Patent application number | Description | Published |
20080283969 | Seal Ring Structure with Improved Cracking Protection - An integrated circuit structure includes a semiconductor chip comprising a plurality of dielectric layers, wherein the plurality of dielectric layers includes a top dielectric layer; and a first seal ring adjacent edges of the semiconductor chip. The integrated circuit structure further includes a first passivation layer over a top dielectric layer; and a trench extending from a top surface of the first passivation layer into the first passivation layer, wherein the trench substantially forms a ring. Each side of the ring is adjacent to a respective edge of the semiconductor chip. At least one of the plurality of vias has a width greater than about 70 percent of a width of a respective overlying metal line in the plurality of metal lines. | 11-20-2008 |
20090011539 | Flexible Structures for Interconnect Reliability Test - A method for forming an integrated circuit structure includes forming a test wafer. The step of forming the test wafer includes providing a first semiconductor substrate; and forming a first plurality of unit blocks over the first semiconductor substrate. Each of the first plurality of unit blocks includes a plurality of connection block cells arranged as an array. Each of the connection block cells includes two connection blocks, and a metal line connecting the two connection blocks. The method further includes forming a plurality of unit block boundary lines separating the first plurality of unit blocks from each other; and forming a first plurality of metal lines connecting a portion of the first plurality of unit blocks. | 01-08-2009 |
20090091032 | Bond Pad Design for Fine Pitch Wire Bonding - A bonding pad design is disclosed that includes one or more pad groups on a semiconductor device. Each pad group is made up of two or more bonding pads that have an alternating orientation, such that adjacent bonding pads have their bond ball on opposite sides in relation to the adjacent bonding pad. | 04-09-2009 |
20090115024 | Seal ring structure with improved cracking protection and reduced problems - An integrated circuit structure includes a lower dielectric layer; an upper dielectric layer over the lower dielectric layer; and a seal ring. The seal ring includes an upper metal line in the upper dielectric layer; a continuous via bar underlying and abutting the upper metal line, wherein the continuous via bar has a width greater than about 70 percent of a width of the upper metal line; a lower metal line in the lower dielectric layer; and a via bar underlying and abutting the lower metal line. The via bar has a width substantially less than a half of a width of the lower metal line. | 05-07-2009 |
20090283911 | Backend Interconnect Scheme with Middle Dielectric Layer Having Improved Strength - An integrated circuit structure includes a first, a second and a third metallization layer. The first metallization layer includes a first dielectric layer having a first k value; and first metal lines in the first dielectric layer. The second metallization layer is over the first metallization layer, and includes a second dielectric layer having a second k value greater than the first k value; and second metal lines in the second dielectric layer. The third metallization layer is over the second metallization layer, and includes a third dielectric layer having a third k value; and third metal lines in the third dielectric layer. The integrated circuit structure further includes a bottom passivation layer over the third metallization layer. | 11-19-2009 |
20090321890 | Protective Seal Ring for Preventing Die-Saw Induced Stress - A semiconductor chip includes a semiconductor substrate; a plurality of low-k dielectric layers over the semiconductor substrate; a first passivation layer over the plurality of low-k dielectric layers; and a second passivation layer over the first passivation layer. A first seal ring is adjacent to an edge of the semiconductor chip, wherein the first seal ring has an upper surface substantially level to a bottom surface of the first passivation layer. A second seal ring is adjacent to the first seal ring and on an inner side of the semiconductor chip than the first seal ring. The second seal ring includes a pad ring in the first passivation layer and the second passivation layer. A trench ring includes at least a portion directly over the first seal ring. The trench ring extends from a top surface of the second passivation layer down to at least an interface between the first passivation layer and the second passivation layer. | 12-31-2009 |
20100123219 | Heat Spreader Structures in Scribe Lines - An integrated circuit structure includes a first chip including a first edge; and a second chip having a second edge facing the first edge. A scribe line is between and adjoining the first edge and the second edge. A heat spreader includes a portion in the scribe line, wherein the heat spreader includes a plurality of vias and a plurality of metal lines. The portion of the heat spreader in the scribe line has a second length at least close to, or greater than, a first length of the first edge. | 05-20-2010 |
