Semiconductor device manufacturing: process – Coating with electrically or thermally conductive material – To form ohmic contact to semiconductive material
Reexamination Certificate
2002-03-22
2003-06-10
Whitehead, Jr., Carl (Department: 2813)
Semiconductor device manufacturing: process
Coating with electrically or thermally conductive material
To form ohmic contact to semiconductive material
C438S613000, C438S652000, C438S671000, C438S686000
Reexamination Certificate
active
06576540
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a substrate within a Ni/Au structure electroplated on the electrical contact pads and a method for fabricating the same.
2. Description of the Prior Art
To catch the downsize trend of the electronics technology development, some issues have impacted the progress of substrates for integrated circuits (IC) packaged. On the surface of the substrate, electrical contact pads connected to a plurality of conducting wires is formed for the transmission of electronic signals or power. On the top surface of the electrical contact pads, a metal Ni/Au layer is formed. Some electrical contact pads, also known as bonding pads, of a substrate are covered with a Ni/Au layer on the surface. During the wire-bonding process, the metal wires and the bonding pads are all made of gold, resulting in excellent electrical coupling. Furthermore, other electrical contact pads of a substrate, solder ball pads for example, are covered with a Ni/Au layer electroplated on the surface, so that the conducting pads (usually made of copper composition) of the solder ball pads can be prevented from oxidation to improve the electrical interconnection performance of the solder ball pads.
Illustrated as
FIG. 1
, wherein a schematic diagram showing a Ni/Au structure electroplated on electrical contact pads of a substrate in the prior art. On the substrate
1
, there are formed an upper circuit layout pattern
11
, a lower circuit layout pattern
12
, a plurality of plated through holes
13
or blind vias. Photolithography and etching are employed to define a circuit layout pattern with a plurality of electrical contact pads
10
(such as bonding pads or solder ball pads). Furthermore, there is a solder mask
14
to prevent soldering on the top surface of the substrate
1
.
Even though the electrical contact pads
10
on the substrate
1
is disclosed to have a Ni/Au structure
16
electroplated. However, to obtain such a structure, it is required to dispose a plurality of conducting wires
15
for electroplating. Those conducting wires
15
are used to assist the electroplating process for forming the Ni/Au structure
16
electroplated on the electrical contact pads
10
. Accordingly, a Ni/Au structure
16
is electroplated on the electrical contact pads
10
, however a large amount of area will be occupied by the plurality of conducting wires, leading to reduce area for circuit layout pattern. In addition, noise due to the antenna effect when the conducting wires are employed may occur at high frequency. Even though etch-back can be used to remove the conducting wires
15
, some residual may be left. Therefore, some residual are left leading to the antenna effect when a Ni/Au structure electroplated on the electrical contact pads of the substrate. Unfortunately, It still exists some defects in this issue such as reduced circuit layout area and noise generated at high frequency.
To overcome the problems stated above, the other method has been provided to improve the prior art, which is also referred to as Gold Pattern Plating (GPP). Illustrated as
FIG. 2A
to
FIG. 2D
, which shows the GPP process for electroplating a Ni/Au structure.
First, an electrically conducting layer
21
is formed on each surface of a substrate
2
, illustrated as
FIG. 2A
, where a plurality of contact holes or blind vias will be formed.
A photoresist layer
22
is deposited on each of the electrically conducting layer
21
on the substrate
2
, where there are a plurality of openings in the photoresist layer
22
to expose some regions, wherein the Ni/Au layer
23
is formed by electroplating method, illustrated as FIG.
2
B.
Thereafter, the photoresist layers
22
are removed and the Ni/Au layer
23
still exists on the conducting layer
21
, illustrated as FIG.
2
C.
Finally, the Ni/Au layer
23
is used as a mask to define the electrical conducting layer
21
to form a circuit layout pattern
25
by photolithography and etching technology, wherein a Ni/Au layer
23
electroplated on the circuit layout pattern, illustrated as FIG.
2
D. The other description drawing of the product illustrated as FIG.
2
E.
Even though the conducting wires for electroplating the Ni/Au layer are not required in this case, the circuit layout pattern
25
(including electrical contact pads
26
and the electrically conducting traces) on each surface of the substrate
2
are coated with a Ni/Au layer, resulting in increasing fabrication cost since metal Ni/Au is very expensive. Furthermore, corresponding to the electrical contact pads
26
on the circuit layout pattern
25
on each surface of the substrate
2
, only the top surface are covered with the Ni/Au
23
, while the rest of the electrical contact pads
26
(including the side walls of the electrical contact pads serving as the bonding pads) are exposed without Ni/Au coverage. The exposed portions are corrosion due to oxidation, and the adhesion of bonding pads will be weak for lack of coverage with gold. Therefore, during the bonding process, electrodes on the chip and bonding pads on the substrate are bonded together by gold wires (not shown), the electrical coupling between gold wires and the bonding pads may be negative affected. Furthermore, the Ni/Au
23
on the circuit layout pattern
25
covered by the solder mask
27
(Illustrated as
FIG. 2E
) to prevent soldering on the top surface of the substrate
2
does not have reliable coupling due to lower adhesion between different materials resulting in poor yield.
Therefore, the present invention is to provide a substrate within a Ni/Au structure electroplated on electrical contact pads and a method for fabricating the same. The present invention does not necessary have additional conducting wires for electroplating process, so that the area occupied by the conducting wires for electroplating is decreased and the circuit layout area is increased. On the other hand, in the present invention, the electroplated contact pads are covered by Ni/Au, which facilitates the wire bonding process for packaged and the electrical contact pads to have excellent electrical interconnection performance, so as to improve the electrical coupling performance by means of reducing corrosion effect.
SUMMARY OF THE INVENTION
The major object of the present invention is to provide a method for fabricating a substrate within a Ni/Au structure electroplated on electrical contact pads. In this method, the conducting wires for electroplating are not necessary to be formed on the substrate, so that the effective area for circuit layout pattern is increased and the noise is thus reduced.
The other object of the present invention is to provide a method for fabricating a Ni/Au structure electroplated on electrical contact pads. In this method, it is not necessary for the circuit layout pattern to be coated with a Ni/Au layer, thus the fabrication cost is reduced.
Another object of the present invention is to provide a substrate within a Ni/Au structure electroplated on electrical contact pads, wherein the outer surface of said electrical contact pads are covered by a Ni/Au layer without any conducting wire formed for electroplating. It improves the electrical coupling between gold wires and the electrical contact pads of the substrate, prevents the electrical contact pads from oxidation, and insurances the electrical interconnection performance.
In order to achieve the foregoing objects, the present invention provides a substrate within a Ni/Au structure electroplated on electrical contact pads and a method for fabricating the same. According to one aspect of the present invention, the structure comprises: a substrate, having a circuit layout pattern; electrical contact pads formed on the circuit layout pattern; and a Ni/Au layer electroplated on said electrical contact pads; wherein there is no conducting wire formed for the Ni/Au structure electroplated on the electrical contact pads. Finally, a solder mask deposited on the substrate which has an opening to expose said electrical contact pad
Chen Chiang-Du
Hsu Shih-Ping
Liu Yen-Hung
Jr. Carl Whitehead
Nguyen Thanh
Phoenix Precision Technology Corporation
LandOfFree
Method for fabricating substrate within a Ni/Au structure... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Method for fabricating substrate within a Ni/Au structure..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Method for fabricating substrate within a Ni/Au structure... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3109280