KR20050091971A - Manufacturing method for a tape carrier package including alignment keys around film conveying holes - Google Patents

Abstract

A method of manufacturing a tape carrier package using a tape for TCP different in size from a conventional package for TCP is disclosed. TCP manufacturing method according to an embodiment of the present invention, while maintaining a constant gap on both ends of the tape for TCP, a plurality of transport holes, between the transport hole and / or adjacent to the transport hole formed in the longitudinal direction of the TCP tape As a manufacturing method of TCP in which the copper foil pattern is formed in the center of the alignment key formed on the tape for TCP, and the effective area whose total width of the copper foil pattern is 28 mm-30 mm, the width of the tape for TCP is After the package process is performed using the one between 40 mm and 42 mm, the both ends of the tape for TCP are cut out so that the width of the tape for TCP is between 34 mm and 36 mm.

Description

Manufacturing method for a tape carrier package including alignment keys around film conveying holes}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tape for a tape carrier package (TCP), and more particularly to a tape including a tape used to mount liquid crystal display drive integrated circuits (LDI). It relates to a manufacturing method.

In general, a tape carrier package (TCP) refers to a technology of attaching a metal pattern tape and a metal bump integrated circuit chip on an insulating polymide film, and then bonding and sealing it. The manufacturing method of the tapered carrier package is a bumping process in which gold is plated at a constant height for inner lead bonding to each pad on the semiconductor chip, and a semiconductor chip (die) Sawing process to cut the wire, inner lead bonding process to bond bump of chip pad and lead of TCP tape with strong pressure and heat to form electric conductive path and to protect inner lead bonded chip from outside Potting process of sealing with solder resist (SR) and marking process of printing manufacturing date and product name on the surface of the potted product.

In general, TCP tapes are internationally standardized to 35 mm, 48 mm, and 70 mm depending on their width. Each tape has an effective area that can be used when designing a pattern. For example, a 35 mm, 48 mm, and 70 mm tape can be used as an effective area up to about 29 mm, 42.2 mm, and 60.2 mm. Areas other than the effective area of the tape for TCP are used as hole regions for conveying tape. In the conveying hole region, a plurality of holes for conveying the tape are formed at regular intervals at both ends of the tape in the longitudinal direction. In addition, an alignment key for a patterning process for forming a metal pattern, a solder resist process, and a photoresist process is also formed on the tape for TCP.

However, depending on the type of integrated circuit chip to be mounted or the purpose of the TCP package, there are products in which the effective area required for the TCP package reaches a level substantially similar to the maximum effective area described above. In the case of such a product, all or part of the above-described alignment key is located between the transport holes or in close proximity to the transport holes. In this case, the alignment key may be contacted by a transfer device or an accessory during the transfer of the TCP tape, and damage may occur.

In order to prevent damage in this case, a tape wider than the conventional tape is used. For example, if the size of the effective area is about 28 mm or slightly larger than the maximum effective area, a tape having a width of 35 mm cannot be used to prevent damage to the alignment key or copper foil pattern formed between the transfer holes. However, you should use a tape for TCP with a width of 48mm. However, if a TCP tape having a width of 48 mm is used for a TCP having an effective area of 28 mm, many unnecessary areas are generated at the edges and should be cut off when the TCP manufacturing process is completed. As a result, a lot of material waste is generated, which in turn raises the price of the TCP product, thereby reducing the price competitiveness.

In addition, in order to solve the problem of tearing the tape for TCP during transfer, the tensile strength is increased by leaving copper foil in the transfer hole region. In this case, a photoresist is applied to the vicinity of the transfer hole, and then a patterning process is performed. You must proceed. Therefore, in order to leave a copper foil pattern between holes, there exists a problem that the transfer hole area | region of a TCP tape cannot be used as a transfer hole.

The technical problem to be achieved by the present invention can be used for TCP having an effective area that is almost equal to or slightly larger than the maximum effective area of the conventional TCP, to secure the price competitiveness of TCP by preventing unnecessary waste of TCP tapes It is to provide a manufacturing method of TCP using a tape for TCP that can improve the productivity.

TCP manufacturing method according to an embodiment of the present invention for achieving the above technical problem is a plurality of transport holes are formed in the longitudinal direction of the TCP tape while maintaining a constant interval on both ends of the TCP tape, the The copper foil pattern is formed in the center of the alignment tape and the TCP tape formed between the transfer holes and / or adjacent to the transfer hole, and the overall width of the copper foil pattern is 28 mm to 30 mm. The present invention relates to a method for manufacturing a TCP that requires an effective area, and the TCP package process is performed using a TCP tape having a width of 40 mm to 42 mm. That is, the TCP package process is performed using a tape for TCP having a width of about 40 mm to about 42 mm, and then both ends of the package for TCP are cut to have a width of about 35 mm in a conventional size such as about 35 mm. Manufacture TCP.

