Patent application number | Description | Published |
20080230902 | Method of Forming Solder Bump on High Topography Plated Cu - A solder bump is formed on a high-topography, electroplated copper pad integrating a first and second passivation layer. A sacrifice layer is deposited over the second passivation layer. The sacrifice layer is lithographically patterned. A via is etched in the sacrifice layer. A solder bump is formed in the via. A portion of the sacrifice layer is removed using the solder bump as a mask. A semiconductor device includes a substrate, an input/output (I/O) pad disposed over the substrate, a first passivation layer disposed over a portion of the I/O pad, a first conductive layer disposed over the first passivation layer, a second passivation layer disposed over the first conductive layer, a sacrifice layer disposed over the second passivation layer, the sacrifice layer having a via, and a solder bump formed in the via, the solder bump used as a mask to remove a portion of the sacrifice layer. | 09-25-2008 |
20080237880 | INTEGRATED CIRCUIT PACKAGE SYSTEM WITH PROTECTED CONDUCTIVE LAYERS - An integrated circuit package system is provided including providing an integrated circuit die having a contact pad, forming a protection cover over the contact pad, forming a passivation layer having a first opening over the protection cover with the first opening exposing the protection cover, developing a conductive layer over the passivation layer, and forming a pad opening in the protection cover for exposing the contact pad. | 10-02-2008 |
20090004504 | CIRCUIT SYSTEM WITH CIRCUIT ELEMENT AND REFERENCE PLANE - A circuit system comprising: forming a lower electrode over a substrate; forming a resistive film over the lower electrode; forming a multi-layered insulating stack over a portion of the resistive film; and forming an upper electrode over a portion of the multi-layered insulating stack. | 01-01-2009 |
20090117702 | Method of Forming an Inductor on a Semiconductor Wafer - A semiconductor device has a substrate with an inductor formed on its surface. First and second contact pads are formed on the substrate. A passivation layer is formed over the substrate and first and second contact pads. An insulating layer is formed over the passivation layer. The insulating layer is removed over the first contact pad, but not from the second contact pad. A metal layer is formed over the first contact pad. The metal layer is coiled on the surface of the substrate to produce inductive properties. The formation of the metal layer involves use of a wet etchant. The second contact pad is protected from the wet etchant by the insulating layer. The insulating layer is removed from the second contact pad after forming the metal layer over the first contact pad. An external connection is formed on the second contact pad. | 05-07-2009 |
20090140381 | Semiconductor Device and Method for Forming Passive Circuit Elements with Through Silicon Vias to Backside Interconnect Structures - A semiconductor wafer contains a substrate having a plurality of active devices formed thereon. An analog circuit is formed on the substrate. The analog circuit can be an inductor, metal-insulator-metal capacitor, or resistor. The inductor is made with copper. A through substrate via (TSV) is formed in the substrate. A conductive material is deposited in the TSV in electrical contact with the analog circuit. An under bump metallization layer is formed on a backside of the substrate in electrical contact with the TSV. A solder material is deposited on the UBM layer. The solder material is reflowed to form a solder bump. A wire bond is formed on a top surface of the substrate. A redistribution layer is formed between the TSV and UBM. The analog circuit electrically connects through the TSV to the solder bump on the back side of the substrate. | 06-04-2009 |
20090140421 | Semiconductor Device and Method of Making Integrated Passive Devices - A semiconductor device has integrated passive circuit elements. A first substrate is formed on a backside of the semiconductor device. The passive circuit element is formed over the insulating layer. The passive circuit element can be an inductor, capacitor, or resistor. A passivation layer is formed over the passive circuit element. A carrier is attached to the passivation layer. The first substrate is removed. A non-silicon substrate is formed over the insulating layer on the backside of the semiconductor device. The non-silicon substrate is made with glass, molding compound, epoxy, polymer, or polymer composite. An adhesive layer is formed between the non-silicon substrate and insulating layer. A via is formed between the insulating layer and first passivation layer. The carrier is removed. An under bump metallization is formed over the passivation layer in electrical contact with the passive circuit element. A solder bump is formed on the under bump metallization. | 06-04-2009 |