20100123246 | Double Solid Metal Pad with Reduced Area - An integrated circuit structure includes a bond pad; an Mtop pad located directly underlying the bond pad; an Mtop-1 pad having at least a portion directly underlying the Mtop pad, wherein at least one of the Mtop pad and the Mtop-1 pad has a horizontal dimension smaller than a horizontal dimension of the bond pad; a plurality of vias interconnecting the Mtop pad and the Mtop-1 pad; and a bond ball on the bond pad. Each of the Mtop pad and the Mtop-1 pad has positive enclosures to the bond ball in all horizontal directions. | 05-20-2010 |
20100164521 | Parametric Testline with Increased Test Pattern Areas - An integrated circuit parametric testline providing increased test pattern areas is disclosed. The testline comprises a dielectric layer over a substrate, a plurality of probe pads over the dielectric layer, and a first device under test (DUT) formed in the testline in a space underlying the probe pads. The testline may also include a second DUT, which is formed in a space underlying the probe pads overlying the first DUT in an overlaying configuration. The testline may further include a polygon shaped probe pad structure providing an increased test pattern area between adjacent probe pads. | 07-01-2010 |
20100187687 | Underbump Metallization Structure - A system and method for forming an underbump metallization (UBM) is presented. A preferred embodiment includes a raised UBM which extends through a passivation layer so as to make contact with a contact pad while retaining enough of the passivation layer between the contact pad and the UBM to adequately handle the peeling and shear stress that results from CTE mismatch and subsequent thermal processing. The UBM contact is preferably formed in either an octagonal ring shape or an array of contacts. | 07-29-2010 |
20100207251 | Scribe Line Metal Structure - A system and method for preventing defaults during singulation is presented. An embodiment comprises a dummy metal structure located in the scribe region. The dummy metal structure comprises a series of alternating dummy lines that are connected through dummy vias. The dummy lines are offset from dummy lines in adjacent metal layers. Additionally, the dummy lines and dummy vias in the upper layers of the scribe line may be formed with larger dimensions than the dummy lines and dummy vias located in the lower layers. | 08-19-2010 |
20100283148 | Bump Pad Structure - An embodiment is a bump bond pad structure that comprises a substrate comprising a top layer, a reinforcement pad disposed on the top layer, an intermediate layer above the top layer, an intermediate connection pad disposed on the intermediate layer, an outer layer above the intermediate layer, and an under bump metal (UBM) connected to the intermediate connection pad through an opening in the outer layer. Further embodiments may comprise a via mechanically coupling the intermediate connection pad to the reinforcement pad. The via may comprise a feature selected from the group consisting of a solid via, a substantially ring-shaped via, or a five by five array of vias. Yet, a further embodiment may comprise a secondary reinforcement pad, and a second via mechanically coupling the reinforcement pad to the secondary reinforcement pad. | 11-11-2010 |
20110031618 | Bond Pad Design for Reducing the Effect of Package Stress - An integrated circuit structure includes a semiconductor substrate, and an active device formed at a front surface of the semiconductor substrate. A bond pad is over the front surface of the semiconductor substrate. The bond pad has a first dimension in a first direction parallel to the front surface of the semiconductor substrate. A bump ball is over the bond pad, wherein the bump ball has a diameter in the first direction, and wherein an enclosure of the first dimension and the diameter is greater than about −1 μm. | 02-10-2011 |
20110127648 | Heat Spreader Structures in Scribe Lines - An integrated circuit structure includes a first chip including a first edge; and a second chip having a second edge facing the first edge. A scribe line is between and adjoining the first edge and the second edge. A heat spreader includes a portion in the scribe line, wherein the heat spreader includes a plurality of vias and a plurality of metal lines. The portion of the heat spreader in the scribe line has a second length at least close to, or greater than, a first length of the first edge. | 06-02-2011 |
20120018875 | Reducing Delamination Between an Underfill and a Buffer layer in a Bond Structure - A die includes a metal pad, a passivation layer, and a patterned buffer layer over the passivation layer. The patterned buffer layer includes a plurality of discrete portions separated from each other. An under-bump-metallurgy (UBM) is formed in an opening in the patterned buffer layer and an opening in the passivation layer. A metal bump is formed over and electrically coupled to the UBM. | 01-26-2012 |
