A manufacturing method of a semiconductor package is provided. The manufacturing method includes the following. A plurality of semiconductor components are provided. Each semiconductor component has at least one conductive bump. A substrate is provided. The substrate has a plurality of conductive pads. A transfer device is provided. The transfer device transfers the semiconductor components onto the substrate. A heating device is provided. The heating device heats or pressurizes at least two semiconductor components. During transferring of the semiconductor components to the substrate, the at least one conductive bump of each semiconductor component is docked to a corresponding one of the conductive pads.

An IC package, comprising a first IC component comprising a first interconnect on a first surface thereof; a second IC component comprising a second interconnect on a second surface thereof. The second component is above the first component, and the second surface is opposite the first surface. A thermoelectric cooling (TEC) device is between the first surface and the second surface. The TEC device is electrically coupled to the first interconnect and to the second interconnect.

An IC package, comprising a first IC component comprising a first interconnect on a first surface thereof; a second IC component comprising a second interconnect on a second surface thereof. The second component is above the first component, and the second surface is opposite the first surface. A thermoelectric cooling (TEC) device is between the first surface and the second surface. The TEC device is electrically coupled to the first interconnect and to the second interconnect.

A light emitting device package including a package body comprising a first opening; a light emitting device disposed in the first opening and including a first bonding part and a second bonding part; a first conductor disposed below the first bonding part; and a second conductor disposed below the second bonding part. Further, the first conductor is electrically connected to the first bonding part, and the second conductor is electrically connected to the second bonding part.

A light emitting device package including a package body comprising a first opening; a light emitting device disposed in the first opening and including a first bonding part and a second bonding part; a first conductor disposed below the first bonding part; and a second conductor disposed below the second bonding part. Further, the first conductor is electrically connected to the first bonding part, and the second conductor is electrically connected to the second bonding part.

A stacked semiconductor device encompasses a mother-plate having a mounting-main surface and a bottom-main surface, an onboard-element having a connection face facing to the mounting-main surface, a parent bump provided on the mother-plate, having a mother-site wall made of a layer of conductor, mother-site wall is perpendicular to the mounting-main surface, and a repair bump provided on the onboard-element at a side of the connection face, having a repair-site wall made of a layer of conductor having different hardness from the mother-site wall, the repair-site wall is perpendicular to the connection face, configure to bite each other with the parent bump at an intersection between the mother-site wall and the repair-site wall conductor.

Disclosed herein are embodiments of lead-free (Pb-free) or lead-bearing solder column devices that can include an inner core, an outer sleeve surrounding a portion of the inner core, at least one space along a length of the outer sleeve, and a second layer including a solder material coupled with a portion of the inner core within the at least one space. The inner core can be configured to support the solder column so as to prevent a collapse of the solder column at temperatures above a liquidus temperature of the outer sleeve's solder material and the second layer's solder material. The column serves as a heat-sink to conduct excessive heat away from a heat generating semiconductor chip. Moreover, the compliant solder column absorbs strain and mechanical stress caused by a difference in the coefficient of thermal expansion (CTE) connecting the semiconductor chip to a printed circuit board (PCB).

An IC package, comprising a first IC component comprising a first interconnect on a first surface thereof; a second IC component comprising a second interconnect on a second surface thereof. The second component is above the first component, and the second surface is opposite the first surface. A thermoelectric cooling (TEC) device is between the first surface and the second surface. The TEC device is electrically coupled to the first interconnect and to the second interconnect.

An IC package, comprising a first IC component comprising a first interconnect on a first surface thereof; a second IC component comprising a second interconnect on a second surface thereof. The second component is above the first component, and the second surface is opposite the first surface. A thermoelectric cooling (TEC) device is between the first surface and the second surface. The TEC device is electrically coupled to the first interconnect and to the second interconnect.

A light emitting device package according to an embodiment may include a first package body including first and second openings passing through the upper surface and lower surface thereof; a second package body disposed on the first package body and including a third opening passing through the upper surface and lower surface thereof; a light emitting device disposed in the third opening; a first resin disposed between the upper surface of the first package body and the light emitting device; and a second resin disposed in the third opening. According to the embodiment, the upper surface of the first package body may be coupled to the lower surface of the second package body, the first package body may include a recess recessed from the upper surface of the first package body to the lower surface of the first package body, the first resin may be disposed in the recess, the first resin and the second resin include materials different from each other, and the first resin may be in contact with the light emitting device and the second resin.