20090155959 | Semiconductor Device and Method of Forming Integrated Passive Device Module - A method of manufacturing a semiconductor device includes providing a substrate with an insulation layer disposed on a top surface of the substrate, forming a passive device over the top surface of the substrate, removing the substrate, depositing an insulating polymer film layer over the insulation layer, and depositing a metal layer over the insulating polymer film layer. A solder mask can be formed over the metal layer. A conformal metal layer can then be formed over the solder mask. A notch can be formed in the insulation layer to enhance the connection between the insulating polymer film layer and the insulation layer. Additional semiconductor die can be electrically connected to the passive device. The substrate is removed by removing a first amount of the substrate using a back grind process, and then removing a second amount of the substrate using a wet dry, dry etch, or chemical-mechanical planarization process. | 06-18-2009 |
20090230542 | Semiconductor Device With Integrated Passive Circuit and Method of Making the Same Using Sacrificial Substrate - A semiconductor device is made by providing a sacrificial substrate, forming a first insulating layer over the sacrificial substrate, forming a first passivation layer over the first insulating layer, forming a second insulating layer over the first passivation layer, forming an integrated passive device over the second insulating layer, forming a wafer support structure over the integrated passive device, removing the sacrificial substrate to expose the first insulating layer after forming the wafer support structure, and forming an interconnect structure over the first insulating layer in electrical contact with the integrated passive device. The integrated passive device includes an inductor, capacitor, or resistor. The sacrificial substrate is removed by mechanical grinding and wet etching. The wafer support structure can be glass, ceramic, silicon, or molding compound. The interconnect structure can include a solder bump, wire bond, and intermediate conduction layer formed on a backside of the semiconductor device. | 09-17-2009 |
20100059853 | Semiconductor Device and Method of Forming Shielding Layer over Integrated Passive Device Using Conductive Channels - A semiconductor device is made by providing a substrate, forming a first insulation layer over the substrate, forming a first conductive layer over the first insulation layer, forming a second insulation layer over the first conductive layer, and forming a second conductive layer over the second insulation layer. A portion of the second insulation layer, first conductive layer, and second conductive layer form an integrated passive device (IPD). The IPD can be an inductor, capacitor, or resistor. A plurality of conductive pillars is formed over the second conductive layer. One conductive pillar removes heat from the semiconductor device. A third insulation layer is formed over the IPD and around the plurality of conductive pillars. A shield layer is formed over the IPD, third insulation layer, and conductive pillars. The shield layer is electrically connected to the conductive pillars to shield the IPD from electromagnetic interference. | 03-11-2010 |
20100059854 | Semiconductor Device and Method of Forming an IPD over a High-Resistivity Encapsulant Separated from other IPDS and Baseband Circuit - A semiconductor device has a first conductive layer formed over a sacrificial substrate. A first integrated passive device (IPD) is formed in a first region over the first conductive layer. A conductive pillar is formed over the first conductive layer. A high-resistivity encapsulant greater than 1.0 kohm-cm is formed over the first IPD to a top surface of the conductive pillar. A second IPD is formed over the encapsulant. The first encapsulant has a thickness of at least 50 micrometers to vertically separate the first and second IPDs. An insulating layer is formed over the second IPD. The sacrificial substrate is removed and a second semiconductor die is disposed on the first conductive layer. A first semiconductor die is formed in a second region over the substrate. A second encapsulant is formed over the second semiconductor die and a thermally conductive layer is formed over the second encapsulant. | 03-11-2010 |
