Abstract: A method for providing a leadframeless package structure is provided. The method includes providing a temporary carrier. The temporary carrier is coupled to a metal foil layer with a temporary adhesive layer. An integrated circuit chip is coupled to the metal foil layer. The temporary adhesive layer and the temporary carrier are removed to form the leadframeless package structure after molding.

Abstract: A method for providing a leadframeless package structure is provided. The method includes providing a temporary carrier. The temporary carrier is coupled to a metal foil layer with a temporary adhesive layer. An integrated circuit chip is coupled to the metal foil layer. The temporary adhesive layer and the temporary carrier are removed to form the leadframeless package structure after molding.

Abstract: A touch-sensitive semiconductor chip having a physical interface to the environment, where the surface of the physical interface is coated with a fluorocarbon polymer. The polymer is highly scratch resistant and has a characteristic low dielectric constant for providing a low attenuation to electric fields. The polymer can be used instead of conventional passivation layers, thereby allowing a thin, low dielectric constant layer between the object touching the physical interface, and the capacitive sensing circuits underlying the polymer.

Abstract: A touch-sensitive semiconductor chip having a physical interface to the environment, where the surface of the physical interface is coated with a fluorocarbon polymer. The polymer is highly scratch resistant and has a characteristic low dielectric constant for providing a low attenuation to electric fields. The polymer can be used instead of conventional passivation layers, thereby allowing a thin, low dielectric constant layer between the object touching the physical interface, and the capacitive sensing circuits underlying the polymer.

Abstract: A touch-sensitive semiconductor chip having a physical interface to the environment, where the surface of the physical interface is coated with a fluorocarbon polymer. The polymer is highly scratch resistant and has a characteristic low dielectric constant for providing a low attenuation to electric fields. The polymer can be used instead of conventional passivation layers, thereby allowing a thin, low dielectric constant layer between the object touching the physical interface, and the capacitive sensing circuits underlying the polymer.

Abstract: An integrated circuit (IC) device comprising: 1) an integrated circuit (IC) die having a first surface, a second surface opposite the first surface, and sidewalls extending between the first surface and the second surface; and 2) an integrated circuit (IC) package for supporting the IC die, wherein the IC package is attached to at least one of the sidewalls of the IC die such that at least a portion of the IC die first surface and at least a portion of the IC die second surface are exposed.

Abstract: A touch-sensitive semiconductor chip having a physical interface to the environment, where the surface of the physical interface is coated with a fluorocarbon polymer. The polymer is highly scratch resistant and has a characteristic low dielectric constant for providing a low attenuation to electric fields. The polymer can be used instead of conventional passivation layers, thereby allowing a thin, low dielectric constant layer between the object touching the physical interface, and the capacitive sensing circuits underlying the polymer.

Abstract: A capacitive fingerprint sensor includes a polymeric protective coating defining a sensing surface and having conductive particles suspended therein. The conductive particles act as parallel strings of series capacitors to couple the capacitance the fingerprint-bearing skin of a user's finger applied to the sensing surface to capacitive sensing elements beneath the protective coating. The polymeric material of the coating is durable and scratch resistant. The conductive particles enable use of a protective coating of 10 to 20 microns in thickness while providing a high degree of sensitivity and image resolution.

Abstract: A method for providing a leadframeless package structure is provided. The method includes providing a temporary carrier. The temporary carrier is coupled to a metal foil layer with a temporary adhesive layer. An integrated circuit chip is coupled to the metal foil layer. The temporary adhesive layer and the temporary carrier are removed to form the leadframeless package structure after molding.

Abstract: An integrated circuit (IC) device comprising: 1) an integrated circuit (IC) die having a first surface, a second surface opposite the first surface, and sidewalls extending between the first surface and the second surface; and 2) an integrated circuit (IC) package for supporting the IC die, wherein the IC package is attached to at least one of the sidewalls of the IC die such that at least a portion of the IC die first surface and at least a portion of the IC die second surface are exposed.

Abstract: A touch-sensitive semiconductor chip having a physical interface to the environment, where the surface of the physical interface is coated with a fluorocarbon polymer. The polymer is highly scratch resistant and has a characteristic low dielectric constant for providing a low attenuation to electric fields. The polymer can be used instead of conventional passivation layers, thereby allowing a thin, low dielectric constant layer between the object touching the physical interface, and the capacitive sensing circuits underlying the polymer.

Abstract: A touch-sensitive semiconductor chip having a physical interface to the environment, where the surface of the physical interface is coated with a fluorocarbon polymer. The polymer is highly scratch resistant and has a characteristic low dielectric constant for providing a low attenuation to electric fields. The polymer can be used instead of conventional passivation layers, thereby allowing a thin, low dielectric constant layer between the object touching the physical interface, and the capacitive sensing circuits underlying the polymer.

