Provided is a connection structure for a semiconductor package which includes: a first passivation layer having an opening; a first conductive pattern that penetrates the first passivation layer and protrudes upwardly from the first passivation layer; a second passivation layer on the first passivation layer and covering the first conductive pattern; a second conductive pattern on the second passivation layer and electrically connected to the first conductive pattern; a third passivation layer on the second passivation layer and covering the second conductive pattern; and an external terminal in the opening and electrically connected to the first conductive pattern, wherein the first conductive pattern is thicker than the second conductive pattern.

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.

In one instance, a semiconductor package includes a lead frame and a semiconductor die mounted to the lead frame via a plurality of bumps that are shaped or tapered. Each of the plurality of bumps includes a first end connected to the semiconductor die and an opposing, second end connected to the lead frame. The first end has an end surface area A1. The second end has an end surface area A2. The end surface area A1 of the first end is less than the end surface area A2 of the second end. Other aspects are disclosed.

A chip package structure is provided. The chip package structure includes a substrate. The chip package structure includes a chip over the substrate. The chip package structure includes a first bump and a first dummy bump between the chip and the substrate. The first bump is electrically connected between the chip and the substrate, the first dummy bump is electrically insulated from the substrate, the first dummy bump is between the first bump and a corner of the chip, and the first dummy bump is wider than the first bump.

Provided is a connection structure for a semiconductor package which includes: a first passivation layer having an opening; a first conductive pattern that penetrates the first passivation layer and protrudes upwardly from the first passivation layer; a second passivation layer on the first passivation layer and covering the first conductive pattern; a second conductive pattern on the second passivation layer and electrically connected to the first conductive pattern; a third passivation layer on the second passivation layer and covering the second conductive pattern; and an external terminal in the opening and electrically connected to the first conductive pattern, wherein the first conductive pattern is thicker than the second conductive pattern.

A radio frequency module includes: a first power amplifier and a second power amplifier on a first principal surface of a module board; external-connection terminals on a second principal surface; and a first via-conductor and a second via-conductor apart from each other inside of the board. One end of the first via-conductor is connected to a ground electrode of the first power amplifier, and the other end is connected to a first external-connection terminal. One end of the second via-conductor is connected to a ground electrode of the second power amplifier, and the other end is connected to a second external-connection terminal. The second via-conductor penetrates the board in a normal direction of the first principal surface, and the first via-conductor includes columnar conductors cascaded with central axes thereof displaced in the normal direction and has no region where the columnar conductors overlap in a plan view of the board.

A semiconductor device includes a die body having a frontside and a transistor having an active area formed in the die body, the active area being bounded by an outer periphery. An interconnect structure is formed over the frontside of the die body and contains patterned electrically conductive material defining first, second, and third contacts electrically coupled to first, second, and third subregions, respectively, within the active area of the transistor. A frontside input/output (I/O) interface is formed in an outer portion of the interconnect structure. The frontside I/O interface contains first, second, and third contact pads, the first contact pad being electrically connected to the first contact, the second contact pad being electrically connected to the second contact, and the third contact pad being electrically connected the third contact, wherein the third contact pad is positioned at a location overlying the active area of the transistor.

An exemplary semiconductor device can comprise (a) a substrate comprising a substrate dielectric structure between the substrate top side and the substrate bottom side, conductive pads at the substrate bottom side, and a substrate cavity through the substrate dielectric structure, (b) a base electronic component comprising inner short bumps; outer short bumps bounding a perimeter around the inner short bumps, and tall bumps between the outer short bumps and an edge of the base component top side, and (c) a mounted electronic component coupled to the inner short bumps of the base electronic component. The tall bumps of the base component can be coupled to the conductive pads of the substrate. The mounted electronic component can be located in the substrate cavity. The substrate bottom side can cover at least a portion of the outer short bumps of the base electronic component. Other examples and related methods are disclosed herein.

A semiconductor system includes a semiconductor chip comprising a RF circuit, a buffer layer over the RF circuit and a plurality of bumps over the buffer layer, wherein the plurality of bumps comprising at least one functional bump electrically connected to the RF circuit, and at least one dummy bump which is maintained at a distance from the RF circuit and prevented from being electrically connected to the RF circuit by the buffer layer, a conductive layer disposed over the semiconductor chip and coupled to the plurality of bumps through a plurality of vias, a feedline structure disposed over the conductive layer, wherein the feedline structure is electrically coupled to the RF circuit, and a plurality of antennas disposed over the feedline structure, wherein at least one antenna of the plurality of antennas is coupled to the RF circuit through the feedline structure.

A semiconductor package includes a redistribution substrate and a semiconductor chip thereon. The redistribution substrate includes a ground under-bump pattern, signal under-bump patterns laterally spaced apart from the ground under-bump pattern, first signal line patterns disposed on the signal under-bump patterns and coupled to corresponding signal under-bump patterns, and a first ground pattern coupled to the ground under-bump pattern and laterally spaced apart from the first signal line pattern Each of the signal and ground under-bump patterns includes a first part and a second part formed on the first part and that is wider than the first part. The second part of the ground under-bump pattern is wider than the second part of the signal under-bump pattern. The ground under-bump pattern vertically overlaps the first signal line patterns. The first ground pattern does not vertically overlap the signal under-bump patterns.