KR200394696Y1 - Flexible Copper Clad Laminates and Flexible Copper Sputtering Clad Laminates and Methode of Producting Multi-Layer Printed Circuit Board for Fine Pattern. - Google Patents

Abstract

The present invention relates to the manufacture of a flexible copper clad laminate (FCCL) and a flexible copper foil sputtering plate and a multilayer printed circuit board for a fine pattern using the same, and more specifically, the basic composition consisting of a resin impregnated material or polyamide and a resin impregnated material (Prepreg). A film 20, a seed metal sputtering film 30 sputtered on the base film 20, and a copper sputtering film 40 sputtered on the seed metal sputtering film 30. A flexible copper clad laminate 60 and a flexible copper clad laminate 60 are used, including a flexible copper box sputtering plate 70 or a copper plating film 50 plated on the copper sputtering film 40. It relates to a multi-layer printed circuit board manufactured by.

According to the present invention, it is possible to manufacture a multilayer printed circuit board capable of forming a fine pattern of several tens or several microns pitch, which has not been approached by conventional multilayer printed circuit boards, and thus, further miniaturization and multifunction of the device in the future The advantage is that it can respond very efficiently.

Description

Flexible Copper Clad Laminates and Flexible Copper Sputtering Clad Laminates and Methode of Producting Multi-Layer Printed Circuit Board for Fine Pattern.

The present invention relates to a flexible copper clad laminate (FCCL) and a flexible copper box putter plate and a multilayer printed circuit board for micropatterns using the same, and more specifically, a basic resin composed of a resin impregnated material or polyamide and a resin impregnated material (Prepreg). A film 20, a seed metal sputtering film 30 sputtered on the base film 20, and a copper sputtering film 40 sputtered on the seed metal sputtering film 30. A flexible copper clad laminate 60 and the flexible copper clad laminate 60 or the flexible copper box sputtering plate 70 or a copper plating film 50 plated on the copper sputtering film 40. The present invention relates to a multilayer printed circuit board manufactured by using a flexible copper box putter plate 70.

In the conventional multilayer printed circuit board, a double-sided printed circuit board is formed by attaching a copper foil using an adhesive or the like on a base base substrate as shown in FIG. 1 for the manufacture of a copper foil for constructing a circuit pattern. Board (PCB) 101, a method of laminating by heat compression between the printed circuit board 101 and another printed circuit board 102 to be laminated using a resin impregnating agent (Prepreg) (10). 1 or the method of laminating by heat compression using the film 20 coated with copper foil 103 on the uppermost layer or the lowermost layer of the multilayer printed circuit board manufactured in the manner shown in FIG. 1. It was produced using. However, in the case of a multilayer printed circuit board manufactured in this manner, the copper foil constituting the circuit pattern is relatively thick, and the accuracy of the pattern of the circuit that can be manufactured is inevitably reduced, and thus the circuit required by the miniaturization and multifunctionality of the device. There has been a big problem that copper circuit wiring of several microns to several tens of microns cannot be formed to cope with finer and finer patterns.

In addition, the multilayer printed circuit board manufactured by the conventional method is heated by using a resin prepreg (10) separately between the circuit boards of the respective layers in order to laminate the previously manufactured circuit board layers. Since it had to be compressed, there was a problem in cost reduction and process simplicity.

The present invention has been devised to solve the above problems, using a sputtering method on the base film 20 composed of a resin impregnated material or a polyamide and a resin impregnated material (Prepreg), compared to the thickness of a conventional copper foil. Provided is a flexible copper clad laminate (FCCL) or a flexible copper box putter plate capable of forming a thin copper thin film, and a multilayer printed circuit board comprising the same. In order to enable cost reduction and process simplification, there is no need for a process using a separate resin impregnated processing material.

In order to achieve the above object, the present invention provides a base film 20 composed of a resin impregnated material or polyamide and a resin impregnated material (Prepreg), and a seed metal sputtering film 30 sputtered on the base film 20. And a copper sputtering film 70 or a copper plating film plated on the copper sputtering film 40, comprising a copper sputtering film 40 sputtered on the seed metal sputtering film 30. It characterized in that it comprises a 50).

