摘要:
A semiconductor package has a semiconductor die disposed on a substrate. A bond wire is connected between a first bonding site on the semiconductor die and a second bonding site on the substrate. The first bonding site is a die bond pad; the second bonding site is a stitch bond. The second bonding site has a bond finger formed on the substrate, a conductive layer in direct physical contact with the bond finger, and a bond stud coupled to the bond wire and in direct physical contact with the conductive layer to conduct an electrical signal from the semiconductor die to the bond finger. The bond finger is made of copper. The conductive layer is made of copper or gold. The bond stud is made of gold and overlies a side portion and top portion of the copper layer.
摘要:
A semiconductor package has a semiconductor die disposed on a substrate. A bond wire is connected between a first bonding site on the semiconductor die and a second bonding site on the substrate. The first bonding site is a die bond pad; the second bonding site is a stitch bond. The second bonding site has a bond finger formed on the substrate, a conductive layer in direct physical contact with the bond finger, and a bond stud coupled to the bond wire and in direct physical contact with the conductive layer to conduct an electrical signal from the semiconductor die to the bond finger. The bond finger is made of copper. The conductive layer is made of copper or gold. The bond stud is made of gold and overlies a side portion and top portion of the copper layer.
摘要:
A semiconductor package has a semiconductor die disposed on a substrate. A bond wire is connected between a first bonding site on the semiconductor die and a second bonding site on the substrate. The first bonding site is a die bond pad; the second bonding site is a stitch bond. The second bonding site has a bond finger formed on the substrate, a conductive layer in direct physical contact with the bond finger, and a bond stud coupled to the bond wire and in direct physical contact with the conductive layer to conduct an electrical signal from the semiconductor die to the bond finger. The bond finger is made of copper. The conductive layer is made of copper or gold. The bond stud is made of gold and overlies a side portion and top portion of the copper layer.
摘要:
A semiconductor device has a semiconductor die with a die pad layout. Signal pads in the die pad layout are located primarily near a perimeter of the semiconductor die, and power pads and ground pads are located primarily inboard from the signal pads. The signal pads are arranged in a peripheral row or in a peripheral array generally parallel to an edge of the semiconductor die. Bumps are formed over the signal pads, power pads, and ground pads. The bumps can have a fusible portion and non-fusible portion. Conductive traces with interconnect sites are formed over a substrate. The bumps are wider than the interconnect sites. The bumps are bonded to the interconnect sites so that the bumps cover a top surface and side surfaces of the interconnect sites. An encapsulant is deposited around the bumps between the semiconductor die and substrate.
摘要:
A semiconductor device has a semiconductor die with a plurality of composite bumps formed over a surface of the semiconductor die. The composite bumps have a fusible portion and non-fusible portion, such as a conductive pillar and bump formed over the conductive pillar. The composite bumps can also be tapered. Conductive traces are formed over a substrate with interconnect sites having edges parallel to the conductive trace from a plan view for increasing escape routing density. The interconnect site can have a width less than 1.2 times a width of the conductive trace. The composite bumps are wider than the interconnect sites. The fusible portion of the composite bumps is bonded to the interconnect sites so that the fusible portion covers a top surface and side surface of the interconnect sites. An encapsulant is deposited around the composite bumps between the semiconductor die and substrate.
摘要:
A semiconductor device has a semiconductor die with bond pads formed on a surface of the semiconductor die. A UBM is formed over the bond pads of the semiconductor die. A fusible layer is formed over the UBM. The fusible layer can be tin or tin alloy. A substrate has bond pads formed on a surface of the substrate. A plurality of stud bumps containing non-fusible material is formed over the bond pads on the substrate. Each stud bump includes a wire having a first end attached to the bond pad of the substrate and second end of uniform height electrically connected to the bond pad of the semiconductor die by reflowing the fusible layer or applying thermal compression bonding. An underfill material is deposited between the semiconductor die and substrate. An encapsulant is deposited over the semiconductor die and substrate.
摘要:
A semiconductor device has a semiconductor die with a plurality of bumps formed over the die. A substrate has a plurality of conductive traces formed on the substrate. Each trace has an interconnect site for mating to the bumps. The interconnect sites have parallel edges along a length of the conductive traces under the bumps from a plan view for increasing escape routing density. The bumps have a noncollapsible portion for attaching to a contact pad on the die and fusible portion for attaching to the interconnect site. The fusible portion melts at a temperature which avoids damage to the substrate during reflow. The noncollapsible portion includes lead solder, and fusible portion includes eutectic solder. The interconnect sites have a width which is less than 1.2 times a width of the conductive trace. Alternatively, the interconnect sites have a width which is less than one-half a diameter of the bump.
摘要:
A semiconductor device has a semiconductor die with a plurality of tapered bumps formed over a surface of the semiconductor die. The tapered bumps can have a non-collapsible portion and collapsible portion. A plurality of conductive traces is formed over a substrate with interconnect sites. A masking layer is formed over the substrate with openings over the conductive traces. The tapered bumps are bonded to the interconnect sites so that the tapered bumps contact the mask layer and conductive traces to form a void within the opening of the mask layer over the substrate. The substrate can be non-wettable to aid with forming the void in the opening of the masking layer. The void provides thermally induced stress relief. Alternatively, the masking layer is sufficiently thin to avoid the tapered interconnect structures contacting the mask layer. An encapsulant or underfill material is deposited between the semiconductor die and substrate.
摘要:
A solder mask for flip chip interconnection has a common opening that spans a plurality of circuit elements. The solder mask allows confinement of the solder during the re-melt stage of interconnection, yet it is within common design rules for solder mask patterning. Also, a substrate for flip chip interconnection includes a substrate having the common opening that spans a plurality of circuit elements. Also, a flip chip package includes a substrate having a common opening that spans a plurality of circuit elements.
摘要:
A flip chip interconnect of a die on a substrate is made by mating the interconnect bump onto a narrow interconnect pad on a lead or trace, rather than onto a capture pad. The width of the narrow interconnect pad is less than a base diameter of bumps on the die to be attached. Also, a flip chip package includes a die having solder bumps attached to interconnect pads in an active surface, and a substrate having narrow interconnect pads on electrically conductive traces in a die attach surface, in which the bumps are mated onto the narrow pads on the traces.