A semiconductor package includes a lead frame, a semiconductor device, a liquid metal conductor, and an encapsulation material. The semiconductor device is affixed to the lead frame. The liquid metal conductor couples the semiconductor device to the lead frame. The encapsulation material encases the semiconductor device, the liquid metal conductor, and at least a portion of the lead frame.

A multi-chip package may include a plurality of semiconductor chips and a printed circuit board (PCB). Each of the semiconductor chips may have an upper surface, a bottom surface, and a plurality of side surfaces. Circuit terminals may be arranged on the upper surface. A plurality of side bonding pads may be arranged on one or more selected side surface among the side surfaces. The semiconductor chips may be mounted on the PCB. The PCB may be configured to surround the selected side surface on which the side bonding pads may be arranged.

A multi-chip package may include a plurality of semiconductor chips and a printed circuit board (PCB). Each of the semiconductor chips may have an upper surface, a bottom surface, and a plurality of side surfaces. Circuit terminals may be arranged on the upper surface. A plurality of side bonding pads may be arranged on one or more selected side surface among the side surfaces. The semiconductor chips may be mounted on the PCB. The PCB may be configured to surround the selected side surface on which the side bonding pads may be arranged.

A method includes patterning a cavity through a first passivation layer of a first package component, the first package component comprising a first semiconductor substrate and bonding the first package component to a second package component. The second package component comprises a second semiconductor substrate and a second passivation layer. Bonding the first package component to the second package component comprises directly bonding the first passivation layer to the second passivation layer; and reflowing a solder region of a conductive connector disposed in the cavity to electrically connect the first package component to the second package component.

A method includes patterning a cavity through a first passivation layer of a first package component, the first package component comprising a first semiconductor substrate and bonding the first package component to a second package component. The second package component comprises a second semiconductor substrate and a second passivation layer. Bonding the first package component to the second package component comprises directly bonding the first passivation layer to the second passivation layer; and reflowing a solder region of a conductive connector disposed in the cavity to electrically connect the first package component to the second package component.

A method includes patterning a cavity through a first passivation layer of a first package component, the first package component comprising a first semiconductor substrate and bonding the first package component to a second package component. The second package component comprises a second semiconductor substrate and a second passivation layer. Bonding the first package component to the second package component comprises directly bonding the first passivation layer to the second passivation layer; and reflowing a solder region of a conductive connector disposed in the cavity to electrically connect the first package component to the second package component.

A method includes patterning a cavity through a first passivation layer of a first package component, the first package component comprising a first semiconductor substrate and bonding the first package component to a second package component. The second package component comprises a second semiconductor substrate and a second passivation layer. Bonding the first package component to the second package component comprises directly bonding the first passivation layer to the second passivation layer; and reflowing a solder region of a conductive connector disposed in the cavity to electrically connect the first package component to the second package component.

A semiconductor package includes a lead frame, a semiconductor device, a liquid metal conductor, and an encapsulation material. The semiconductor device is affixed to the lead frame. The liquid metal conductor couples the semiconductor device to the lead frame. The encapsulation material encases the semiconductor device, the liquid metal conductor, and at least a portion of the lead frame.

A semiconductor package includes a lead frame, a semiconductor device, a liquid metal conductor, and an encapsulation material. The semiconductor device is affixed to the lead frame. The liquid metal conductor couples the semiconductor device to the lead frame. The encapsulation material encases the semiconductor device, the liquid metal conductor, and at least a portion of the lead frame.

A method of manufacturing a multi-layer wafer is provided. The method comprises creating under bump metallization (UMB) pads on each of the two heterogeneous wafers; applying a conductive means above the UMB pads on at least one of the two heterogeneous wafers; and low temperature bonding the two heterogeneous wafers to adhere the UMB pads together via the conductive means. At least one stress compensating polymer layer may be applied to at least one of two heterogeneous wafers. The multi-layer wafer comprises two heterogeneous wafers, each of the heterogeneous wafer having UMB pads and at least one of the heterogeneous wafers having a stress compensating polymer layer and a conductive means applied above the UMB pads on at least one of the two heterogeneous wafers. The two heterogeneous wafers low temperature bonded together to adhere the UMB pads together via the conductive means.