KR20000061357A - structure for semiconductor-package and manufacture method of it - Google Patents

Abstract

PURPOSE: A method for manufacturing a semiconductor package is provided to embody a chip scale package(CSP) semiconductor package while easily stacking a plurality of semiconductor packages, by improving the structure of a lead-on-chip(LOC) package. CONSTITUTION: A method for manufacturing a semiconductor package comprises the steps of: bonding a side of a bonding part of a connecting terminal to a surface of an internal lead(2a) forming a lead frame with a bonding material; bonding a surface of a semiconductor chip to the internal lead with a bonding material when the semiconductor package is formed as a lead-on-chip(LOC) type; electrically connecting an end portion of the internal lead of the lead frame with a pad of the semiconductor chip with a wire; and sequentially molding the rest of the semiconductor chip excluding the side surface connected to an external terminal among respective bonding parts of connecting terminal, the lead frame and the wire with a molding material(4).

Description

Structure for semiconductor-package and manufacture method of it}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of semiconductor packages, and more particularly, to improve the structure of a general lead on chip (LOC) type semiconductor package and to further reduce the size thereof, and to stack a plurality of packages. I would have to.

In recent years, the importance of semiconductor packages is increasing due to the acceleration of high integration of semiconductor devices, increase in memory capacity, increase in signal processing speed and power consumption, demand for multifunctionality, and high density mounting.

Such a semiconductor package has various kinds according to its shape, size, and various other requirements. Among these semiconductor packages, a lead-on-chip (hereinafter, referred to as "LOC") type semiconductor package will be described below.

In general, as shown in FIG. 1, in the LOC semiconductor package 10, a lead frame 2 is directly contacted with an adhesive 3 such as epoxy to the bottom of the semiconductor chip 1. The molding is achieved by an epoxy molding compound (hereinafter referred to as "molding material") (4).

At this time, the lead frame is located on the inside of the mold material 4, and the inner lead 2a attached to the bottom surface of the semiconductor chip and the outside of the mold material. As an external lead (outer lead) 2b mounted on an external connection terminal such as a main board is integrated with each other, the inner lead is a wire (generally Au / Al wire is mainly used) (5) as a semiconductor chip ( It is electrically connected with the pad 1a which is the electrode terminal of 1).

In addition, the pad 1a of the semiconductor chip 1 is formed in the center portion of the chip so that the inner lead 2a of the lead frame 2 can be attached to the bottom of the chip without affecting the pad. Bonding of the wires 5 together can also be performed smoothly, and the inner leads are integrally connected to the outer leads 2b, thereby making electrical connections with the separately configured outer connecting terminals.

However, according to the conventional LOC semiconductor package 10 as described above, as the external lead 2b connected to the external input / output terminals is formed to protrude outward through the side of the mold material 4, the semiconductor package as described above. When the package 10 is mounted on the PCB, the overall mounting area becomes larger than the size of the semiconductor package.

Accordingly, it is almost impossible to narrow the mounting area of the LOC semiconductor package as described above, such as a chip scale package (CSP), to the size of the semiconductor chip.

In addition, considering that the current general trend is that a plurality of semiconductor packages are stacked and electrically connected to each other so that more semiconductor packages can be mounted in a narrower mounting area, the above-described LOC semiconductor packages have a mutually stacked structure. As it is configured to be complex, there is a problem that it is not easy to apply to the current trend as described above.

In addition, when the above-described LOC semiconductor package is mounted on a printed circuit board (PCB) or the like, the reliability of the connection is very poor as mounting is performed on the external lead constituting the lead frame of the LOC semiconductor package by soldering or the like. There is also a problem.

The present invention has been made to solve the above-mentioned conventional problems, to improve the structure of the LOC-type semiconductor package to be implemented as a CSP semiconductor package and to easily stack and use a plurality of semiconductor packages There is a purpose.

1 is a cross-sectional view showing a conventional general LOC type semiconductor package

2 is a cross-sectional view showing a LOC type semiconductor package for a single package according to the present invention.