In the multilayer printed circuit board, the flexible copper clad laminate 60 or the flexible copper box puttering plate 70 is laminated on the uppermost layer, the lowermost layer, or the uppermost layer and the lowermost layer.

In the flexible multilayer printed circuit board, the flexible copper clad laminate 60 and the double-sided flexible copper laminated plate 61 are laminated.

In addition, in the manufacture of a flexible multilayer printed circuit board, the flexible copper box puttering plate 70 and the double-sided flexible copper box puttering plate 71 are laminated.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the flexible copper clad laminate (FCCL) and the flexible copper box puttering plate and the multi-layer printed circuit board using the same according to an embodiment of the present invention.

First, Flexible Copper Clad Laminates (FCCL) 60 will be described. As shown in FIG. 3, the flexible copper-clad laminate 60 is sputtered on the base film 20, the seed metal sputtering film 30 sputtered on the base film 20, and the seed metal sputtering film 30. Copper sputtering film 40 and a copper plating film 50 plated on the copper sputtering film 40.

The base film 20 is generally manufactured using a resin impregnated material or polyamide and a resin impregnated material used for laminating a multilayer printed circuit board. The base film 20 has an adhesive function by heat pressing in a lamination process for manufacturing a multilayer printed circuit board to be described later, and also has an insulating function. Therefore, in the manufacturing process of laminating a multilayer printed circuit board using the flexible copper clad laminate 60 to be described later, a separate resin as in the manufacturing process of the conventional multilayer circuit printed board as shown in FIG. It is not necessary to use the prepreg 10.

Next, the seed metal sputtering film 30 will be described. The seed metal sputtering film 30 is a sputtered seed metal on the base film 20, and buffers against physical force between the base film 20 and the copper sputtering film 40 to be described later. And a function that enables compatibility between materials. Meanwhile, as the seed metal, it is preferable to use a mixture of nickel (Ni) and chromium (Cr).

Next, the copper sputtering film 40 is demonstrated. The copper sputtering film 40 is formed by sputtering copper (Cu) on the seed metal sputtering film 30 and having a function of constructing a circuit pattern in a printed circuit board.

Next, the copper plating film 50 is demonstrated. The copper plating film 50 is plated with copper (Cu) on the copper sputtering film 40, and has a function of forming a circuit pattern on a printed circuit board together with the copper sputtering film 40.

As shown in the lower part of FIG. 6, the flexible copper clad laminate 60 having the structure as described above may also have the seed metal sputtering film 30 and the copper sputtering film 40 on the lower surface of the flexible copper clad laminate 60. ), The copper plating film 50 can be formed, and it is also possible to manufacture the double-sided flexible copper clad laminate 61.

On the other hand, in the configuration of the flexible copper-clad laminate 60, if the copper plating film 50 is omitted, it is possible to manufacture the flexible copper box putter plate 70 as shown in Figure 4, the double-sided flexible copper laminated plate 61 If the copper plating film 50 is omitted in the configuration of), as shown in the lower part of FIG. 8, it is also possible to manufacture a double-sided flexible copper box puttering plate 71.

Hereinafter, a multilayer printed circuit board constructed by using the flexible copper clad laminate 60 and the flexible copper box putter plate 70 according to an embodiment of the present invention.

First, as shown in FIG. 5, the resin penetration processing material (Prepreg) 10 is inserted and laminated between the single-sided printed circuit board 104 and another single-sided printed circuit board 105, and then printed as described above. The flexible copper clad laminate 60 may be laminated on the uppermost layer, the lowermost layer, or the uppermost layer and the lowermost layer of the circuit board, and press-heated to manufacture a multilayer printed circuit board. In this case, by controlling the quantity of the single-sided printed circuit board 104 inserted in the middle, it is possible to manufacture a multilayer printed circuit board having a desired number of layers, such as three layers, four layers, and five layers.

Meanwhile, as illustrated in FIG. 6, only the flexible copper clad laminate 60 and the double-sided flexible copper laminate layer 61 may be laminated and heated and compressed to manufacture a multilayer printed circuit board.

In addition, as shown in FIG. 7, after the resin permeation processing material (Prepreg) 10 is inserted and laminated between the single-sided printed circuit board 104 and another single-sided printed circuit board 105, the thus stacked printing is performed. The flexible copper box puttering plate 70 may be laminated on the uppermost layer, the lowermost layer, or the uppermost layer and the lowermost layer of the circuit board, and press-heated to manufacture a multilayer printed circuit board.

