Memory cards and method of fabricating the memory cards

Provided are a memory card and a method of fabricating the memory card. The memory card includes: a printed circuit board including conductive wires exposed to at least a portion of an outer wall of the printed circuit board; at least one electronic device mounted on the printed circuit board; and a molding part sealing the at least one electronic device on the printed circuit board and the conductive wires exposed to the outer wall of the printed circuit board, and simultaneously exposing at least a portion of the outer wall of the printed circuit board.

CROSS-REFERENCE TO RELATED PATENT APPLICATION

This application claims the benefit of Korean Patent Application No. 10-2004-0098367, filed on Nov. 27, 2004, in the Korean Intellectual Property Office, the disclosure of which is incorporated herein in its entirety by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a semiconductor device, and more particularly, to a memory card used in a mobile product and a method of fabricating the memory card.

2. Description of the Related Art

With the recent development of mobile products, applications of memory devices have been expanded. In particular, memory cards are expected to be greatly developed and to be given a great deal of weight on new field of semiconductor industry. Institutional safeties have been provided to protect the copyright of software with the wide-range popularization and development of the Internet. Also, several types of memory cards have been developed so as to complement the security of the memory cards.

Several types of compact, light memory cards are currently used as data storage of multimedia. For example, multimedia cards (MMCs) are provided. In the MMCs, memory devices and control devices are mounted on printed circuit boards (PCBs) and electrically connected to the PCBs using wire-bonding and protected using molding and capping, to thereby interface with a host device using a small number of signals.

FIG. 1is a cross-sectional view of a conventional lid type memory card. Referring toFIG. 1, a semiconductor chip14is mounted in a predetermined position of a PCB10via an adhesive part12, and an external terminal of the semiconductor chip14is electrically connected to a specific circuit terminal formed in the PCB10via bonding wires18. A passive device16is mounted in a specific position of the PCB10according to the design. The semiconductor chip14is mounted as an electronic device on the PCB10. However, package type electronic devices may be mounted on the PCB10. Alternatively, the semiconductor chip14and the package type electronic devices may be mounted on the PCB10.

After a bonding process performed on the semiconductor chip14is finished, the semiconductor chip14or the passive device16is sealed by a sealing part20formed of a sealing compound. Thereafter, the semiconductor chip14or the passive device16is cut as individual memory cards and then finally capped with a lid22so as to be physically and chemically protected from the external environment.

The above-described lid type memory card requires a large number of fabricating processes. Thus, the lid type memory card increases cost and is poor in terms of the high integration of electronic devices.

FIG. 2is a cross-sectional view of a chip scale package (CSP) type memory card. Referring toFIG. 2, unlike the conventional lid type memory card shown inFIG. 1, the lid22that is a final protecting structure is not formed. Thus, compared to the conventional lid type memory card, a number of fabricating processes is reduced. As a result, cost is reduced. However, an electrostatic discharge characteristic is deteriorated. In other words, to form the PCB10, a copper foil is compressed on a side or both sides of an insulating plate formed of a phenol resin, an epoxy resin, or the like. Next, a pattern is formed depending on a designed circuit, and an unnecessary portion is eroded to remove the copper foil. Hole or viaholes are formed to electrically connect lids of several types of electronic products mounted on the PCB10, and plating wires are formed. Here, the plating wires are exposed to the side of the edge of the PCB10. When moisture exists among the plating wires exposed to the external environment, the moisture forms an electric conductive line. Thus, static electricity is discharged among the plating wires. As a result, an ESD characteristic is deteriorated.

SUMMARY OF THE INVENTION

The present invention provides a memory card removing a lid to reduce a number of fabricating processes, basically maintaining CSP type to minimize an effective area of a PCB, maximizing a space in which an electronic device is to be mounted to realize high integration, and preventing the deterioration of an ESD characteristic that is a problematic in a CSP type memory card and a method of fabricating the memory card.

According to an aspect of the present invention, there is provided a memory card including: a printed circuit board including conductive wires exposed to at least a portion of an outer wall of the printed circuit board; at least one electronic device mounted on the printed circuit board; and a molding part sealing the at least one electronic device on the printed circuit board and the conductive wires exposed to the outer wall of the printed circuit board, and simultaneously exposing at least a portion of the outer wall of the printed circuit board.