3 is a cross-sectional view showing a LOC type semiconductor package for a multilayer package according to the present invention.

4 is a perspective view showing a connection terminal according to the present invention

Figure 5a is a block diagram showing a state in which the connection terminal is attached to a typical lead frame

5B is a diagram illustrating a state in which a semiconductor chip is mounted on a lead frame with a connecting terminal;

5C is a diagram illustrating a state in which a lead frame and a semiconductor chip are bonded by wires;

5D is a diagram illustrating a state of molding a wire bonded semiconductor chip and a lead frame;

6 is a block diagram showing a state in which each semiconductor package according to the invention stacked on each other

Explanation of symbols for main parts of the drawings

20. Connector 30. Solder ball

According to an aspect of the present invention for achieving the above object, in a semiconductor package in which a lead frame and a semiconductor chip are connected to each other by a wire, and the lead frame, the semiconductor chip, and the wire are molded by a mold material, One surface of the lead frame positioned inside the mold material may be exposed to the outside so that the signal of the semiconductor chip may be transmitted to the external terminal, and the outer circumferential surface thereof is molded together with the other components by the mold material. Provided is a structure of a semiconductor package, characterized in that it comprises a connection terminal.

In addition, in order to manufacture the semiconductor package as described above, the connecting terminal bonding step of bonding one side of the connecting terminal made of a conductive material to any one surface of the inner lead constituting the lead frame with an adhesive member, and the lead frame configured as described above A wire bonding step of electrically connecting the end of the inner lead of the semiconductor chip to the pad of the semiconductor chip, and after the wire bonding step, the remaining portions except for the side connected to the external terminal, the semiconductor chip, the lead frame, There is provided a method of manufacturing a semiconductor package, characterized in that a molding step of molding a wire or the like as a molding material is performed sequentially.

Hereinafter, with reference to the accompanying Figures 2 to 6d showing the configuration of the present invention as an embodiment in more detail as follows.

2 is a cross-sectional view showing a LOC type semiconductor package for a single package according to the present invention, Figure 3 is a cross-sectional view showing a LOC type semiconductor package for a laminated package according to the present invention, Figure 4 is a connecting terminal according to the present invention 5A to 5D are schematic views showing the manufacturing process of the semiconductor package according to the present invention, and FIG. 6 is a schematic view showing the stacked state of each semiconductor package according to the present invention. One surface of the frame 2 is exposed to the outside so that the signal of the semiconductor chip 1 can be transferred to the external terminal on one side of the inner lead 2a, and the outer circumferential surface thereof is formed by the mold material 4 and the other components. The connection terminals 20 molded together are attached by an adhesive member 3a such as a conductive adhesive.

In addition, a solder ball 30 is attached to a surface exposed to the outside of each part of the connection terminal to facilitate the stacking with other semiconductor packages or mounting on a substrate such as a printed circuit board (PCB) 40. .

At this time, the connection terminal 20 as described above forms the body 21 as a hollow inside as a whole to allow the inflow of the adhesive therein, the both ends of the plate-shaped attachment portion 22 It is formed so that the contact with the other part (the surface of the other component to be joined with the connecting terminal) can be made smoothly.

In addition, the solder ball 30 attached to the connection terminal allows the signal of the semiconductor chip 1 to be connected to the PCB 40 or other circuits through the connection terminal 20 and the size of the solder ball 30 is external to the lead frame. As it is very small compared to the lead 2b, not only the mounting area of the semiconductor package can be reduced, but also the mounting force of the semiconductor package is superior to that of the existing lead frame and the PCB.