20100059855 | Semiconductor Device and Method of Forming a Fan-Out Structure with Integrated Passive Device and Discrete Component - A semiconductor device is made by providing a temporary carrier for supporting the semiconductor device. An integrated passive device (IPD) is mounted to the temporary carrier using an adhesive. The IPD includes a capacitor and a resistor and has a plurality of through-silicon vias (TSVs). A discrete component is mounted to the temporary carrier using the adhesive. The discrete component includes a capacitor. The IPD and the discrete component are encapsulated using a molding compound. A first metal layer is formed over the molding compound. The first metal layer is connected to the TSVs of the IPD and forms an inductor. The temporary carrier and the adhesive are removed, and a second metal layer is formed over the IPD and the discrete component. The second metal layer interconnects the IPD and the discrete component and forms an inductor. An optional interconnect structure is formed over the second metal layer. | 03-11-2010 |
20100065942 | Semiconductor Device and Method of Forming High-Frequency Circuit Structure and Method Thereof - A semiconductor device is made by providing an integrated passive device (IPD). Through-silicon vias (TSVs) are formed in the IPD. A capacitor is formed over a surface of the IPD by depositing a first metal layer over the IPD, depositing a resistive layer over the first metal layer, depositing a dielectric layer over the first metal layer, and depositing a second metal layer over the resistive and dielectric layers. The first metal layer and the resistive layer are electrically connected to form a resistor and the first metal layer forms a first inductor. A wafer supporter is mounted over the IPD using an adhesive material and a third metal layer is deposited over the IPD. The third metal layer forms a second inductor that is electrically connected to the capacitor and the resistor by the TSVs of the IPD. An interconnect structure is connected to the IPD. | 03-18-2010 |
20100133687 | Semiconductor Device with Solder Bump Formed on High Topography Plated Cu Pads - A semiconductor device has a first conductive layer formed over a substrate. A first insulating layer is formed over the substrate and first conductive layer. A second conductive layer is formed over the first conductive layer and first insulating layer. A second insulating layer is formed over the first insulating layer and second conductive layer. The second insulating layer has a sidewall between a surface of the second insulating material and surface of the second conductive layer. A protective layer is formed over the second insulating layer and surface of the second conductive layer. The protective layer follows a contour of the surface and sidewall of the second insulating layer and second conductive layer. A bump is formed over the surface of the second conductive layer and a portion of the protective layer adjacent to the second insulating layer. The protective layer protects the second insulating layer. | 06-03-2010 |
20100140736 | Semiconductor Device and Method of Embedding Integrated Passive Devices into the Package Electrically Interconnected Using Conductive Pillars - A semiconductor device has a first insulation layer formed over a sacrificial substrate. A first conductive layer is formed over the first insulating layer. Conductive pillars are formed over the first conductive layer. A pre-fabricated IPD is disposed between the conductive pillars. An encapsulant is formed around the IPD and conductive pillars. A second insulation layer is formed over the encapsulant. The conductive pillars are electrically connected to the first and second conductive layers. The first and second conductive layers each include an inductor. Semiconductor devices are mounted over the first and second insulating layer and electrically connected to the first and second conductive layers, respectively. An interconnect structure is formed over the first and second insulating layers, respectively, and electrically connected to the first and second conductive layers. The sacrificial substrate is removed. The semiconductor devices can be stacked and electrically interconnected through the conductive pillars. | 06-10-2010 |
20100140737 | Semiconductor Device and Method for Forming Passive Circuit Elements With Through Silicon Vias to Backside Interconnect Structures - A semiconductor wafer contains a substrate having a plurality of active devices formed thereon. An analog circuit is formed on the substrate. The analog circuit can be an inductor, metal-insulator-metal capacitor, or resistor. The inductor is made with copper. A through substrate via (TSV) is formed in the substrate. A conductive material is deposited in the TSV in electrical contact with the analog circuit. An under bump metallization layer is formed on a backside of the substrate in electrical contact with the TSV. A solder material is deposited on the UBM layer. The solder material is reflowed to form a solder bump. A wire bond is formed on a top surface of the substrate. A redistribution layer is formed between the TSV and UBM. The analog circuit electrically connects through the TSV to the solder bump on the back side of the substrate. | 06-10-2010 |