20120018877 | Package-on-Package Structures with Reduced Bump Bridging - A device includes a package substrate including a first non-reflowable metal bump extending over a top surface of the package substrate; a die over and bonded to the package substrate; and a package component over the die and bonded to the package substrate. The package component includes a second non-reflowable metal bump extending below a bottom surface of the package component. The package component is selected from the group consisting essentially of a device die, an additional package substrate, and combinations thereof. A solder bump bonds the first non-reflowable metal bump to the second non-reflowable metal bump. | 01-26-2012 |
20120319251 | Solder Ball Protection Structure with Thick Polymer Layer - An integrated circuit structure includes a substrate and a metal pad over the substrate. A post-passivation interconnect (PPI) line is connected to the metal pad, wherein the PPI line includes at least a portion over the metal pad. A PPI pad is connected to the PPI line. A polymer layer is over the PPI line and the PPI pad, wherein the polymer layer has a thickness greater than about 30 μm. An under-bump metallurgy (UBM) extends into an opening in the polymer layer and electrically connected to the PPI pad. | 12-20-2012 |
20130009319 | Apparatus and Methods for Forming Through Vias - Methods and apparatus for forming through vias in an integrated circuit package are disclosed. An apparatus is disclosed, having a substrate having one or more bond pad terminals for receiving electrical connections on at least one surface; an encapsulation layer covering the at least one surface of the substrate and having a first thickness; a plurality of through vias extending through the encapsulation layer and positioned in correspondence with at least one of the one or more bond pad terminals; conductor material disposed within the plurality of through vias to form electrical connectors within the plurality of through vias; and at least one external terminal disposed on a surface of the encapsulation layer, electrically coupled to one of the one or more bond pad terminals by an electrical connector in at least one of the plurality of through vias. Package arrangements and methods for the through vias are disclosed. | 01-10-2013 |
20130093084 | Wafer-Level Chip Scale Package with Re-Workable Underfill - A package includes a printed circuit board (PCB), and a die bonded to the PCB through solder balls. A re-workable underfill is dispensed in a region between the PCB and the die. | 04-18-2013 |
20130181347 | Bump Pad Structure - An embodiment is a bump bond pad structure that comprises a substrate comprising a top layer, a reinforcement pad disposed on the top layer, an intermediate layer above the top layer, an intermediate connection pad disposed on the intermediate layer, an outer layer above the intermediate layer, and an under bump metal (UBM) connected to the intermediate connection pad through an opening in the outer layer. Further embodiments may comprise a via mechanically coupling the intermediate connection pad to the reinforcement pad. The via may comprise a feature selected from the group consisting of a solid via, a substantially ring-shaped via, or a five by five array of vias. Yet, a further embodiment may comprise a secondary reinforcement pad, and a second via mechanically coupling the reinforcement pad to the secondary reinforcement pad. | 07-18-2013 |
20130228932 | Package on Package Structure - A package on packaging structure comprising a first package and a second package provides for improved thermal conduction and mechanical strength by the introduction of a thermally conductive substrate attached to the second package. The first package has a first substrate and a first integrated circuit. The second package has a second substrate containing through vias that has a first coefficient of thermal expansion. The second package also has a second integrated circuit having a second coefficient of thermal expansion located on the second substrate. The second coefficient of thermal expansion deviates from the first coefficient of thermal expansion by less than about 10 or less than about 5 parts-per-million per degree Celsius. A first set of conductive elements couples the first substrate and the second substrate. A second set of conductive elements couples the second substrate and the second integrated circuit. | 09-05-2013 |
20130241683 | Inductor for Post Passivation Interconnect - An inductor device and method of forming the inductor device are provided. In some embodiments the inductor device includes a post passivation interconnect (PPI) layer disposed and an under bump metallization (UBM) layer, each disposed over a substrate. The PPI layer forms a coil and dummy pads. The dummy pads are disposed around a substantial portion of the coil to shield the coil from electromagnetic interference. A first portion of the UBM layer is electrically coupled to the coil and configured to interface with an electrical coupling member. | 09-19-2013 |
