The disclosed embodiments of electronic packages include electrical contact pad features present on all sides of the package that facilitate simple and low cost electrical connections to the package made through a mechanical contacting scheme. In an embodiment, an electronic package comprises: a metal leadframe having a first leadframe portion having a first thickness and a second leadframe portion having a second thickness that is less than the first thickness, the second leadframe portion defining electrical contact pads; a silicon die attached to the second leadframe portion and overlying a space formed in the leadframe by the first and second leadframe portions; and wirebonds coupling the silicon die to the electrical contact pads. A method of fabricating the electronic package is also disclosed.

The disclosed embodiments of electronic packages include electrical contact pad features present on all sides of the package that facilitate simple and low cost electrical connections to the package made through a mechanical contacting scheme. In an embodiment, an electronic package comprises: a metal leadframe having a first leadframe portion having a first thickness and a second leadframe portion having a second thickness that is less than the first thickness, the second leadframe portion defining electrical contact pads; a silicon die attached to the second leadframe portion and overlying a space formed in the leadframe by the first and second leadframe portions; and wirebonds coupling the silicon die to the electrical contact pads. A method of fabricating the electronic package is also disclosed.

A semiconductor package of a pin-grid-array type includes a bump pad on a first substrate, a metal socket on a second substrate, a core material for reverse reflow on the bump pad, and solder paste or a solder bump forming a solder layer on the core material for reverse reflow. The solder paste or the solder bump is in contact with the bump pad. The core material for reverse reflow and the solder paste or the solder bump bonded to the core material for reverse reflow are used as a pin and detachably attached to the metal socket. The core material for reverse reflow includes a core, a first metal layer directly coated on the core, and a second metal layer directly coated on the first metal layer.

A semiconductor package of a pin-grid-array type includes a bump pad on a first substrate, a metal socket on a second substrate, a core material for reverse reflow on the bump pad, and solder paste or a solder bump forming a solder layer on the core material for reverse reflow. The solder paste or the solder bump is in contact with the bump pad. The core material for reverse reflow and the solder paste or the solder bump bonded to the core material for reverse reflow are used as a pin and detachably attached to the metal socket. The core material for reverse reflow includes a core, a first metal layer directly coated on the core, and a second metal layer directly coated on the first metal layer.

An antenna in package (AIP) 400 includes an IC die 120 including bond pads 121 and a package substrate including the IC die mounted up and being completely embedded therein. The package substrate includes a top layer 418 including a top dielectric layer 418b, a top metal layer 418a including an antenna 418a1, and a bottom layer 415 including a bottom dielectric 415b and a bottom metal layer 415a including contact pads including a first contact pad 415a1, and filled vias 415c, 417c. The bond pads are electrically coupled by a connection including a filled via(s) for connecting to the top metal layer and/or the bottom metal layer. Metal pillars including a first metal pillar 132a are electrically are coupled to the first contact pad, and at least one filled via is electrically coupled to the first metal pillar for providing a transmission line from the first contact pad to the antenna.

An antenna in package (AIP) 400 includes an IC die 120 including bond pads 121 and a package substrate including the IC die mounted up and being completely embedded therein. The package substrate includes a top layer 418 including a top dielectric layer 418b, a top metal layer 418a including an antenna 418a1, and a bottom layer 415 including a bottom dielectric 415b and a bottom metal layer 415a including contact pads including a first contact pad 415a1, and filled vias 415c, 417c. The bond pads are electrically coupled by a connection including a filled via(s) for connecting to the top metal layer and/or the bottom metal layer. Metal pillars including a first metal pillar 132a are electrically are coupled to the first contact pad, and at least one filled via is electrically coupled to the first metal pillar for providing a transmission line from the first contact pad to the antenna.

A display device includes a first substrate that includes a first electrode, a second substrate disposed under the first substrate and that includes, a second electrode that overlaps the first electrode, and an anisotropic conductive film disposed between the first substrate and the second substrate. The anisotropic conductive film includes an insulating resin layer and a plurality of conductive particles in the insulating resin layer. The conductive particles include first conductive particles that overlap the first electrode and the second electrode, and second conductive particles other than the first conductive particles. Each of the first conductive particles and the second conductive particles includes a first flat surface, a second flat surface that faces the first flat surface, and a curved surface rounded between the first flat surface and the second flat surface.

A display device includes a first substrate that includes a first electrode, a second substrate disposed under the first substrate and that includes, a second electrode that overlaps the first electrode, and an anisotropic conductive film disposed between the first substrate and the second substrate. The anisotropic conductive film includes an insulating resin layer and a plurality of conductive particles in the insulating resin layer. The conductive particles include first conductive particles that overlap the first electrode and the second electrode, and second conductive particles other than the first conductive particles. Each of the first conductive particles and the second conductive particles includes a first flat surface, a second flat surface that faces the first flat surface, and a curved surface rounded between the first flat surface and the second flat surface.

Various circuit boards and methods of fabricating and using the same are disclosed. In one aspect, a circuit board is provided that has a substrate with a pocket and a conductor layer. A chiplet is positioned in the pocket. The chiplet has plural bottom side interconnects electrically connected to the conductor layer and plural top side interconnects adapted to interconnect with two or more semiconductor chips.

Various circuit boards and methods of fabricating and using the same are disclosed. In one aspect, a circuit board is provided that has a substrate with a pocket and a conductor layer. A chiplet is positioned in the pocket. The chiplet has plural bottom side interconnects electrically connected to the conductor layer and plural top side interconnects adapted to interconnect with two or more semiconductor chips.