KR0152944B1 - Semiconductor package and method for manufacturing the same - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a semiconductor package and a method of manufacturing the same. In the conventional BGA package, an EPOXY MOLDING COMPUND is molded on an upper surface of the substrate, and the interface peeling phenomenon between the substrate and the EMSC and the There was a problem that warpage occurred, and the reliability of the package such as the warpage of the wire is caused by the injection of the emshi in the upper portion of the wire during molding, the semiconductor package of the present invention is the upper and lower parts of the substrate 10 Since the EMS 16 is integrally molded so as to enclose the substrate 10, the EMS 10 may be prevented from interfacing with the substrate 10 and the EMS 16 and the warpage of the package occurring in the upper and lower asymmetric structures of the conventional package. When the molding machine is in progress, the EMS 16 is injected into the upper and lower portions of the substrate, thereby preventing the warpage of the wires 14, thereby improving the reliability of the entire package.

Description

Semiconductor package and manufacturing method

1 is a longitudinal cross-sectional view showing the configuration of a conventional plastic BGA package.

2 is a plan view showing a substrate of a conventional plastic BGA package.

Figure 3 is a longitudinal cross-sectional view showing the configuration of the present invention BGA package.

4 is a plan view showing a substrate of the present invention BGA package.

Figure 5 is a longitudinal cross-sectional view showing a state in which the present invention BGA package is molded.

* Explanation of symbols for main parts of the drawings

10: substrate 10a, 10b: through hole

10c: step groove 11: upper conductor pattern

12: lower conductor pattern 13: semiconductor chip

14 wire 15 solder ball

16: EMSI 18: lower mold

18a: protrusion 18b: air hole

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a semiconductor package and a method of manufacturing the same, and more particularly, to a semiconductor package and a method of manufacturing the same, which improve the reliability of the package by molding the upper and lower parts of the substrate to prevent bending of the wire.

The plastic BGA (BALL GRID ARRAYS) package, which has been in the spotlight as one of the multi-pin packages, has a lead pitch of three times wider than QFP (QUAD FLAT PACKAGES). It is widely used because it can produce more than twice the pins.

The QFP is multi-pinned (HIGH-PINized) and the outlead is fine pitched (FINE-PITCHized) so that the bending of the lead (BENT) occurs, the PCB (PRINTED CIRCUIT BOARD) The disadvantage is that it is difficult to control the amount of alignment and solder when surface-mounting on the substrate. However, the BGA does not have an outlead and instead the solder ball plays the role of the outlead. The shortcomings of QFP can be eliminated. In addition, since the BGA has a shorter electrical path from the semiconductor chip to the solder ball than the QFP, the electrical resistance is reduced, and thus the electrical characteristics are excellent.

Now, a structure and a manufacturing process of a plastic busy package generally used in the related art will be described with reference to FIGS. 1 and 2 as follows.

As shown in the drawing, in the conventional business package, the semiconductor chip 2 is attached to the center of the substrate SUBSTRATE 1 by the pad 3. A predetermined portion of the substrate 1 is penetrated, and upper and lower portions thereof are connected to the conductive patterns 4 and 5, and one end of the upper conductive pattern 4 is electrically connected to the semiconductor chip 2. A wire 6 is connected for connection, a plurality of solder balls 7 are attached to a predetermined portion of the lower conductor pattern 5, and a substrate 1 including the semiconductor chip 2 and the wire 6. ), The upper constant area is molded in EMC (EPOXY MOLDING COMPUND) (8).

In such a conventional semiconductor package, the semiconductor chip 2 is fixedly attached to an upper portion of the pad 3 provided on the substrate 1, and the semiconductor chip 2 and the upper conductor formed on the substrate 1 are fixed. Wire bonding connecting the pattern 4 to the wires 6 is performed, and a predetermined area including the semiconductor chip 2 and the wires 6 is manufactured in the order of molding with the EMS8. Finally, the BGA package is completed by performing a reflow process of attaching the solder ball 7 to the lower conductor pattern 5 to form a connection terminal to the outside.

However, the semiconductor package as described above has a structure in which the EMSM 8 is molded on the substrate 1, so that an interfacial peeling phenomenon occurs between the substrate 1 and the EMSM 8. The upper and lower parts are asymmetrical in structure to warp the package, and in the molding process, the method of injecting the EMS 8 from the upper part of the wire 6 causes the warp of the wire 6 to decrease overall reliability of the package. There was a problem.

Accordingly, an object of the present invention is to provide a semiconductor package that can be molded so that the upper and lower portions of the substrate are connected to the EMS, to prevent the interface peeling between the substrate and the EMS, and to prevent the package from warping.

Another object of the present invention is to provide a semiconductor package suitable for preventing the occurrence of warpage of the wire by injecting the EMM in the upper and lower portions of the substrate during molding and a method of manufacturing the same.

In order to achieve the object of the present invention as described above, a semiconductor chip is attached to the center of the substrate and connected to the upper conductor pattern and the wire. A solder ball is attached to the lower conductor pattern of the substrate. A semiconductor package in which a predetermined area is molded by an EMS, wherein the EMS is molded to surround upper and lower portions of the substrate excluding solder balls.