20130273698 | Methods for Forming Through Vias - Methods for forming through vias in an integrated circuit package are disclosed. A substrate having a first surface is covered with an encapsulation layer of uncured material; the method includes inserting an upper mold tool having a first plurality of pillars into the encapsulation layer to imprint through vias extending to the first surface of the substrate; curing the encapsulation layer and the through vias; removing the upper mold tool from the encapsulation layer; and disposing conductor material within the through vias to make electrical connectors within the through vias. In additional methods, a method for forming an encapsulation layer using an upper and lower mold tool to form through vias and a mold cavity is disclosed. | 10-17-2013 |
20130277838 | Methods and Apparatus for Solder Connections - Methods and apparatus for solder connections. An apparatus includes a substrate having a conductive terminal on a surface; a passivation layer overlying the surface of the substrate and the conductive terminal; an opening in the passivation layer exposing a portion of the conductive terminal; at least one stud bump bonded to the conductive terminal in the opening and extending in a direction normal to the surface of the substrate; and a solder connection formed on the conductive terminal in the opening and enclosing the at least one stud bump. Methods for forming the solder connections are disclosed. | 10-24-2013 |
20130285237 | Low Profile Interposer with Stud Structure - An interposer includes a substrate having a contact pad structure and a stud operably coupled to the contact pad structure. A solder ball is seated on the contact pad structure and formed around the stud. The stud is configured to regulate a collapse of the solder ball when a top package is mounted to the substrate. | 10-31-2013 |
20130316471 | Test Line Placement to Improve Die Sawing Quality - A semiconductor wafer structure includes a plurality of dies, a first scribe line extending along a first direction, a second scribe line extending along a second direction and intersecting the first scribe line, wherein the first and the second scribe lines have an intersection region. A test line is formed in the scribe line, wherein the test line crosses the intersection region. Test pads are formed in the test line and only outside a free region defined substantially in the intersection region. | 11-28-2013 |
20130332092 | Calibration Kits for RF Passive Devices - A method includes measuring a first calibration kit in a wafer to obtain a first performance data. The wafer includes a substrate, and a plurality of dielectric layers over the substrate. The first calibration kit includes a first passive device over the plurality of dielectric layers, wherein substantially no metal feature is disposed in the plurality of dielectric layers and overlapped by the first passive device. The method further includes measuring a second calibration kit in the wafer to obtain a second performance data. The second calibration kit includes a second passive device identical to the first device and over the plurality of dielectric layers, and dummy patterns in the plurality of dielectric layers and overlapped by the second passive device. The first performance data and the second performance data are de-embedded to determine an effect of metal patterns in the plurality of dielectric layers to overlying passive devices. | 12-12-2013 |
20140001612 | Multiple Die Packaging Interposer Structure and Method | 01-02-2014 |
20140045327 | Double Solid Metal Pad with Reduced Area - An integrated circuit structure includes a bond pad; an Mtop pad located directly underlying the bond pad; an Mtop-1 pad having at least a portion directly underlying the Mtop pad, wherein at least one of the Mtop pad and the Mtop-1 pad has a horizontal dimension smaller than a horizontal dimension of the bond pad; a plurality of vias interconnecting the Mtop pad and the Mtop-1 pad; and a bond ball on the bond pad. Each of the Mtop pad and the Mtop-1 pad has positive enclosures to the bond ball in all horizontal directions. | 02-13-2014 |
20140084459 | Multiple Die Packaging Interposer Structure and Method - System and method for providing a multiple die interposer structure. An embodiment comprises a plurality of interposer studs in a molded interposer, with a redirection layer on each side of the interposer. Additionally, the interposer studs may be initially attached to a conductive mounting plate by soldering or wirebond welding prior to molding the interposer, with the mounting plate etched to form one of the redirection layers. Integrated circuit dies may be attached to the redirection layers on each side of the interposer, and interlevel connection structures used to mount and electrically connect a top package having a third integrated circuit to the interposer assembly. | 03-27-2014 |