On the other hand, the semiconductor package configured as described above may be a number of cases, such as when used as a single piece itself and when two or more semiconductor packages are laminated to each other, of which the semiconductor package is used as a single piece or stacked and used In the case of a semiconductor package whose position is stacked on the uppermost side of the other semiconductor package, a method such as singulation of the lead frame other than the lead frame molded inside the mold material, that is, the outer lead 2b of the lead frame is singulated. Cut with

On the other hand, when two or more semiconductor packages are stacked and used, except for semiconductor packages stacked on the top of each semiconductor package where the positions are stacked, the other semiconductor package is formed at the end of the outer lead 2b constituting each package. It is bent to a position corresponding to the connection terminal along the mold material 4 surface of the semiconductor package so that the connection terminal 20 of the package can correspond to the position.

Hereinafter, the present invention will be described in more detail based on a method for manufacturing a lead-on-chip (LOC) type semiconductor package among the semiconductor packages having the above structure.

First, a connection terminal 20 made of a conductive material is attached to one surface of the inner lead 2a constituting the lead frame 2 with the conductive adhesive 3a.

At this time, the connection terminal is preferably configured separately from the other components for mass production, the connection terminal 20 is configured as shown in the upper surface of the inner lead (2a) of the lead frame 2 as shown And attach in a state perpendicular to the surface of the inner lead.

One surface of the semiconductor chip 1 is attached to the inner lead 2a of the lead frame 2 configured as described above with an adhesive 3 such as a conductive adhesive, and then the end of the inner lead and the pad 1a of the semiconductor chip. The liver is electrically connected with a wire 5.

Subsequently, molding is performed for the protection of the semiconductor chip and the wire by inserting the molding material 4 into the molding material 4 using the molding device 50. At this time, the connection terminal attached to the inner lead 2a of the lead frame is formed. The opposite side of the side attached to the inner lead 2a, that is, one side of 20, i.e., the upper side in the drawing, should be exposed to the outside of the semiconductor package. The process is complete.

After the above process is completed, the post-process is performed. In this case, since the process is different according to the use purpose of the semiconductor package, the progress of the process according to each situation will be described in more detail as follows.

First, when the semiconductor package is configured as a single product, the external lead 2b of the lead frame 2 is cut by performing a singulation operation after performing each of the aforementioned processes.

By attaching the solder ball 30 to the connection terminal 20 exposed to the outside of the semiconductor package, it is electrically connected to an external input / output terminal such as the PCB 40 through the connection terminal 20 instead of the external lead 2b. Because you can connect to.

At this time, the electrical connection between the connection terminal and the PCB, first, after attaching the solder ball 30 to the connection terminal 20 exposed to the outside of the semiconductor package with an adhesive member (3a) such as an adhesive, BGA (Ball Grid Array) Just like a semiconductor package, it simply sits on the PCB.

Second, when the semiconductor package described above is stacked, the molding of the semiconductor package is performed, and then the forming of the lead frame 2 is performed so that the ends of the external leads 2b are exposed on the side surfaces of the connection terminals 20. It bends and forms in close contact with the surface of the semiconductor package on the opposite side.

This is to allow stacking of a plurality of semiconductor packages, unlike the case of the semiconductor package of a single unit described above.

That is, in the state in which the two semiconductor packages are stacked on each other as shown in FIG. 6, the connecting terminal 120 mounted on the PCB is a semiconductor package (hereinafter, referred to as a “first package”) 100 positioned on the lowermost side. In addition, the lead frame constituting the first package 100 as described above should be configured to be electrically connected to the semiconductor package (hereinafter, referred to as a “second package”) 200 directly stacked on the upper side thereof. Unlike the single package, the external lead 102b of the 102 is formed without prior singulation, and thus the end of the external lead 102b of the first package is connected to the connection terminal of the second package 200. That is, to form a position corresponding to 220, the upper surface of the first package 100 as shown.

At this time, the outer lead 102b of the first package is preferably in a state of being in close contact with the surface of the mold member 104, which reduces the overall size (volume) and makes contact with other external materials. This can be prevented as much as possible.