20100140772 | Semiconductor Device and Method of Forming Vertical Interconnect Structure in Substrate for IPD and Baseband Circuit Separated by High-Resistivity Molding Compound - A semiconductor device is made with a conductive via formed through a top-side of the substrate. The conductive via extends vertically through less than a thickness of the substrate. An integrated passive device (IPD) is formed over the substrate. A plurality of first conductive pillars is formed over the first IPD. A first semiconductor die is mounted over the substrate. An encapsulant is formed around the first conductive pillars and first semiconductor die. A second IPD is formed over the encapsulant. An interconnect structure is formed over the second IPD. The interconnect structure operates as a heat sink. A portion of a back-side of the substrate is removed to expose the first conductive via. A second semiconductor die is mounted to the back-side of the substrate. The second semiconductor die is electrically connected to the first IPD and first semiconductor die through the conductive via. | 06-10-2010 |
20100140779 | Semiconductor Package with Semiconductor Core Structure and Method of Forming Same - A semiconductor device is made by providing a temporary carrier for supporting the semiconductor device. An integrated passive device (IPD) structure is formed over the temporary carrier. The IPD structure includes an inductor, resistor, and capacitor. Conductive posts are mounted to the IPD structure, and first semiconductor die is mounted to the IPD structure. A wafer molding compound is deposited over the conductive posts and the first semiconductor die. A core structure is mounted to the conductive posts over the first semiconductor die. The core structure includes a semiconductor material. Conductive through silicon vias (TSVs) are formed in the core structure. A redistribution layer (RDL) is formed over the core structure. A second semiconductor die is mounted over the semiconductor device. The second semiconductor die is electrically connected to the core structure. | 06-10-2010 |
20100200985 | Semiconductor Device and Method of Protecting Passivation Layer in a Solder Bump Process - A flip chip semiconductor device has a substrate with a plurality of active devices formed thereon. A contact pad is formed on the substrate in electrical contact with the plurality of active devices. A passivation layer is formed over the substrate and intermediate conduction layer. An adhesive layer is formed over the passivation layer. A barrier layer is formed over the adhesive layer. A wetting layer is formed over the barrier layer. The barrier layer and wetting layer in a first region are removed, while the barrier layer, wetting layer, and adhesive layer in a second region are maintained. The adhesive layer over the passivation layer in the first region are maintained until the solder bumps are formed. By keeping the adhesive layer over the passivation layer until after formation of the solder bumps, less cracking occurs in the passivation layer. | 08-12-2010 |
20100264512 | Semiconductor Device and Method of Forming High-Frequency Circuit Structure and Method Thereof - A semiconductor device is made by providing an integrated passive device (IPD). Through-silicon vias (TSVs) are formed in the IPD. A capacitor is formed over a surface of the IPD by depositing a first metal layer over the IPD, depositing a resistive layer over the first metal layer, depositing a dielectric layer over the first metal layer, and depositing a second metal layer over the resistive and dielectric layers. The first metal layer and the resistive layer are electrically connected to form a resistor and the first metal layer forms a first inductor. A wafer supporter is mounted over the IPD using an adhesive material and a third metal layer is deposited over the IPD. The third metal layer forms a second inductor that is electrically connected to the capacitor and the resistor by the TSVs of the IPD. An interconnect structure is connected to the IPD. | 10-21-2010 |
20100264516 | Method of Forming an Inductor on a Semiconductor Wafer - A semiconductor device has a substrate with an inductor formed on its surface. First and second contact pads are formed on the substrate. A passivation layer is formed over the substrate and first and second contact pads. A protective layer is formed over the passivation layer. The protective layer is removed over the first contact pad, but not from the second contact pad. A conductive layer is formed over the first contact pad. The conductive layer is coiled on the surface of the substrate to produce inductive properties. The formation of the conductive layer involves use of a wet etchant. The second contact pad is protected from the wet etchant by the protective layer. The protective layer is removed from the second contact pad after forming the conductive layer over the first contact pad. An external connection is formed on the second contact pad. | 10-21-2010 |
