JPH0439958A - Tape carrier package - Google Patents

Abstract

PURPOSE:To secure the precision of packaging on a printed board with bending suppression of leads by providing insulator films which retain a plurality of leads extending from the semiconductor package body with gaps between adjacent leads. CONSTITUTION:A semiconductor package body 1 comprises a semiconductor LSI sealed with resin to a circuit consisting of a conductor metal foil formed into a desired pattern. Many signal connection leads 2a, 2b, 2c projecting out of the package body 1 are retained by an insulator film 3a with gaps between adjacent leads. This design can provide high precision tape carrier packages and enables high precision packaging to a printed board.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a tape carrier package, and relates to the shape of a tape carrier package, for example, to be mounted on a printed circuit board.

[Prior art] Mounting a tape carrier package onto a printed circuit board is as follows:
In order to ensure the reliability of the soldering parts, it is essential to ensure the accuracy of the resin seal + the lead protruding from the h part.No.5
The figure is a plan view showing a conventional tape carrier package, and FIG. 6 is a side view. In the figure, (11 is the semiconductor package body, (2) is a route for taking out signals from the semiconductor LSI, and is a conductive metal, such as !+! foil.The semiconductor package body (1) is a semiconductor package body (1) with a desired pattern. A semiconductor LSI is sealed with resin in a circuit made of a conductive metal foil formed on a conductive metal foil.As shown in Fig. 6, the REIT (2) is
The conductor package body (11) is bent in the 1--g direction to form a horizontal path that is connected to the wiring pattern on the printed circuit board (not shown).

[Problems to be Solved and Attempted by the Invention] Since the conventional tape carrier package is configured as described above, the reel is in a cantilevered state, so the reel bends when forming the reel, and it is difficult to mount it on a printed circuit board. At times, it was difficult to accurately position the pattern on the substrate. Figure 7 is an enlarged side view of the beam (2) part,
Adjacent leats (2a) and (2bl) are uneven in the bending direction by an amount of R. Fig. 8 is an enlarged plan view of the leat (2) portion.
b) With respect to the standard pitch (p) of (2c), a liet bend occurs and the pitch (Q,).

Q2). As described above, with conventional tape carrier packages, variations in lead pitch (Q, , Q2) and unevenness of the lead (R) occur, making it difficult to mount with high precision on the wiring pattern on a printed circuit board. .

For this reason, it is necessary to correct the bend in the reed, but as the reed pitch becomes finer, correction becomes difficult, and high-precision cutting and shaping of the reed has been desired.

This invention was made to solve the above-mentioned problems, and it is an object of the present invention to provide a tape carrier package that can ensure the pitch accuracy of a plurality of adjacent reets.

[Means for Solving the Problems] A tape carrier package according to the present invention includes a semiconductor package body in which a semiconductor LSI is sealed with a resin in a circuit made of conductive metal foil formed in a desired pattern, and It is equipped with a plurality of elongated leads and an insulating film formed at one end of the lead to maintain a space between adjacent leads.

[Function] Since the insulating film of the present invention holds adjacent leads at intervals, bending of the leads is suppressed and accuracy of mounting onto the printed circuit board can be ensured.

[Example] An embodiment of the present invention will be described below.

FIG. 1 is a perspective view of a portion of a tape carrier package according to an embodiment of the present invention. Further, in FIG. 9, which is a plan view of FIG. 2, (1) is a semiconductor package main body, in which a semiconductor LSI is sealed with resin in a circuit made of conductive metal foil formed in a desired pattern. (2a),
(2b), (2cl is the semiconductor package body (
A large number of signal connection leats protrude from 1) in, for example, 2 or 40,000'directions; (3a) is an insulating film formed at one end of the leat (2) and held at a distance from adjacent leads; It is something.

This tape carrier package is manufactured in a series of tapes as shown in FIG. (4) are square holes machined in the insulating film (5), which are machined at equal pitches on both ends of the insulating film (5), and are used for transporting the insulating film (5). The insulating film (5) is laminated with the reel (2) and supports the semiconductor package main body (1) made of the reel (2) and the resin mold in the form of a tape.

In this example, the insulating film (5) has a thickness of 0.
．． Boimide of about 11 is used. (A) is a cutout portion of the insulating film (5). Did you cut the leat (2) at notch m (A) from this tape? &5 Reed molding to obtain the tape carrier package shown in FIG. At the stage of cutting and shaping the reat (2), the insulating film (5) is cut off while being adhered to the straight portion of the reat tip (3a). Figure 4 shows the state of the side surface after cutting. The insulating film (3a) adhered to the tip of the reet (2) has the effect of suppressing the bending of the reet (2), which has conventionally been in a cantilevered state. For this reason,
The tape carrier package cut from the insulating film (5) and formed into a reel can be mounted on a printed circuit board with high precision. In particular, as the reel pitch becomes finer, the reel width becomes smaller, and the reel thickness becomes thinner, it becomes difficult to ensure the accuracy of the reel (2) of the tape carrier package, making mounting on a printed circuit board extremely difficult. points can be resolved. This example can be achieved by simply changing the cutting position fj when cutting the package in the conventional manufacturing process;
Preferably, the length of the small notch (A) is as shown in FIG.
It is best to make it shorter than the length of Senmereit (2).

Further, the insulating film (3a) left at the tip of the REIT (2) may be soldered and mounted on a printed circuit board in this state.

Although the material of the insulating film (5) is not limited to the above embodiments, it is usually made of polyimide resin or the like which is heat resistant to the soldering temperature.

In the above embodiment, the insulating film (3a) was left at the tip of the lead (2), but the lead (2)
For the purpose of suppressing the bending of the leat (2), the same effect can be achieved no matter where it is left on the leat (2). be.

Further, in the above embodiment, the insulating film (3a) was formed on each negative side of the adjacent REET (2), but the four sides may be fixed with the insulating film (3a).

In addition, in the above embodiment, when cutting a tape-shaped semiconductor package into individual packages, an insulating film is left on one end of the lead part of the package to be held in a neat manner. However, the present invention is not limited to this, and an insulating film may be formed at one end of the REET (2) in a separate manufacturing process.

[Effects of the Invention] As described above, according to the present invention, there is provided a semiconductor package body in which a semiconductor LSI is sealed with resin in a circuit made of conductive metal foil formed in a desired pattern, and By providing a plurality of leads and an insulating film formed at one end of the leads to maintain spacing from adjacent leads, a high-precision tape carrier l-cage is obtained, allowing high-precision bonding to printed circuit boards. This has the effect of making implementation possible.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing an enlarged main part of a tape carrier package according to an embodiment of the present invention, FIG. 2 is a plan view showing an enlarged main part of a tape carrier package according to an embodiment, and FIG. 4 is a side view of one embodiment, FIG. 5 is a plan view of a conventional tape carrier package, and FIG. 6 is a plan view of a conventional tape carrier package. FIG. 7 is a side view showing an enlarged main part of a conventional tape carrier package; FIG. 8 is a plan view showing an enlarged main part of a conventional tape carrier package. (11--Semiconductor package body, (2a), '
2b). (2c), (2) ... lead, (3a)
...Insulator film. In the figures, the same reference numerals are the same or the intended parts are slightly smaller. Figure 1 2

Claims (1)

[Claims] A semiconductor package body in which a semiconductor LSI is sealed with resin in a circuit made of conductive metal foil formed in a desired pattern, a plurality of leads extending from this semiconductor package body, and a plurality of leads formed at one end of the leads and adjacent to each other. A tape carrier package with an insulating film that holds the leads apart.