TCP manufacturing method according to another embodiment of the present invention for achieving the above technical problem is a plurality of transport holes are formed in the longitudinal direction of the TCP tape while maintaining a constant interval on both ends of the TCP tape, the The copper foil pattern is formed in the center of the TCP tape and the alignment key formed between the transfer holes and / or adjacent to the transfer hole, and the entire width of the copper foil pattern is 41 mm to 43 mm. The present invention relates to a method for manufacturing a TCP that requires an effective area, and uses a TCP tape having a width of 58 mm to 60 mm to perform a TCP package process.

Specific details of other embodiments are included in the detailed description and the drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided by way of example so that the technical spirit of the present invention can be thoroughly and completely disclosed, and to fully convey the spirit of the present invention to those skilled in the art. In the drawings, the thickness of layers and / or the size of regions are exaggerated for clarity. Like numbers refer to like elements throughout.

1 shows a top and side view side by side of a tape carrier package (TCP) 100 made according to a preferred embodiment of the present invention. Referring to FIG. 1, the TCP 100 is electrically connected to the tape 110 for TCP, the copper foil pattern 120 formed on the tape 110 for TCP, and the copper foil pattern 120. A semiconductor chip 130 such as an LCD driving integrated circuit connected thereto, and a solder resist 140 sealing the semiconductor chip 130 may be included. And, the transfer holes are formed at regular intervals at both ends of the TCP tape 110.

The copper foil pattern 120 includes various alignment keys to constitute various conductive patterns. For example, the copper foil pattern 120 may include an alignment lead 122a for bonding an outer lead and an external lead, a test pattern under the recognition key 122b 122c, and an alignment key 122d for forming a test pattern. ), And other alignment keys for a potting process, a solder resist process, a chip mounting process, and an exposure process. In addition, the copper foil pattern 120 includes various patterns for electrically connecting the bumper of the semiconductor chip 130 to an external reader.

2A and 2B sequentially disclose a manufacturing method of TCP according to a preferred embodiment of the present invention.

Referring to Fig. 2A, the width w ₁ of the TCP tape 110 is different from that of the TCP tape according to the prior art. For example, when the width w _e of the TCP effective area defined by the copper foil pattern 120 is about 27 mm to about 29 mm as in the related art, the width w ₁ of the TCP tape 110 to be used is More preferably, about 40 mm to 42 mm. When the width w _e of the TCP effective area is about 41 mm to about 43 mm as in the related art, the width w ₁ of the TCP tape 110 to be used is about 58 mm to 60 mm. As described above, when the width w _e of the TCP effective area is too large or too small to be used for the TCP tape according to the conventional standard, by using a TCP tape having an appropriate size width, The reliability can be improved, and the waste of unnecessary materials can be minimized or prevented.

Subsequently, a package process is performed on the above-described TCP tape 110 using the same process as that of the TCP manufacturing method according to the prior art. For example, after patterning the copper foil on the tape 110 for TCP, the chip | tip is adhere | attached at high temperature and high pressure, and a soldering resist coating process etc. are performed.

Referring to Figure 2b, the cutting process is performed on the result of the TCP process is completed. The cutting process is a process of cutting out the hole area for conveyance in which no pattern is formed. In this embodiment, since the amount of the TCP tape 110 cut out in the process can be reduced to a minimum, waste of the TCP tape 110 can be minimized. As a result of the cutting process, the width w ₂ of the TCP tape 110a is about 35 mm to meet the standard. Subsequently, when the transfer hole is formed at the end of the TCP tape 110a, the conventional TCP is completed.

According to the present invention, by using a tape having a suitable size different from the conventional one for TCP, it is possible to prevent waste of materials and to reduce production costs, thereby improving the price competitiveness of TCP. In addition, since the TCP package is manufactured by applying the same mechanism as the existing process, since the conventional equipment can be used, there is almost no burden of cost investment.

1 is a plan view and side view of a tape carrier package made according to an embodiment of the present invention.

2A and 2B are schematic conceptual views illustrating a method of manufacturing a tape carrier package according to an embodiment of the present invention.

Claims (2)

A transfer hole formed in the longitudinal direction of the TCP tape while maintaining a constant gap at both ends of the TCP tape; An alignment key formed on the TCP tape between the transfer holes and / or adjacent the transfer holes; And In the manufacturing method of TCP in which the copper foil pattern is formed in the center of the said tape for TCP, and the effective area whose total width of the said copper foil pattern is 28 mm-30 mm is needed, Performing a package process using a width of the tape for TCP between 40 mm and 42 mm; And And cutting both ends of the TCP tape so that the width of the TCP tape is between 34 mm and 36 mm. A transfer hole formed in the longitudinal direction of the TCP tape while maintaining a constant gap at both ends of the TCP tape; An alignment key formed on the TCP tape between the transfer holes and / or adjacent the transfer holes; And In the manufacturing method of TCP which requires the effective area whose total width of the said copper foil pattern is 41 mm-43 mm, while the copper foil pattern is formed in the center of the said tape for TCP, Performing a package process using a width of the tape for TCP between 58 mm and 60 mm; And And cutting the both ends of the tape for TCP so that the width of the tape for TCP is between 50 mm and 52 mm.