20110068468 | Semiconductor Package with Semiconductor Core Structure and Method of Forming the Same - A semiconductor device includes an IPD structure, a first semiconductor die mounted to the IPD structure with a flipchip interconnect, and a plurality of first conductive posts that are disposed adjacent to the first semiconductor die. The semiconductor device further includes a first molding compound that is disposed over the first conductive posts and first semiconductor die, a core structure bonded to the first conductive posts over the first semiconductor die, and a plurality of conductive TSVs disposed in the core structure. The semiconductor device further includes a plurality of second conductive posts that are disposed over the core structure, a second semiconductor die mounted over the core structure, and a second molding compound disposed over the second conductive posts and the second semiconductor die. The second semiconductor die is electrically connected to the core structure. | 03-24-2011 |
20110163414 | Semiconductor Device Having Embedded Integrated Passive Devices Electrically Interconnected Using Conductive Pillars - A semiconductor device includes a first conductive layer and conductive pillars disposed over the first conductive layer and directly contacting the first conductive layer. The semiconductor device includes an Integrated Passive Device (IPD) mounted to the first conductive layer such that the IPD is disposed between the conductive pillars. The IPD is self-aligned to the first conductive layer, and includes a metal-insulator-metal capacitor disposed over a first substrate and a wound conductive layer forming an inductor disposed over the first substrate. The semiconductor device includes a discrete capacitor mounted over the first conductive layer. The discrete capacitor is electrically connected to one of the conductive pillars. The semiconductor device includes an encapsulant disposed around the IPD, discrete capacitor, and conductive pillars, a first insulation layer disposed over the encapsulant and conductive pillars, and a second conductive layer disposed over the first insulating layer. The second conductive layer is electrically connected to the conductive pillars. | 07-07-2011 |
20110254155 | Wafer Level Die Integration and Method Therefor - A method of manufacturing a semiconductor device includes providing a wafer for supporting the semiconductor device. An insulation layer is disposed over a top surface of the wafer. The method includes forming a first interconnect structure over the top surface of the wafer with temperatures in excess of 200° C., forming a metal pillar over the wafer in electrical contact with the first interconnect structure, connecting a semiconductor component to the first interconnect structure, and forming encapsulant over the semiconductor component. The encapsulant is etched to expose a portion of the metal pillar. A buffer layer is optionally formed over the encapsulant. The method includes forming a second interconnect structure over the encapsulant in electrical contact with the metal pillar with temperatures below 200° C., and removing a portion of a backside of the wafer opposite the top surface of the wafer. | 10-20-2011 |
20120003830 | METHOD FOR MANUFACTURE OF INTEGRATED CIRCUIT PACKAGE SYSTEM WITH PROTECTED CONDUCTIVE LAYERS FOR PADS - A method for manufacture of an integrated circuit package system includes: providing an integrated circuit die having a contact pad; forming a protection cover over the contact pad; forming a passivation layer having a first opening over the protection cover with the first opening exposing the protection cover; developing a conductive layer over the passivation layer; forming a pad opening in the protection cover for exposing the contact pad having the conductive layer partially removed; and an interconnect directly on the contact pad and only adjacent to the protection cover and the passivation layer. | 01-05-2012 |
20120126369 | Semiconductor Device and Method of Forming Passive Devices - A flip chip semiconductor device has a substrate with a plurality of active devices formed thereon. A passive device is formed on the substrate by depositing a first conductive layer over the substrate, depositing an insulating layer over the first conductive layer, and depositing a second conductive layer over the insulating layer. The passive device is a metal-insulator-metal capacitor. The deposition of the insulating layer and first and second conductive layers is performed without photolithography. An under bump metallization (UBM) layer is formed on the substrate in electrical contact with the plurality of active devices. A solder bump is formed over the UBM layer. The passive device can also be a resistor by depositing a resistive layer over the first conductive layer and depositing a third conductive layer over the resistive layer. The passive device electrically contacts the solder bump. | 05-24-2012 |
