A semiconductor die and an electrically conductive ribbon are arranged on a substrate. The electrically conductive ribbon includes a roughened surface. An insulating encapsulation is molded onto the semiconductor die and the electrically conductive ribbon. The roughened surface of the electrically conductive ribbon provides a roughened coupling interface to the insulating encapsulation.

A connecting strip of conductive elastic material having an arched shape having a concave side and a convex side. The connecting strip is fixed at the ends to a support carrying a die with the convex side facing the support. During bonding, the connecting strip undergoes elastic deformation and presses against the die, thus electrically connecting the at least one die to the support.

Embodiments relate to an integrated circuit package having an integrated circuit die connected to a package substrate through conductors of a flex cable. The flex cable includes an insulating housing made of an insulating material and a plurality of conductors disposed inside the insulating housing. Each conductor of the plurality of conductors is connected to a first contact of a plurality of contacts of the integrated circuit die and a second contact of a plurality of contacts of the package substrate.

A method of manufacturing a semiconductor device includes: forming a first electrode and a second electrode on an insulating layer so as to be apart from each other; forming a barrier made of same material as a metal terminal on a peripheral portion of an ultrasonic bonding portion of the metal terminal; and applying pressing force and ultrasonic vibration to the ultrasonic bonding portion of the metal terminal by using an ultrasonic tool to ultrasonically bond the metal terminal to the first electrode.

A method of manufacturing a semiconductor device includes: forming a first electrode and a second electrode on an insulating layer so as to be apart from each other; forming a barrier made of same material as a metal terminal on a peripheral portion of an ultrasonic bonding portion of the metal terminal; and applying pressing force and ultrasonic vibration to the ultrasonic bonding portion of the metal terminal by using an ultrasonic tool to ultrasonically bond the metal terminal to the first electrode.

The present invention relates to an apparatus for bonding clips, a method of bonding clips, and a semiconductor package including semiconductor chips to which the clips are bonded using the method, and more particularly, to an apparatus for bonding clips, a method of bonding clips, and a semiconductor package including semiconductor chips to which the clips are bonded using the method, wherein the clips are sequentially bonded to the semiconductor chips by 1 unit so that a pitch difference between a lead frame array and a clip array is separately corrected to be the same and thereby, misalignment may be minimized so as to increase bonding accuracy of the clips to the semiconductor chips.

A connecting strip of conductive elastic material having an arched shape having a concave side and a convex side. The connecting strip is fixed at the ends to a support carrying a die with the convex side facing the support. During bonding, the connecting strip undergoes elastic deformation and presses against the die, thus electrically connecting the at least one die to the support.

Embodiments relate to an integrated circuit package having an integrated circuit die connected to a package substrate through conductors of a flex cable. The flex cable includes an insulating housing made of an insulating material and a plurality of conductors disposed inside the insulating housing. Each conductor of the plurality of conductors is connected to a first contact of a plurality of contacts of the integrated circuit die and a second contact of a plurality of contacts of the package substrate.

A connecting strip of conductive elastic material having an arched shape having a concave side and a convex side. The connecting strip is fixed at the ends to a support carrying a die with the convex side facing the support. During bonding, the connecting strip undergoes elastic deformation and presses against the die, thus electrically connecting the at least one die to the support.