semi-liquid and to pressurize it through runners before filling the mold cavity, wherein the resin molecules arriving in the cavity are cross-linked by the adsorbed heterocyclic compound molecules into an electrically insulating at least one monolayer of polymeric structures on the wire surfaces. | 02-05-2015 |
20150064849 | Lead Frame Strips with Electrical Isolation of Die Paddles - A lead frame strip includes connected unit lead frames each having a die paddle, a tie bar directly connecting the die paddle to a periphery of the unit lead frame, leads directly connected to the periphery of the unit lead frame and projecting toward the die paddle, and an opening in the periphery adjacent the tie bar. The openings in the periphery of the unit lead frames are spanned with an electrically insulating material that connects the tie bar of each unit lead frame to the periphery of the unit lead frame. The direct connections between the tie bars and the periphery of the unit lead frames are severed prior to subsequent processing, so that the tie bars remain connected to the periphery of the unit lead frames by the electrically insulating material and the die paddles are electrically disconnected from the periphery of the unit lead frames. | 03-05-2015 |
20150087114 | METHOD FOR PACKAGING A POWER DEVICE WITH BOTTOM SOURCE ELECTRODE - A power semiconductor package has an ultra thin chip with front side molding to reduce substrate resistance; a lead frame unit with grooves located on both side leads provides precise positioning for connecting numerous bridge-shaped metal clips to the front side of the side leads. The bridge-shaped metal clips are provided with bridge structure and half or fully etched through holes for relieving superfluous solder during manufacturing process. | 03-26-2015 |
20150104908 | High-Voltage Packaged Device - Packaged devices and methods for making and using the same are described. The packaged devices contain one or more circuit components, such as a die, that is attached to a leadframe having a first lead, a second lead, and a third lead (although, higher lead counts may be employed in some implementations). A portion of the circuit component and the leadframe are encapsulated in a molded housing so that the first lead is exposed from a first end of the housing while the second and third leads are exposed from a second end of the housing. In some configurations, the packaged device does not contain a fourth lead that is both electrically connected to the first lead and that is exposed from the second end of the molded housing. In other configurations, an area extending from the second lead to the third lead in the molded housing comprises an insulating material having a substantially uniform conductivity. Thus, the packaged devices have relatively large creepage and clearance distances between the first lead and the second and third leads. As a result, the packaged devices are able to operate at relatively high operating voltages without experiencing voltage breakdown. Other embodiments are described. | 04-16-2015 |
20150111345 | ETCH-BACK TYPE SEMICONDUCTOR PACKAGE, SUBSTRATE AND MANUFACTURING METHOD THEREOF - A semiconductor package, a substrate and a manufacturing method thereof are provided. The substrate comprises a conductive carrier, a first metal layer and a second metal layer. The first metal layer is formed on the conductive carrier and comprises an lead pad having an upper surface. The second metal layer is formed on the first metal layer and comprises a bond pad. The bond pad overlaps and is in contact with the upper surface of the first metal layer. The upper surface of the lead pad is partially exposed. A part of the bond pad overhang outward from the edge of the lead pad. | 04-23-2015 |
20150294870 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - In QFN packages for vehicles which are required to have high reliability, the side surface of leads is mostly covered with lead-to-lead resin protrusions, which prevent smooth formation of solder fillets during reflow mounting. When the lead-to-lead protrusions are mechanically removed using a punching die, there is a high possibility of causing cracks of the main body of the package or terminal deformation. When a spacing is provided between the punching die and the main body of the package in order to avoid such damages, a resin residue is produced to hinder complete removal of this lead-to-lead resin protrusion. The present invention provides a method for manufacturing semiconductor device of a QFN type package using multiple leadframes having a dam bar for tying external end portions of a plurality of leads. This method includes a step of removing a sealing resin filled between the circumference of a mold cavity and the dam bar by using laser and then carrying out surface treatment, for example, solder plating. | 10-15-2015 |
20150318189 | POWER SEMICONDUCTOR MODULE AND METHOD OF MANUFACTURING THE SAME - A power semiconductor module has a first frame portion, a power semiconductor element, a second frame portion, a control integrated circuit, a wire, and an insulator portion. The power semiconductor element is mounted on a first surface of the first frame portion. The control integrated circuit is mounted on a third surface of the second frame portion for controlling the power semiconductor element. A wire has one end connected to the power semiconductor element and the other end connected to the control integrated circuit. The first surface of the first frame portion and the third surface of the second frame portion are located at the same height in a direction vertical to the first surface of the first frame portion. | 11-05-2015 |