20120175732 | Semiconductor Package with Semiconductor Core Structure and Method of Forming Same - A semiconductor device includes an IPD structure, a first semiconductor die mounted to the IPD structure with a flipchip interconnect, and a plurality of first conductive posts that are disposed adjacent to the first semiconductor die. The semiconductor device further includes a first molding compound that is disposed over the first conductive posts and first semiconductor die, a core structure bonded to the first conductive posts over the first semiconductor die, and a plurality of conductive TSVs disposed in the core structure. The semiconductor device further includes a plurality of second conductive posts that are disposed over the core structure, a second semiconductor die mounted over the core structure, and a second molding compound disposed over the second conductive posts and the second semiconductor die. The second semiconductor die is electrically connected to the core structure. | 07-12-2012 |
20120175784 | Semiconductor Device and Method of Forming Vertical Interconnect Structure in Substrate for IPD and Baseband Circuit Separated by High-Resistivity Molding Compound - A semiconductor device is made with a conductive via formed through a top-side of the substrate. The conductive via extends vertically through less than a thickness of the substrate. An integrated passive device (IPD) is formed over the substrate. A plurality of first conductive pillars is formed over the first IPD. A first semiconductor die is mounted over the substrate. An encapsulant is formed around the first conductive pillars and first semiconductor die. A second IPD is formed over the encapsulant. An interconnect structure is formed over the second IPD. The interconnect structure operates as a heat sink. A portion of a back-side of the substrate is removed to expose the first conductive via. A second semiconductor die is mounted to the back-side of the substrate. The second semiconductor die is electrically connected to the first IPD and first semiconductor die through the conductive via. | 07-12-2012 |
20120187572 | Semiconductor Device and Method of Forming a Fan-Out Structure with Integrated Passive Device and Discrete Component - A semiconductor device is made by providing a temporary carrier for supporting the semiconductor device. An integrated passive device (IPD) is mounted to the temporary carrier using an adhesive. The IPD includes a capacitor and a resistor and has a plurality of through-silicon vias (TSVs). A discrete component is mounted to the temporary carrier using the adhesive. The discrete component includes a capacitor. The IPD and the discrete component are encapsulated using a molding compound. A first metal layer is formed over the molding compound. The first metal layer is connected to the TSVs of the IPD and forms an inductor. The temporary carrier and the adhesive are removed, and a second metal layer is formed over the IPD and the discrete component. The second metal layer interconnects the IPD and the discrete component and forms an inductor. An optional interconnect structure is formed over the second metal layer. | 07-26-2012 |
20120211881 | Semiconductor Device and Method of Protecting Passivation Layer in a Solder Bump Process - A flip chip semiconductor device has a substrate with a plurality of active devices formed thereon. A contact pad is formed on the substrate in electrical contact with the plurality of active devices. A passivation layer is formed over the substrate and intermediate conduction layer. An adhesive layer is formed over the passivation layer. A barrier layer is formed over the adhesive layer. A wetting layer is formed over the barrier layer. The barrier layer and wetting layer in a first region are removed, while the barrier layer, wetting layer, and adhesive layer in a second region are maintained. The adhesive layer over the passivation layer in the first region are maintained until the solder bumps are formed. By keeping the adhesive layer over the passivation layer until after formation of the solder bumps, less cracking occurs in the passivation layer. | 08-23-2012 |