Meanwhile, as described above, when two or more semiconductor packages are to be stacked on each other in a state where the configuration of each stacked semiconductor package is completed, first, each connection terminal 120 and 220 of each semiconductor package 100 and 200 is used. After attaching the solder ball 30 to the first package 100 positioned at the bottom is mounted on the PCB 40, the second package 200 is the first package mounted on the PCB Lamination is performed by mounting on the upper part of (100).

At this time, the stack between each package (100, 200) is in close contact with the connection terminal 220 of the second package 200 on the upper side to the outer lead (102b) of the first package 100 mounted on the PCB. This is done by reflowing each other after loading.

In addition, in the case where the stacking of more semiconductor packages is desired, another semiconductor package on the upper side of the second package 200 among the stacked semiconductor packages 100 and 200 may be the same as the method described above. Can be easily achieved by repeating sequentially.

Meanwhile, the single or stacked semiconductor package as described above can be applied to a semiconductor package in which die paddles are formed in a lead frame of the semiconductor package, instead of only a LOC type semiconductor package. It is understood that the present invention is not limited to the above-described LOC type semiconductor package configuration.

As described above, the present invention improves the structure of the semiconductor package of the LOC type so that the mounting area can be reduced to the minimum when the individual package is used, and the stacking is easily performed even when a plurality of semiconductor packages are stacked.

In addition, the present invention has the effect of increasing the overall mounting efficiency, such as by making the operation easier by mounting directly on the PCB or the like using a solder ball.

Claims (7)

In a semiconductor package in which a lead frame and a semiconductor chip are connected to each other by a wire, and the lead frame, the semiconductor chip, and the wire are molded by a mold material, One surface of the lead frame positioned inside the mold material may be exposed to the outside so that a signal of the semiconductor chip may be transmitted to an external terminal, and the outer circumferential surface thereof is molded together with other components by the mold material. The structure of a semiconductor package, characterized in that provided with a connection terminal. The method of claim 1, The structure of the semiconductor package characterized in that the solder ball is attached to one side of the connection terminal exposed to the outside so that the solder ball can be laminated with other semiconductor packages or mounted on a substrate such as a printed circuit board (PCB). . The method of claim 2, The connecting terminal is formed in a hollow cylindrical shape as a whole to allow the inflow of adhesives therein, and both ends are formed integrally with a flat plate-shaped attaching part so that mounting to the lead frame and external connection position can be made stably. The structure of the semiconductor package characterized by the above-mentioned. The method according to any one of claims 1 to 3, In the case where two or more semiconductor packages configured as described above are used, the external lead ends of the semiconductor packages to be stacked may be connected to the connection terminals along the mold material surface of the semiconductor package so as to correspond to the surface where the connection terminals of the other semiconductor packages are located. A structure of a semiconductor package, which is bent long to a corresponding position. A connecting terminal bonding step of attaching one side of the connecting terminal made of a conductive material to one side of the inner lead constituting the lead frame with an adhesive member; A semiconductor chip mounting step of bonding one surface of the semiconductor chip to one surface of the inner lead as an adhesive member when the semiconductor package is configured as a lead-on chip; A wire bonding step of electrically connecting between the inner lead end of the lead frame configured as described above and the pad of the semiconductor chip with a wire; Manufacturing of a semiconductor package characterized in that the molding step of molding the remaining portion except the side connected to the external terminal of the connection terminal and the semiconductor chip, lead frame, wire, etc. as a molding material after the wire bonding step is performed sequentially Way. The method of claim 5, The singulation step of cutting the external lead of the lead frame by performing a singulation (singulation) after the molding in the case of configuring the above-described semiconductor package in a single unit, And a solder ball attaching step of attaching a solder ball to the externally exposed connection terminal after the singulation step. The method of claim 5, When forming a plurality of semiconductor packages to be stacked to use a step of forming (molding) after the molding step (form) forming the outer lead end of the lead frame to be located on the opposite side of the connecting terminal, Attaching solder balls to the connection terminals exposed to the outside after the forming step; And contacting an external lead of another semiconductor package with a connection terminal of the semiconductor package to which the solder balls are attached.