Meanwhile, as shown in FIG. 8, it is also possible to manufacture a multilayer printed circuit board by laminating only the flexible copper box puttering plate 70 and the double-sided flexible copper box puttering plate 71 by heat compression.

Through the above process, the present invention enables the manufacture of multilayer printed circuit boards using a flexible copper clad laminate (FCCL) or a flexible copper box-performing plate, which has formed a much thinner copper film than the thickness of the existing copper foil, several microns It enables the formation of copper circuit wiring of several tens of microns pitch, and eliminates the need for a separate resin impregnated processing material, thereby reducing costs and simplifying the process.

According to the present invention as described above, it is possible to manufacture a multi-layer printed circuit board capable of forming a fine pattern of several tens or several microns pitch, which has not been approached by conventional multi-layer printed circuit boards, It has the advantage of being able to cope with miniaturization and multifunctionality very efficiently. In addition, there is no need for a process using a separate resin impregnation processing material has the advantage of enabling cost reduction and process simplification.

1 is a cross-sectional view of a multilayer printed circuit board according to a conventional embodiment.

2 is a cross-sectional view of a multilayer printed circuit board according to another conventional embodiment.

3 is a cross-sectional view of a flexible copper clad laminate (FCCL) according to an embodiment of the present invention.

4 is a cross-sectional view of the flexible copper box putter plate according to an embodiment of the present invention.

5 is a cross-sectional view of a multilayer printed circuit board according to an embodiment of the present invention.

6 is a cross-sectional view of a multi-layer printed circuit board according to another embodiment of the present invention.

7 is a cross-sectional view of a multilayer printed circuit board according to another embodiment of the present invention.

8 is a cross-sectional view of a multilayer printed circuit board according to another embodiment of the present invention.

<Description of Symbols Used in Main Parts of Drawing>

10: resin penetration processing material 20: base film

30: seed metal sputtering film 40: copper sputtering film

50: copper plating film 60: flexible copper foil laminated plate

61: Duplex flexible copper clad laminate 70: Flexible copper box putter plate

71: double-sided flexible copper box putter plate 101,102: double-sided printed circuit board

103: copper foil 103,104: single-sided printed circuit board

Claims (8)

A base film 20 composed of a resin impregnated material or polyamide and a resin impregnated material (Prepreg); A seed metal sputtering film 30 sputtered on the base film 20; And a copper sputtering film (40) sputtered on the seed metal sputtering film (30). A base film 20 composed of a resin impregnated material or polyamide and a resin impregnated material (Prepreg); A seed metal sputtering film 30 sputtered on the base film 20; A copper sputtering film 40 sputtered on the seed metal sputtering film 30; A copper plating film 50 plated on the copper sputtering film 40; Flexible copper clad laminate, characterized in that comprising a. The method according to claim 1, A seed metal sputtering film 30 sputtered under the base film 20; And a sputtered copper sputtering film (40) sputtered under the seed metal sputtering film (30). The method according to claim 2, A seed metal sputtering film 30 sputtered under the base film 20; A copper sputtering film 40 sputtered under the seed metal sputtering film 30; A copper plating film 50 plated under the copper sputtering film 40; Double-sided flexible copper clad laminate, characterized in that comprising a. In a multilayer printed circuit board, The flexible copper-clad laminate 60 is laminated on the uppermost layer or the lowermost layer or the uppermost layer and the lowest layer, characterized in that the multilayer printed circuit board for a fine pattern. In a multilayer printed circuit board, The flexible copper-clad laminate 60 and the double-sided flexible copper-clad laminate 61 is laminated, characterized in that the flexible multi-layer printed circuit board for a pattern. In a multilayer printed circuit board, The flexible copper box putter plate 70 is laminated on the uppermost layer or the lowest layer or the uppermost layer and the lowest layer, characterized in that the multilayer printed circuit board for a pattern. In a multilayer printed circuit board, The flexible copper box puttering plate 70 and the double-sided flexible copper box puttering plate 71 is laminated, characterized in that the flexible multi-layer printed circuit board for a pattern.