A semiconductor die that includes a first die located on a first side of an interposer and a second die located on a second side of the interposer. Active sides of the first and second dies may each face the interposer. A bond wire may electrically connect the first die to the second side of the interposer and a bond wire may electrically connect the second die to the first side of the interposer. The bond wires may extend through a plurality of windows in the interposer. First and second dies may be attached to a first side of an interposer and may be electrically connected to a second side of the interposer through windows and third and fourth dies may be attached to a second side of the interposer and may be electrically connected to the first side of the interposer through windows.

A semiconductor die that includes a first die located on a first side of an interposer and a second die located on a second side of the interposer. Active sides of the first and second dies may each face the interposer. A bond wire may electrically connect the first die to the second side of the interposer and a bond wire may electrically connect the second die to the first side of the interposer. The bond wires may extend through a plurality of windows in the interposer. First and second dies may be attached to a first side of an interposer and may be electrically connected to a second side of the interposer through windows and third and fourth dies may be attached to a second side of the interposer and may be electrically connected to the first side of the interposer through windows.

A semiconductor device PKG includes a semiconductor chip CP, a lead LD3, a wire BW5 electrically connecting a pad electrode PD2 of the semiconductor chip CP to the lead LD3, a wire BW3 electrically connecting a pad electrode PD3 of the semiconductor chip CP to the lead LD3, and a sealing body sealing them with a resin. The semiconductor chip CP includes internal circuits 5b and 5c, and a switch circuit unit SW. Signal transmission is possible between the internal circuit 5c and the pad electrode PD3. The switch circuit unit SW is a circuit capable of being set in a first state in which signal transmission is possible between the internal circuit 5b and the pad electrode PD2, and in a second state in which signal transmission is not possible between the internal circuit 5b and the pad electrode PD2. The switch circuit unit SW is fixed to the second state during operation of the semiconductor device PKG.

A semiconductor package includes a carrier substrate having a top surface, a semiconductor die mounted on the top surface, a plurality of bonding wires connecting the semiconductor die to the carrier substrate, an insulating material coated on the bonding wires, and a molding compound covering the top surface and encapsulating the semiconductor die, the plurality of bonding wires, and the insulating material.

A semiconductor device PKG includes a semiconductor chip CP, a lead LD3, a wire BW5 electrically connecting a pad electrode PD2 of the semiconductor chip CP to the lead LD3, a wire BW3 electrically connecting a pad electrode PD3 of the semiconductor chip CP to the lead LD3, and a sealing body sealing them with a resin. The semiconductor chip CP includes internal circuits 5b and 5c, and a switch circuit unit SW. Signal transmission is possible between the internal circuit 5c and the pad electrode PD3. The switch circuit unit SW is a circuit capable of being set in a first state in which signal transmission is possible between the internal circuit 5b and the pad electrode PD2, and in a second state in which signal transmission is not possible between the internal circuit 5b and the pad electrode PD2. The switch circuit unit SW is fixed to the second state during operation of the semiconductor device PKG.

A semiconductor device is disclosed including semiconductor die formed with a row of functional die bond pads and an adjacent row of dummy die bond pads. The functional die bond pads may be electrically connected to the integrated circuits formed within the semiconductor die. The dummy die bond pads may be formed in the scribe area of a semiconductor wafer from which the semiconductor die are formed, and are provided for wire bonding the semiconductor die within the semiconductor device.

A multi-level leadframe including three bonding levels and one exposed level. Each of the three bonding levels and the one exposed level is positioned in a different horizontal plane, with each bonding level providing a bonding site vertically positioned relative to the horizontal plane of the exposed level, with each bonding site coupled to a package lead at the exposed level. Bonding sites located at first and second bonding levels can be located in a common, outer row, along a common, vertical plane, and bonding sites located at a third bonding level can be located in a separate, inner row, along a separate vertical plane. A third level bonding site can be coupled to a first level bonding site with a multiple level electrical lead conductor that vertically spans a second bonding level. A two-step etch process from a single sheet conductor is provided to manufacture the multi-level leadframe.

A semiconductor device PKG includes a semiconductor chip CP, a lead LD3, a wire BW5 electrically connecting a pad electrode PD2 of the semiconductor chip CP to the lead LD3, a wire BW3 electrically connecting a pad electrode PD3 of the semiconductor chip CP to the lead LD3, and a sealing body sealing them with a resin. The semiconductor chip CP includes internal circuits 5b and 5c, and a switch circuit unit SW. Signal transmission is possible between the internal circuit 5c and the pad electrode PD3. The switch circuit unit SW is a circuit capable of being set in a first state in which signal transmission is possible between the internal circuit 5b and the pad electrode PD2, and in a second state in which signal transmission is not possible between the internal circuit 5b and the pad electrode PD2. The switch circuit unit SW is fixed to the second state during operation of the semiconductor device PKG.

A semiconductor package includes a package substrate, at least one dam structure extending on the package substrate to surround substrate pads and defining an inner space that accommodates the substrate pads on the package substrate, a first semiconductor on the package substrate, a second semiconductor chip attached to the first semiconductor chip by an adhesive film, bonding wires electrically connecting chip pads of the second semiconductor chip to the substrate pads of the package substrate, a first underfill member filling a gap between the package substrate and the first semiconductor chip, a second underfill member filling the inner space of the at least one dam structure, and a molding member covering the first semiconductor chip, the second semiconductor chip and the first and second underfill members on the package substrate.

A semiconductor die is mounted on a substrate having electrically conductive substrate portions. The electrically conductive substrate portions include a die mounting location and electrically conductive leads around the die mounting location. The semiconductor die is mounted on a first surface of the die mounting location. The substrate and the semiconductor die are encapsulated in an electrically insulating encapsulation having a surface opposite the first surface. An electrically conductive path is provided to electrically couple the semiconductor die to one of the electrically conductive substrate portions. The electrically conductive path includes: a first path section extending through and/or over the electrically insulating encapsulation between the electrically conductive substrate portion and an intermediate point at the surface of the electrically insulating encapsulation, and a second path section provided via wire bonding and extending between the semiconductor die and the intermediate point at the surface of the electrically insulating encapsulation.