20150325505 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device includes a functional block unit, external terminals and, and an external resin sealing body. The functional block unit includes an internal resin sealing body having an edge and an opposite edgeb. The edge side of the internal resin sealing body covers a first end of an internal terminal, but does not cover a second end of the internal terminal. The edge side of the internal resin sealing body covers a first end of an internal terminal, but does not cover a second end of the internal terminal. The external resin sealing body covers the root portion and a portion of the middle portion of the external terminal, but does not cover the terminal portion of the external terminal. The functional block unit and the external terminals and are integrally connected together and sealed by the external resin sealing body. | 11-12-2015 |
20150348881 | Solder Coated Clip And Integrated Circuit Packaging Method - A method of making a QFD package including providing a clip and coating at least a first end portion of the clip with solder paste. | 12-03-2015 |
20150371930 | Integrated Circuit Packaging Method Using Pre-Applied Attachment Medium - A method of making an IC package having a die and a substrate that are to be attached at an attachment station including providing the die and substrate and, at a location remote from the attachment station, coating at least one of the die and a die attachment portion of the substrate with attachment medium. | 12-24-2015 |
20160005627 | ULTRA-THIN POWER TRANSISTOR AND SYNCHRONOUS BUCK CONVERTER HAVING CUSTOMIZED FOOTPRINT - A power field-effect transistor package is fabricated. A leadframe including a flat plate and a coplanar flat strip spaced from the plate is provided. The plate has a first thickness and the strip has a second thickness smaller than the first thickness. A field-effect power transistor chip having a third thickness is provided. A first and second contact pad on one chip side and a third contact pad on the opposite chip side are created. The first pad is attached to the plate and the second pad to the strip. Terminals are concurrently attached to the plate and the strip so that the terminals are coplanar with the third contact pad. The thickness difference between plate and strip and spaces between chip and terminals is filled with an encapsulation compound having a surface coplanar with the plate and the opposite surface coplanar with the third pad and terminals. The chip, leadframe and terminals are integrated into a package having a thickness equal to the sum of the first and third thicknesses. | 01-07-2016 |
20160020189 | FLEXIBLE PACKAGED INTEGRATED CIRCUIT - A method for assembling a thin, flexible integrated circuit (IC) device includes using an etched contoured lead frame having raised features. A die is attached to the lead frame to form a sub-assembly that is then selectively coated with a low-modulus gel. The sub-assembly is covered with a temporary mask for sputter deposition of a metallic seed layer for interconnects between the die and the raised features. The mask is removed and more robust metal interconnects are grown over the seed paths using electroplating. The sub-assembly top is then coated with another gel layer. The bottom of the sub-assembly and of the contoured lead frame is removed, which transforms the raised features into leads. The newly exposed bottom of the sub-assembly is covered with a third layer of gel to complete assembly of the packaged device. | 01-21-2016 |
20160035594 | ELECTRONIC COMPONENT WITH A LEADFRAME - The invention relates to an electronic component including a leadframe, composed of a platform, and possibly at least one electrical connecting piece, wherein at least one electronic member is located on the platform, and including a housing that encloses the electronic member and the platform, wherein at least one support region is provided to support the platform during the fabrication process for the housing, and wherein at least a section of the at least one support region projects from the housing. | 02-04-2016 |
20160064253 | METHOD FOR MANUFACTURING A SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device, which improves the mounting reliability of the semiconductor device. A plurality of leads are sandwiched and cut between an upper mold and a lower mold. There are gaps between a post (guide rail) and a bush (rail holder) which control sliding movement of the upper mold. After the leads are sandwiched between the upper mold and the lower mold and before they are cut, the positional relation between the lower mold supporting the leads and the upper mold in contact with the lower surfaces of the leads is adjusted. | 03-03-2016 |
20160064255 | METHOD FOR MANUFACTURING A CHIP ARRANGEMENT - A method for manufacturing a chip arrangement, including disposing a chip over a carrier, wherein the bottom side of the chip is electrically connected to the first carrier side via one or more contact pads on the chip bottom side, disposing a first encapsulation material over the first carrier side, wherein the first encapsulation material at least partially surrounds the chip, and disposing a second encapsulation material over a second carrier side, wherein the second encapsulation material is in direct contact with the second carrier side. | 03-03-2016 |