Abstract: A touch-sensitive semiconductor chip having a physical interface to the environment, where the surface of the physical interface is coated with a fluorocarbon polymer. The polymer is highly scratch resistant and has a characteristic low dielectric constant for providing a low attenuation to electric fields. The polymer can be used instead of conventional passivation layers, thereby allowing a thin, low dielectric constant layer between the object touching the physical interface, and the capacitive sensing circuits underlying the polymer.

Abstract: A capacitive fingerprint sensor includes a polymeric protective coating defining a sensing surface and having conductive particles suspended therein. The conductive particles act as parallel strings of series capacitors to couple the capacitance the fingerprint-bearing skin of a user's finger applied to the sensing surface to capacitive sensing elements beneath the protective coating. The polymeric material of the coating is durable and scratch resistant. The conductive particles enable use of a protective coating of 10 to 20 microns in thickness while providing a high degree of sensitivity and image resolution.

Abstract: A touch-sensitive semiconductor chip having a physical interface to the environment, where the surface of the physical interface is coated with a fluorocarbon polymer. The polymer is highly scratch resistant and has a characteristic low dielectric constant for providing a low attenuation to electric fields. The polymer can be used instead of conventional passivation layers, thereby allowing a thin, low dielectric constant layer between the object touching the physical interface, and the capacitive sensing circuits underlying the polymer.

Abstract: A system for packaging integrated circuit components including a ball grid array substrate with a plurality of solder balls coupled to the substrate. A semiconductor device is mounted on the substrate and electrically coupled to the solder balls. One or more terminals are coupled to the substrate and electrically coupled to said semiconductor device. A detachable module contains auxiliary component. The module comprises a body portion for containing the component and one or more electrical connectors for mating with respective terminals to hold the module to the substrate and to electrically couple the component with the semiconductor device. The terminals may also be connected to the solder balls such that a component may be optionally provided either on the circuit board or in the detachable module.

Abstract: A system for packaging integrated circuit components including a ball grid array substrate with a plurality of solder balls coupled to the substrate. A semiconductor device is mounted on the substrate and electrically coupled to the solder balls. One or more terminals are coupled to the substrate and electrically coupled to said semiconductor device. A detachable module contains auxiliary component. The module comprises a body portion for containing the component and one or more electrical connectors for mating with respective terminals to hold the module to the substrate and to electrically couple the component with the semiconductor device. The terminals may also be connected to the solder balls such that a component may be optionally provided either on the circuit board or in the detachable module.

Abstract: A system for packaging circuit components is disclosed. The system includes a substrate having a plurality of openings to accommodate mounting various circuit components and the circuit components mounted therein. The substrate has first, second, third and fourth contacts providing mechanical and electrical connection to the various components. An opening is provided for accommodating a first auxiliary component such as a battery wherein the battery terminals attach to the first and second contacts. Another opening is provided in the substrate to accommodate a second auxiliary component such as a crystal resonator having leads which attach to the third and fourth contacts. The substrate preferably has another opening for accommodating an integrated circuit chip package, the chip package having conventional leads for mounting to a circuit board and terminals for connecting to the substrate contacts.

Abstract: A molded integrated circuit package system of the type suitable for surface mounting is disclosed. The system includes a chip package having leads along its sides that are of the surface-mountable type, and having a plurality of connectors at its ends. A module is provided which contains components that are sensitive to solder temperatures or the chemicals used in the soldering process; examples of such components include batteries and quartz crystal resonators. The components may be disposed directly over the chip package or, in order to reduce the height of the package system, one or both of the components may be disposed outside of the outline of the chip package. The module has connectors extending therefrom that mate with the connectors on the chip package, such that the module may be removably connected to the chip package after the surface mounting of the chip package to a circuit board.

Abstract: A molded integrated circuit package system of the type suitable for surface mounting is disclosed. The system includes a chip package having leads along its sides that are of the surface-mountable type, and having a plurality of connectors at its ends. A module is provided which contains components that are sensitive to solder temperatures or the chemicals used in the soldering process; examples of such components include batteries and quartz crystal resonators. The module has connectors extending therefrom that mate with the connectors on the chip package, such that the module may be removably connected to the chip package after the surface mounting of the chip package to a circuit board. Mechanical connection may be provided by snap members extending from the module which engage surfaces of the chip package when mounted thereto. Lockout tabs are provided on the chip package and the module to prevent improper mounting and electrical connection.