20140087522 | Reducing Delamination Between an Underfill and a Buffer Layer in a Bond Structure - A die includes a metal pad, a passivation layer, and a patterned buffer layer over the passivation layer. The patterned buffer layer includes a plurality of discrete portions separated from each other. An under-bump-metallurgy (UBM) is formed in an opening in the patterned buffer layer and an opening in the passivation layer. A metal bump is formed over and electrically coupled to the UBM. | 03-27-2014 |
20140145307 | Seal Ring Structure with Metal-Insulator-Metal Capacitor - A seal ring structure of an integrated circuit includes a seal ring and a metal-insulator-metal (MIM) capacitor. The MIM capacitor includes a top electrode, a bottom electrode disposed below the top electrode, and a first insulating layer disposed between the top electrode and the bottom electrode. The MIM capacitor is disposed within the seal ring and the MIM capacitor is insulated from the seal ring. | 05-29-2014 |
20140159223 | Apparatus and Method for Package Reinforcement - A method and apparatus for a reinforced package are provided. A package component may be electrically coupled to a device through a plurality of electrical connections. A molding underfill may be interposed between the package component and the device and may encapsulate the plurality of electrical connections or a subset of the plurality of electrical connections between the package component and the device. The package component may also include a molding compound. The plurality of the electrical connections may extend through the molding compound with the molding underfill interposed between the molding compound and the device to encapsulate the plurality of electrical connections or a subset of the plurality of electrical connections between the package component and the device. The molding underfill may extend up one or more sides of the package component. | 06-12-2014 |
20140183690 | Guard Ring Design for Maintaining Signal Integrity - A structure includes a metal feature, and a passivation layer having a portion overlapping the metal feature. The passivation layer includes a non-low-k dielectric material. A polymer layer is over the passivation layer. A Post-Passivation Interconnect (PPI) extends into the polymer layer to electrically couple to the metal feature. A guard ring includes a second PPI, wherein the guard ring is electrically grounded. The second PPI substantially encircles the first PPI. | 07-03-2014 |
20140183693 | Capacitor in Post-Passivation Structures and Methods of Forming the Same - A device includes a metal pad and a passivation layer having a portion overlapping the metal pad. A capacitor includes a bottom capacitor electrode underlying the passivation layer, wherein the bottom capacitor includes the metal pad. The capacitor further includes a top capacitor electrode over the portion of the passivation layer; and a capacitor insulator including the portion of the passivation layer. | 07-03-2014 |
20140246785 | Package on Package Structure - A package on packaging structure comprising a first package and a second package provides for improved thermal conduction and mechanical strength by the introduction of a thermally conductive substrate attached to the second package. The first package has a first substrate and a first integrated circuit. The second package has a second substrate containing through vias that has a first coefficient of thermal expansion. The second package also has a second integrated circuit having a second coefficient of thermal expansion located on the second substrate. The second coefficient of thermal expansion deviates from the first coefficient of thermal expansion by less than about 10 or less than about 5 parts-per-million per degree Celsius. A first set of conductive elements couples the first substrate and the second substrate. A second set of conductive elements couples the second substrate and the second integrated circuit. | 09-04-2014 |
20140252610 | Packaging Devices and Methods of Manufacture Thereof - Packaging devices and methods of manufacture thereof for semiconductor devices are disclosed. In some embodiments, a packaging device includes a contact pad disposed over a substrate, and a passivation layer disposed over the substrate and a first portion of the contact pad. A second portion of the contact pad is exposed. A post passivation interconnect (PPI) line is disposed over the passivation layer and is coupled to the second portion of the contact pad. A PPI pad is disposed over the passivation layer. A transition element is disposed over the passivation layer and is coupled between the PPI line and the PPI pad. The transition element includes a hollow region. | 09-11-2014 |
