Abstract: The invention relates to a ball-limiting metallurgy stack for an electrical device that contains at least one copper layer disposed upon a Ti adhesion metal layer. The ball-limiting metallurgy stack resists Sn migration toward the upper metallization of the device.

Abstract: A ball-limiting metallurgy stack is disclosed for an electrical device that contains at least one copper layer disposed upon a titanium adhesion metal layer. The ball-limiting metallurgy stack resists tin migration toward the upper metallization of the device. An etch process flow is also disclosed which resists the redepostion of the tin during etching of a copper layer.

Abstract: The invention relates to a ball-limiting metallurgy stack for an electrical device that contains at least one copper layer disposed upon a Ti adhesion metal layer. The ball-limiting metallurgy stack resists Sn migration toward the upper metallization of the device.

Abstract: The invention relates to a ball-limiting metallurgy stack for an electrical device that contains at least one copper layer disposed upon a Ti adhesion metal layer. The ball-limiting metallurgy stack resists Sn migration toward the upper metallization of the device.

Abstract: A ball-limiting metallurgy stack is disclosed for an electrical device that contains at least one copper layer disposed upon a titanium adhesion metal layer. The ball-limiting metallurgy stack resists tin migration toward the upper metallization of the device. An etch process flow is also disclosed which resists the redepostion of the tin during etching of a copper layer.

Abstract: The invention relates to a ball limiting metallurgy stack for an electrical device that contains a tin diffusion barrier and thermo-mechanical buffer layer disposed upon a refractory metal first layer. The multi-diffusion barrier layer stack resists tin migration toward the upper metallization of the device.

Abstract: A method for testing integrated circuit chips with probe wires on flat solder bumps and IC chips that are equipped with flat solder bumps are disclosed. In the method, an IC chip that has a multiplicity of bond pads and a multiplicity of flat solder bumps are first provided in which each of the solder bumps has a height less than ½ of its diameter on the multiplicity of bond pads. The probe wires can thus be easily used to contact the increased target area on the solder bumps for establishing electrical connection with a test circuit. The probe can further be conducted easily with all the Z height of the bumps are substantially equal. The height of the solder bumps may be suitably controlled by either a planarization process in which soft solder bumps are compressed by a planar surface, or solder bumps are formed in an in-situ mold by either a MSS or an electroplating process for forming solder bumps in the shape of short cylinders.

Abstract: A ball-limiting metallurgy stack is disclosed for an electrical device that contains at least one copper layer disposed upon a titanium adhesion metal layer. The ball-limiting metallurgy stack resists tin migration toward the upper metallization of the device. An etch process flow is also disclosed which resists the redepostion of the tin during etching of a copper layer.

Abstract: The present invention describes a method including providing a component, the component having a bond pad; forming a passivation layer over the component; forming a via in the passivation layer to uncover the bond pad; and forming an under bump metallurgy (UBM) over the passivation layer, in the via, and over the bond pad, in which the UBM includes an alloy of Aluminum and Magnesium.

Abstract: The present invention describes a method including providing a component, the component having a bond pad; forming a passivation layer over the component; forming a via in the passivation layer to uncover the bond pad; and forming an under bump metallurgy (UBM) over the passivation layer, in the via, and over the bond pad, in which the UBM includes an alloy of Aluminum and Magnesium. The present invention also describes an under bump metallurgy (UBM) that includes a lower layer, the lower layer including an alloy of Aluminum and Magnesium; and an upper layer located over the lower layer.

Abstract: An apparatus including a substrate comprising a device having contact point; a dielectric layer overlying the device with an opening to the contact point; and an interconnect structure disposed in the opening including an interconnect material and a different conductive shunt material.

Abstract: A method for testing integrated circuit chips with probe wires on flat solder bumps and IC chips that are equipped with flat solder bumps are disclosed. In the method, an IC chip that has a multiplicity of bond pads and a multiplicity of flat solder bumps are first provided in which each of the solder bumps has a height less than ½ of its diameter on the multiplicity of bond pads. The probe wires can thus be easily used to contact the increased target area on the solder bumps for establishing electrical connection with a test circuit. The probe can further be conducted easily with all the Z height of the bumps are substantially equal. The height of the solder bumps may be suitably controlled by either a planarization process in which soft solder bumps are compressed by a planar surface, or solder bumps are formed in an in-situ mold by either a MSS or an electroplating process for forming solder bumps in the shape of short cylinders.

Abstract: An electrochemical/mechanical polishing apparatus and method to planarize surfaces of a semiconductor device without damaging relatively soft dielectric materials. The electrochemical/mechanical polishing apparatus comprises a substrate chuck, nozzle assembly, power supply, and sweep mechanism. The substrate chuck receives a substrate to be processed. The nozzle assembly includes a nozzle plate having a plurality of nozzles to dispense an electrolyte solution. A pad is secured to the nozzle plate. The power supply provides a positive electric potential to an electrically conductive layer of the substrate and a negative electric potential to the nozzle plate. The sweep mechanism scans the nozzle assembly along the surface of the substrate, and the pad is positioned sufficiently close to the surface of the substrate to disturb an electrolyte/wafer boundary layer.

Abstract: An apparatus including a substrate comprising a device having contact point; a dielectric layer overlying the device with an opening to the contact point; and an interconnect structure disposed in the opening including an interconnect material and a different conductive shunt material.

Abstract: The invention relates to a ball-limiting metallurgy stack for an electrical device that contains at least one copper layer disposed upon a Ti adhesion metal layer. The ball-limiting metallurgy stack resists Sn migration toward the upper metallization of the device.

Abstract: The invention relates to a ball-limiting metallurgy (BLM) stack for an electrical device. The dual BLM stack resists tin migration toward the upper metallization of the device.

Abstract: The invention relates to a ball limiting metallurgy stack for an electrical device that contains a tin diffusion barrier and thermo-mechanical buffer layer disposed upon a refractory metal first layer. The multi-diffusion barrier layer stack resists tin migration toward the upper metallization of the device.

Abstract: A method comprising introducing an interconnect structure in an opening through a dielectric over a contact point, and introducing a conductive shunt material through a chemically-induced oxidation-reduction reaction. A method comprising introducing an interconnect structure in an opening through a dielectric over a contact point, introducing a conductive shunt material having an oxidation number over an exposed surface of the interconnect structure, and reducing the oxidation number of the shunt. An apparatus comprising a substrate comprising a device having contact point, a dielectric layer overlying the device with an opening to the contact point, and an interconnect structure disposed in the opening comprising an interconnect material and a different conductive shunt material.

Abstract: Electroless deposition of Cu provides for repair of copper seed layers formed by vacuum deposition processes, for formation of copper seed layers on catalytic materials, and for bulk fill of damascene trenches and via openings. Electroless plating baths for such depositions are formulated for both room temperature and elevated temperature operation, and each include a copper source, an environmentally friendly reducing agent, a pH buffer, a complexing agent, and a surfactant.

Abstract: An array of C4 solder bumps and a method for making is described incorporating an array of conductive areas on an electrical device, each conductive area having a layer of ball limited metalurgy at the device surface and two layers of solder having respective melting temperatures to form the C4 structure. The method includes melting the second layer of solder in the down position or towards earth to form a C4 solder ball or bump. The invention overcomes the problem of low temperature solder from wicking over the sidewall surfaces of the high melt solder of the C4 structure and attacking the edges of the underlying seed layers of the ball limited metalurgy.