A method to produce a semiconductor package or system-on-flex package comprising bonding structures for connecting IC/chips to fine pitch circuitry using a solid state diffusion bonding is disclosed. A plurality of traces is formed on a substrate, each respective trace comprising at least four different conductive materials having different melting points and plastic deformation properties, which are optimized for both diffusion bonding of chips and soldering of passives components.

A method to produce a semiconductor package or system-on-flex package comprising bonding structures for connecting IC/chips to fine pitch circuitry using a solid state diffusion bonding is disclosed. A plurality of traces is formed on a substrate, each respective trace comprising at least four different conductive materials having different melting points and plastic deformation properties, which are optimized for both diffusion bonding of chips and soldering of passives components.

A semiconductor device includes a substrate having a plurality of pads on a surface of the substrate, a semiconductor chip that includes a plurality of metal bumps connected to corresponding pads on the substrate, a first resin layer between the surface of the substrate and the semiconductor chip, a second resin layer between the substrate and the semiconductor chip and between the first resin layer and at least one of the metal bumps, and a third resin layer on the substrate and above the semiconductor chip.

A semiconductor device includes a substrate having a plurality of pads on a surface of the substrate, a semiconductor chip that includes a plurality of metal bumps connected to corresponding pads on the substrate, a first resin layer between the surface of the substrate and the semiconductor chip, a second resin layer between the substrate and the semiconductor chip and between the first resin layer and at least one of the metal bumps, and a third resin layer on the substrate and above the semiconductor chip.

A semiconductor structure is provided. The semiconductor structure includes a base, a seed layer, a compound semiconductor layer, a gate structure, a source structure, a drain structure, and a conductive paste. The seed layer is disposed on the base. The compound semiconductor layer is disposed on the seed layer. The gate structure is disposed on the compound semiconductor layer. The source structure and the drain structure are disposed on both sides of the gate structure. In addition, the conductive paste is disposed between the base and a lead frame, and the conductive paste extends to the side surface of the base.

A semiconductor structure is provided. The semiconductor structure includes a base, a seed layer, a compound semiconductor layer, a gate structure, a source structure, a drain structure, and a conductive paste. The seed layer is disposed on the base. The compound semiconductor layer is disposed on the seed layer. The gate structure is disposed on the compound semiconductor layer. The source structure and the drain structure are disposed on both sides of the gate structure. In addition, the conductive paste is disposed between the base and a lead frame, and the conductive paste extends to the side surface of the base.

A semiconductor structure is provided. The semiconductor structure includes a base, a seed layer, a compound semiconductor layer, a gate structure, a source structure, a drain structure, and a conductive paste. The seed layer is disposed on the base. The compound semiconductor layer is disposed on the seed layer. The gate structure is disposed on the compound semiconductor layer. The source structure and the drain structure are disposed on both sides of the gate structure. In addition, the conductive paste is disposed between the base and a lead frame, and the conductive paste extends to the side surface of the base.

A semiconductor structure is provided. The semiconductor structure includes a base, a seed layer, a compound semiconductor layer, a gate structure, a source structure, a drain structure, and a conductive paste. The seed layer is disposed on the base. The compound semiconductor layer is disposed on the seed layer. The gate structure is disposed on the compound semiconductor layer. The source structure and the drain structure are disposed on both sides of the gate structure. In addition, the conductive paste is disposed between the base and a lead frame, and the conductive paste extends to the side surface of the base.

A method to produce a semiconductor package or system-on-flex package comprising bonding structures for connecting IC/chips to fine pitch circuitry using a solid state diffusion bonding is disclosed. A plurality of traces is formed on a substrate, each respective trace comprising at least four different conductive materials having different melting points and plastic deformation properties, which are optimized for both diffusion bonding of chips and soldering of passives components.

A method to produce a semiconductor package or system-on-flex package comprising bonding structures for connecting IC/chips to fine pitch circuitry using a solid state diffusion bonding is disclosed. A plurality of traces is formed on a substrate, each respective trace comprising at least four different conductive materials having different melting points and plastic deformation properties, which are optimized for both diffusion bonding of chips and soldering of passives components.