The printed circuit board may be square, and the conductive wires may be exposed to at least one side of the outer wall of the printed circuit board, at least one corner of the outer wall of the printed circuit board, or at least one side and at least one corner of the outer wall of the printed circuit board.

According to another aspect of the present invention, there is provided a memory card including: a printed circuit board including a main board, an upper photo solder resist formed on an upper surface of the main board, and a lower photo solder resist layer formed on a lower surface of the main board, a portion of the lower photo solder resist being removed by a predetermined width from an edge of a lower surface of the printed circuit board; at least one electronic device mounted on the printed circuit board; and a sealing part sealing the at least one electronic device on the printed circuit board and extending to fill the removed portion of the lower photo solder resist layer of the printed circuit board.

A whole portion of the lower photo solder resist layer may be removed by a predetermined width along the edge of the lower surface of the printed circuit board, or a portion of the lower photo solder resist layer may be removed by a predetermined width along the edge of the lower surface of the printed circuit board. The conductive wires may be exposed to a corner of an outer wall of the main board of the printed circuit board at the removed portion of the lower photo solder resist layer, and the molding part seals the conductive wires.

According to still another aspect of the present invention, there is provided a method of fabricating a memory card including: providing a printed circuit board comprising conductive wires exposed to at least a portion of an outer wall of the printed circuit board; mounting at least one electronic device on the printed circuit board; and forming a molding part sealing the at least one electronic device on the printed circuit board and the conductive wires exposed to the outer wall of the printed circuit board and exposing at least a portion of the outer wall of the printed circuit board.

According to yet another aspect of the present invention, there is provided A method of fabricating a memory card including: providing a printed circuit board comprising a main board, an upper photo solder resist layer formed on an upper surface of the main board, and a lower photo solder resist layer formed on a lower surface of the main board; removing the lower photo solder resist layer by a predetermined width from an edge of a lower surface of the printed circuit board; mounting at least one electronic device mounted on the printed circuit board; and forming a sealing part sealing the at least one electronic device on the printed circuit board and extending to fill the removed portion of the lower photo solder resist layer of the printed circuit board.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 3is a cross-sectional view of a memory card according to an embodiment of the present invention,FIG. 4is a plan view of the memory card shown inFIG. 3,FIG. 5is a bottom view of the memory card shown inFIG. 3, andFIG. 6is an expanded view of portion A shown inFIG. 3.

Referring toFIGS. 3 through 6, a semiconductor chip44is mounted in a predetermined position of a PCB40via an adhesive part42, and an external terminal of the semiconductor chip44is electrically connected to a specific circuit terminal formed in the PCB40via bonding wires49. A semiconductor package46is mounted in a specific position of the PCB40so as to be electrically connected to a specific circuit terminal in the PCB40via a lead part47according to the design.

In the PCB40, a main board40aincluding interconnections formed in advance according to the design is disposed in the center, an upper photo solder resist (PSR) layer40bis printed on an upper surface of the main board40a, and a lower PSR layer40cis printed on a lower surface of the main board40a. The PSR layer is an invariable ink that is an invariable compound durable to physical and chemical external environments, is coated on a copper foil plated circuit to protect the copper foil plated circuit and to prevent a solder bridge from being generated between circuits in a wave soldering process performed during mounting of an electronic device.

The semiconductor chip44may be mounted on a surface of the PCB40using a chip-on-board (COB) method and then sealed using an additional molding process. Alternatively, a semiconductor package46may be mounted using surface mount technology (SMT), and then a sealing part48may be formed using a molding material, i.e., an epoxy molding compound, so as to seal the semiconductor chip44and the semiconductor package46at a time. The sealing part48extends so as to seal an electronic device mounted on the PCB40, i.e., the semiconductor chip44or the semiconductor package46, and plating wires50exposed to an outer wall of the PCB40.

In other words, to form the PCB40, a copper foil is compressed on a side or both sides of the main board40aformed of an insulating plate made of a phenol resin, an epoxy resin, or the like. Next, patterns (wires) are formed according to a designed circuit, and an unnecessary portion is eroded to remove the copper foil. Holes or viaholes and the plating wires50are formed to electrically connect leads of several types of electronic parts mounted on the PCB40. Here, the plating wires50are exposed to a marginal side of the PCB40. The plating wires50exposed to the outer environment including moisture deteriorates the ESD characteristic as described in the prior art. Thus, as shown inFIGS. 4 and 5, the exposed portions of the plating wires50are sealed by an extended portion of the sealing part48so as to be intercepted from the outer environment.