20120292738 | Semiconductor Device and Method of Forming an IPD over a High-Resistivity Encapsulant Separated from other IPDS and Baseband Circuit - A semiconductor device has a first conductive layer formed over a sacrificial substrate. A first integrated passive device (IPD) is formed in a first region over the first conductive layer. A conductive pillar is formed over the first conductive layer. A high-resistivity encapsulant greater than 1.0 kohm-cm is formed over the first IPD to a top surface of the conductive pillar. A second IPD is formed over the encapsulant. The first encapsulant has a thickness of at least 50 micrometers to vertically separate the first and second IPDs. An insulating layer is formed over the second IPD. The sacrificial substrate is removed and a second semiconductor die is disposed on the first conductive layer. A first semiconductor die is formed in a second region over the substrate. A second encapsulant is formed over the second semiconductor die and a thermally conductive layer is formed over the second encapsulant. | 11-22-2012 |
20130015554 | Semiconductor Device and Method for Forming Passive Circuit Elements With Through Silicon Vias to Backside Interconnect Structures - A semiconductor wafer contains a substrate having a plurality of active devices formed thereon. An analog circuit is formed on the substrate. The analog circuit can be an inductor, metal-insulator-metal capacitor, or resistor. The inductor is made with copper. A through substrate via (TSV) is formed in the substrate. A conductive material is deposited in the TSV in electrical contact with the analog circuit. An under bump metallization layer is formed on a backside of the substrate in electrical contact with the TSV. A solder material is deposited on the UBM layer. The solder material is reflowed to form a solder bump. A wire bond is formed on a top surface of the substrate. A redistribution layer is formed between the TSV and UBM. The analog circuit electrically connects through the TSV to the solder bump on the back side of the substrate. | 01-17-2013 |
20130015555 | Method of Forming an Inductor on a Semiconductor Wafer - A semiconductor device has a substrate with an inductor formed on its surface. First and second contact pads are formed on the substrate. A passivation layer is formed over the substrate and first and second contact pads. A protective layer is formed over the passivation layer. The protective layer is removed over the first contact pad, but not from the second contact pad. A conductive layer is formed over the first contact pad. The conductive layer is coiled on the surface of the substrate to produce inductive properties. The formation of the conductive layer involves use of a wet etchant. The second contact pad is protected from the wet etchant by the protective layer. The protective layer is removed from the second contact pad after forming the conductive layer over the first contact pad. An external connection is formed on the second contact pad. | 01-17-2013 |
20130015575 | Semiconductor Device with Solder Bump Formed on High Topography Plated Cu Pads - A semiconductor device has a first conductive layer formed over a substrate. A first insulating layer is formed over the substrate and first conductive layer. A second conductive layer is formed over the first conductive layer and first insulating layer. A second insulating layer is formed over the first insulating layer and second conductive layer. The second insulating layer has a sidewall between a surface of the second insulating material and surface of the second conductive layer. A protective layer is formed over the second insulating layer and surface of the second conductive layer. The protective layer follows a contour of the surface and sidewall of the second insulating layer and second conductive layer. A bump is formed over the surface of the second conductive layer and a portion of the protective layer adjacent to the second insulating layer. The protective layer protects the second insulating layer. | 01-17-2013 |
20130175668 | Semiconductor Device and Method of Making Integrated Passive Devices - A semiconductor device has integrated passive circuit elements. A first substrate is formed on a backside of the semiconductor device. The passive circuit element is formed over the insulating layer. The passive circuit element can be an inductor, capacitor, or resistor. A passivation layer is formed over the passive circuit element. A carrier is attached to the passivation layer. The first substrate is removed. A non-silicon substrate is formed over the insulating layer on the backside of the semiconductor device. The non-silicon substrate is made with glass, molding compound, epoxy, polymer, or polymer composite. An adhesive layer is formed between the non-silicon substrate and insulating layer. A via is formed between the insulating layer and first passivation layer. The carrier is removed. An under bump metallization is formed over the passivation layer in electrical contact with the passive circuit element. A solder bump is formed on the under bump metallization. | 07-11-2013 |