20160064353 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - There is provided a semiconductor device having a converter circuit, a brake circuit and an inverter circuit and manufacturable by a simplified manufacturing process. The semiconductor device has a plurality of die pads, IGBTs, diodes, freewheel diodes, an HVIC and LVICs mounted on the plurality of die pads, a plurality of leads, and an encapsulation resin body that covers these component parts. In a manufacturing process, a single-plate lead frame having the above-described plurality of die pads and leads connected together can be prepared. The semiconductor device may be manufactured by using this single-plate lead frame. | 03-03-2016 |
20160079091 | METHOD FOR PRODUCING SUBSTRATE FOR MOUNTING SEMICONDUCTOR ELEMENT - [Object] To provide a substrate for semiconductor element mount that makes it possible to stably produce, in a highly mass-productive manner, surface-mount type semiconductor devices. | 03-17-2016 |
20160086875 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a semiconductor device includes preparing a lead frame provided with a die pad having an upper surface and a plurality of leads being arranged so as to be aligned on a side of the die pad and each including a wire joint part at a distal end on the side of the die pad, after the preparing the lead frame, mounting a semiconductor chip having a main surface and a plurality of electrode pads formed on the main surface, on the upper surface of the die pad, and after the mounting the semiconductor chip, electrically connecting a first electrode pad among the plurality of electrode pads of the semiconductor chip and a first lead among the plurality of leads to each other via a first wire. | 03-24-2016 |
20160141256 | METHOD FOR MANUFACTURING A SEMICONDUCTOR DEVICE, AND SEMICONDUCTOR DEVICE - According to various embodiments, a method for manufacturing a semiconductor device may include providing a semiconductor workpiece including a device region at a first side of the semiconductor workpiece, wherein a mechanical stability of the semiconductor workpiece is insufficient to resist at least one back end process without damage, and depositing at least one conductive layer over a second side of the semiconductor workpiece opposite the first side of the semiconductor workpiece, wherein the at least one conductive layer increases the mechanical stability of the semiconductor workpiece to be sufficient to resist the at least one back end process without damage. | 05-19-2016 |
20160155674 | Fabricating a Semiconductor Package with Conductive Carrier | 06-02-2016 |
20160155688 | METHOD FOR PACKAGING A POWER DEVICE WITH BOTTOM SOURCE ELECTRODE | 06-02-2016 |
20160189978 | LEAD FRAME, METHOD FOR MANUFACTURING LEAD FRAME, SEMICONDUCTOR DEVICE, AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A lead frame includes a die pad and a plurality of lead portions each including an internal terminal and an external terminal. The external terminals of the plurality of lead portions are arranged in an alternately staggered form such that the respective external terminals of a pair of lead portions adjacent to each other are alternatively located on an inside or an outside. A lead portion has an inside region located on the inside of a first external terminal, an outside region located on the outside of the first external terminal, and an external terminal region having the first external terminal. The inside region and the outside region are each formed thin by means of half etching. A maximum thickness of the outside region is larger than a maximum thickness of the inside region. | 06-30-2016 |
20160190085 | MANUFACTURING METHOD OF SEMICONDUCTOR MODULE - A manufacturing method of a semiconductor module, includes: forming a Ni plating layer on a surface of a first lead frame; forming a Au plating layer on a surface of the Ni plating layer; manufacturing an intermediate body that a semiconductor element is soldered to the first lead frame; forming a primer layer by applying a primer to a surface of the intermediate body and then drying the primer; molding a sealing resin body on a surface of the primer layer; and performing heat treatment so that Ni included in the Ni plating layer is dispersed in the Au plating layer. | 06-30-2016 |
20160190115 | Method of Manufacturing Semiconductor Device - Reliability of a semiconductor device is improved. A method of manufacturing the semiconductor device includes a step of cutting a tab suspension lead from a tab suspension lead support portion connected to an outer frame of a lead frame by inserting a jig between two adjacent sealing bodies, the jig having almost the same width as a gap between the adjacent sealing bodies. And, a notch is formed in the tab suspension lead, and the notch is arranged at a position intersecting a side of a sealing body, so that the tab suspension lead is cut at a part of the notch in the step of cutting the tab suspension lead. | 06-30-2016 |
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20190148173 | RESIN ENCAPSULATING MOLD AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE | 05-16-2019 |
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