As shown inFIG. 6, the plating wires50are exposed to the outer wall of the PCB40at which the sealing part48extends. Also, a portion of the lower PSR layer40cis removed along the edge of the outer wall of the PCB40so as to have a predetermined width. The sealing part48extends to fill the removed portion of the lower PSR layer40c. In general, the outer wall of the PCB40is molded using a molding material instead of capping a portion of the PCB40during a molding process of molding an outer round of a memory card in the manufacture of the memory card. Here, a mold flash is generated below a sidewall of the PCB40to cause the badness of the external appearance of the memory card. Thus, if the lower PSR layer40cis removed by a predetermined width along a lower edge of the PCB40prior to the molding process to secure a space, and then the molding process is performed, the mold flash may flow into the space to prevent the badness of the external appearance of the memory card due to the mold flash.

Electronic devices may be mounted on the PCB40in various shapes.FIG. 7is a cross-sectional view of a memory card according to another embodiment of the present invention. In the memory card, the semiconductor chip44is mounted on the PCB40using the COB method. Also, a molding part48is formed to be extended at a portion of the outer wall of the PCB40to which conductive wires (not shown) are exposed.FIG. 8is a cross-sectional view of a memory card according to still another embodiment of the present invention. In the memory card, the semiconductor package46is mounted on the PCB40using the SMT. Also, the molding part48extends along the outer wall of the PCB40to which conductive wires50are exposed. Also shown inFIGS. 7 and 8is a passive device45.

In the memory card shown inFIG. 3, the semiconductor chip44may be mounted using the COB method, and the semiconductor package46may be mounted using the SMT.

The conductive wires exposed to the outer wall of the PCB40may concentrate on opposite two sides of the outer wall of the PCB40as shown inFIG. 5or may concentrate on slanting sides of corners of the outer wall of the PCB40as shown inFIG. 9. The conductive wires may concentrate on a side of the outer wall of the PCB40as shown inFIG. 10or may concentrate at a corner of the outer wall of the PCB40as shown inFIG. 11. Referring toFIGS. 9 through 11, a hatched portion of the molding part48denotes an extended portion of the molding part48sealing exposed conductive wires in a memory card and a portion of the molding part48filling a removed portion of the lower PSR layer40cof the PCB40.

A method of fabricating a memory card according to an aspect of the present invention will now be described in brief. A PCB including conductive wires exposed to at least a portion of an outer wall of the PCB is provided. Next, at least one electronic device is mounted on the PCB using various known techniques. A molding part is formed to seal the at least one electronic device on the PCB and the conductive wires exposed to an outer wall of the PCB, and to expose at least a portion of the outer wall of the PCB.

In a method of fabricating a memory card according to another aspect of the present invention, a PCB is provided. The PCB includes a main board, an upper PSR layer formed on an upper surface of the main board, and a lower PSR layer formed on a lower surface of the main board. Next, the PSR layer is removed from an edge of a lower surface of the PCB by a predetermined width. Thereafter, at least one electronic device is mounted on the PCB and sealed, and a sealing part is formed to be extended so as to seal the at least one electronic device on the PCB and fill the removed portion of the lower PSR layer of the PCB.

As described above, in a memory card and a method of fabricating the memory card according to the present invention, a lid of the memory card is not formed. Thus, a number of processes of fabricating the memory card can be reduced. Also, the memory card can be fabricated as a CSP type in which an outer side of the PCB is exposed except a portion extended to seal the conductive wires. Thus, cost can be reduced. In addition, an effective area of the PCB can be minimized. Moreover, a space for mounting an electronic device can be maximized to pursue the high integration of the memory card. Furthermore, a sealing part can seal the conductive wires exposed to the outer wall of the PCB. As a result, an ESD characteristic can be prevented from being deteriorated due to the external environment including moisture and the like.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. In other words, a memory card according to the present invention may be formed as a CSP type in which a molding part may be formed to be extended at an outer wall of a PCB to which at least conductive wires are exposed but may not mold the outer wall of the PCB.