摘要:
Provided is a stacked chip package and a method for forming the same. A spacer is formed on a side of an upper chip. A conductive line is formed on the spacer to electrically connect upper and lower chips. The reliability of the stacked chip package is improved because wire bonding is not used to electrically connect the upper and lower chips. Further, the overall size of the stacked chip package can be reduced as the height of bonding wire loops does not contribute to the overall stacked chip package height.
摘要:
Provided is a method of fabricating an ultra thin flip-chip package. In the above method, an under barrier metal film is formed on a bond pad of a semiconductor chip. Three-dimensional structured solder bumps are formed on the under barrier metal film. each of the solder bumps including a bar portion and a ball portion disposed at an end of the bar portion. The semiconductor chip including the three-dimensional structured solder bumps is bonded to a solder layer on a printed circuit board to complete a flip-chip package. According to the present invention, by employing the three-dimensional structured solder bumps, it is possible to lower the height of the solder bumps, thereby improving the reliability of an ultra thin flip-chip package.
摘要:
A flip chip package may include a semiconductor chip, a package substrate, a conductive magnetic bump and an anisotropic conductive member. The semiconductor chip may have a first pad. The package substrate may have a second pad confronting the first pad. The conductive magnetic bump may be interposed between the semiconductor chip and the package substrate to generate a magnetic force. The anisotropic conductive member may be arranged between the semiconductor chip and the package substrate. The anisotropic conductive member may have conductive magnetic particles induced toward the conductive magnetic bump by the magnetic force to electrically connect the first pad with the second pad. A predetermined number of the conductive magnetic particles may be positioned between the conductive magnetic bump and the pad, so that an electrical connection reliability between the pads may be increased.
摘要:
In one embodiment, a semiconductor device includes a semiconductor substrate having a first surface, and a second surface opposite to the first surface. The second surface defines a redistribution trench. The substrate has a via hole extending therethrough. The semiconductor device also includes a through via disposed in the via hole. The through via may include a via hole insulating layer, a barrier layer, sequentially formed on an inner wall of the via hole. The through via may further include a conductive connector adjacent the barrier layer. The semiconductor device additionally includes an insulation layer pattern formed on the second surface of the substrate. The insulation layer pattern defines an opening that exposes a region of a top surface of the through via. The semiconductor devices includes a redistribution layer disposed in the trench and electrically connected to the through via. The insulation layer pattern overlaps a region of the conductive connector.
摘要:
In one embodiment, a semiconductor device includes a semiconductor substrate having a first surface, and a second surface opposite to the first surface. The second surface defines a redistribution trench. The substrate has a via hole extending therethrough. The semiconductor device also includes a through via disposed in the via hole. The through via may include a via hole insulating layer, a barrier layer, sequentially formed on an inner wall of the via hole. The through via may further include a conductive connector adjacent the barrier layer. The semiconductor device additionally includes an insulation layer pattern formed on the second surface of the substrate. The insulation layer pattern defines an opening that exposes a region of a top surface of the through via. The semiconductor devices includes a redistribution layer disposed in the trench and electrically connected to the through via. The insulation layer pattern overlaps a region of the conductive connector.
摘要:
An interconnection structure includes an integrated circuit (IC) chip having internal circuitry and a terminal to electrically connect the internal circuitry to an external circuit, a passivation layer disposed on a top surface of the IC chip, the passivation layer configured to protect the internal circuitry and to expose the terminal, an input/output (I/O) pad, where the I/O pad includes a first portion in contact with the terminal and a second portion that extends over the passivation layer, and an electroless plating layer disposed on the I/O pad.
摘要翻译:互连结构包括具有内部电路的集成电路(IC)芯片和用于将内部电路电连接到外部电路的端子,设置在IC芯片的顶表面上的钝化层,该钝化层被配置为保护内部电路 以及使所述终端暴露于所述I / O焊盘包括与所述端子接触的第一部分和在所述钝化层上延伸的第二部分的输入/输出(I / O)焊盘,以及设置在所述钝化层上的无电镀层 I / O板。