20140262468 | System and Method for an Improved Interconnect Structure - Presented herein are an interconnect structure and method for forming the same. The interconnect structure comprises a contact pad disposed over a substrate and a connector disposed over the substrate and spaced apart from the contact pad. A passivation layer is disposed over the contact pad and over connector, the passivation layer having a contact pad opening, a connector opening and a mounting pad opening. A post passivation layer comprising a trace and a mounting pad is disposed over the passivation layer. The trace may be disposed in the contact pad opening and contacting the mounting pad, and further disposed in the connector opening and contacting the connector. The mounting pad may be disposed in the mounting pad opening and contacting the opening. The mounting pad separated from the trace by a trace gap, which may optionally be at least 10 μm. | 09-18-2014 |
20140264735 | Inductor System and Method - A system and method for providing and manufacturing an inductor is provided. In an embodiment similar masks are reutilized to form differently sized inductors. For example, a two turn inductor and a three turn inductor may share masks for interconnects and coils, while only masks necessary for connections between the interconnects and coils may need to be newly developed. | 09-18-2014 |
20140264837 | SEMICONDUCTOR DEVICE WITH POST-PASSIVATION INTERCONNECT STRUCTURE AND METHOD OF FORMING THE SAME - A semiconductor device, including a protective layer overlying a contact pad and a dummy pad on a semiconductor substrate, an interconnect structure overlying the protective layer and contacting part of the dummy pad through a contact via passing through the protective layer, a bump overlying the interconnect structure positioned over the dummy pad. | 09-18-2014 |
20140264927 | Single Mask Package Apparatus and Method - Disclosed herein is a single mask package apparatus on a device comprising a first substrate having a land disposed on a first surface, a stud disposed on the land and a protective layer disposed over the first surface of the first substrate and around the stud. The protective layer may optionally have a thickness of at least 3 μm. A PPI may be disposed over the protective layer and in electrical contact with the stud, with a first portion of the PPI extending laterally from the stud. An interconnect may be disposed on and in electrical contact with the first portion of the PPI, and a second substrate mounted on the interconnect. A molding compound may be disposed over the PPI and around the interconnect. The stud may be a substantially solid material having a cylindrical cross section and may optionally be wirebonded to the land. | 09-18-2014 |
20140266542 | Programmable Inductor - A system and method for providing and programming a programmable inductor is provided. The structure of the programmable inductor includes multiple turns, with programmable interconnects incorporated at various points around the turns to provide a desired isolation of the turns during programming. In an embodiment the programming may be controlled using the size of the vias, the number of vias, or the shapes of the interconnects. | 09-18-2014 |
20140353819 | Polymer Layers Embedded with Metal Pads for Heat Dissipation - An integrated circuit structure includes a metal pad, a passivation layer including a portion over the metal pad, a first polymer layer over the passivation layer, and a first Post-Passivation Interconnect (PPI) extending into to the first polymer layer. The first PPI is electrically connected to the metal pad. A dummy metal pad is located in the first polymer layer. A second polymer layer is overlying the first polymer layer, the dummy metal pad, and the first PPI. An Under-Bump-Metallurgy (UBM) extends into the second polymer layer to electrically couple to the dummy metal pad. | 12-04-2014 |
20150017778 | Capacitor in Post-Passivation Structures and Methods of Forming the Same - A device includes a metal pad and a passivation layer having a portion overlapping the metal pad. A capacitor includes a bottom capacitor electrode underlying the passivation layer, wherein the bottom capacitor includes the metal pad. The capacitor further includes a top capacitor electrode over the portion of the passivation layer; and a capacitor insulator including the portion of the passivation layer. | 01-15-2015 |
20150031200 | Bump Pad Structure - An embodiment is a bump bond pad structure that comprises a substrate comprising a top layer, a reinforcement pad disposed on the top layer, an intermediate layer above the top layer, an intermediate connection pad disposed on the intermediate layer, an outer layer above the intermediate layer, and an under bump metal (UBM) connected to the intermediate connection pad through an opening in the outer layer. Further embodiments may comprise a via mechanically coupling the intermediate connection pad to the reinforcement pad. The via may comprise a feature selected from the group consisting of a solid via, a substantially ring-shaped via, or a five by five array of vias. Yet, a further embodiment may comprise a secondary reinforcement pad, and a second via mechanically coupling the reinforcement pad to the secondary reinforcement pad. | 01-29-2015 |