In addition, the semiconductor package manufacturing method of the present invention for achieving the above object, the step of attaching a semiconductor chip in the center of the substrate, the step of wire bonding the semiconductor chip and the upper conductor pattern with a wire, the semiconductor chip and the wire In the semiconductor package manufacturing process consisting of molding to cover the upper, lower portions of the substrate including a; and attaching a solder ball to the lower conductor pattern formed on the lower portion of the substrate, preventing bending of the wire in the molding step To this end, the imsi is injected into the upper and lower portions of the substrate.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a longitudinal cross-sectional view showing the configuration of the present invention BGA package, Figure 4 is a plan view showing a substrate of the present invention BGA package, Figure 5 is a molding of the present invention BGA package It is a longitudinal cross-sectional view which shows the state to become.

As shown, the BI package according to an embodiment of the present invention is a predetermined portion of the substrate 10 is penetrated through the upper and lower conductor patterns (11, 12) is formed, the center of the substrate 10 The semiconductor chip 13 is attached to the semiconductor chip 13, and the semiconductor chip 13 and the upper conductor pattern 11 are connected by a wire 14. The lower conductive pattern 12 has a solder ball 15 attached thereto, and the upper surface of the substrate 10 including the semiconductor chip 13 and the wire 14 except for a lower surface to which the solder ball 15 is connected to the outside. , It is molded with the EMS 16 to wrap the lower part.

In addition, a plurality of through holes 10a and 10b are formed in a predetermined portion of the substrate 10 so that the upper and lower emsi 16 may be integrally connected to the substrate 10 during molding. A rectangular stepped groove 10c is formed in the center of the substrate 10 so as to lower the height of the package by lowering the height of the semiconductor chip 13 attached to the substrate 10.

In the drawings, reference numeral 17 is an upper mold, 18 is a lower mold, 18a is a protrusion formed in the lower mold 18, and 18b is an air hole that sucks air during molding.

Referring to the manufacturing method of the present invention configured as described above is as follows.

Attaching the semiconductor chip 13 to the center of the substrate 10 and a wire connecting the semiconductor chip 13 and the upper conductor pattern 11 formed on the upper surface of the substrate 10 with a wire 14. Bonding to, forming the top and bottom portions of the substrate 10 including the semiconductor chip 13 and the wire 14 except for the lower conductor pattern 12 and molding the EMS 16 to cover the lower conductor pattern, and (12) The manufacturing process of the BIGEEE package which proceeds in the order of attaching each solder ball 15 is the same as the general manufacturing order.

Here, the present invention is to prevent the warpage of the wire 14 by injecting the EM 15 in the upper and lower portions of the substrate 10 during the molding step.

In addition, as shown in FIG. 5 at the time of the molding step, in order to prevent the emsi 16 from flowing into the lower conductor pattern 12, the protrusions 18a of the lower mold 18 are disposed. An air hole 18b is formed at the center to maximize the contact force between the protrusion 18a and the lower conductor pattern 12 by sucking air through the air hole 18b during molding.

As described in detail above, the semiconductor package of the present invention is a package that is formed in the surface of the emem is integrally molded so as to surround the upper and lower parts of the substrate and the emsi and the upper and lower asymmetric structure of the conventional package There is an effect of preventing the warpage of, and also by the emsi is injected into the upper and lower portions of the substrate during the molding step, there is an effect of preventing the warpage of the wire, such as to improve the reliability of the entire package.

Claims (5)

The semiconductor package is attached to the center of the substrate is connected to the upper conductor pattern and the wire, the solder ball is attached to the lower conductor pattern of the substrate, the semiconductor package is molded in a certain area including the semiconductor chip and the wire The semiconductor package of claim 12, wherein the EMS is molded to cover upper and lower portions of the substrate except for the solder ball. The semiconductor package of claim 1, wherein a plurality of through holes are formed at predetermined portions of the substrate to connect upper and lower portions of the substrate to an EMS. The semiconductor package according to claim 1, wherein a rectangular stepped groove is formed in the center of the substrate to lower the overall height of the package by lowering the height of the semiconductor chip. Attaching a semiconductor chip to the center of the substrate, a wire bonding step of connecting the semiconductor chip and the upper conductor pattern with a wire, molding the upper and lower parts of the substrate including the semiconductor chip and the wire to be wrapped; In the semiconductor package manufacturing process comprising the step of attaching a solder ball to the lower conductive pattern formed on the lower portion of the substrate, to prevent the emsi to be injected into the upper, lower portions of the substrate to prevent the warping of the wire in the molding step. A semiconductor package manufacturing method characterized in that. The method of claim 4, wherein the molding step has an air hole formed in the center of the protrusion provided in the lower mold in order to prevent the emsi flow into the lower conductor pattern, by inhaling air through the air hole during molding A semiconductor package manufacturing method characterized in that to maximize the contact force between the protrusion and the lower conductor pattern.