JPH05110233A - Manufacture of printed wiring board - Google Patents

Abstract

PURPOSE:To easily perform visual inspection of a solder resist and marking accompanying high density and high performance of a printed wiring board. CONSTITUTION:A solder resist is formed out of ink where phosphoric dyes and phosphoric pigments 5 to 15wt.% are added to a conventional solder resist ink. Marking is formed out of ink where phosphoric pigments 5 to 15wt.% is added to conventional marking ink.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing a printed wiring board.

[0002]

2. Description of the Related Art As a conventional method for manufacturing a printed wiring board, a copper clad laminate is usually used, and a copper wiring is etched to form a printed wiring circuit. A solder resist is formed for the purpose of mounting components to the printed wiring circuit, insulation between circuits, and circuit protection, and also for displaying characters and symbols such as component type, component number, component mounting position, and road map. It is manufactured by marking (symbol mark) by.

[0003]

However, electronic devices are becoming higher in density, higher in performance, smaller in size, and lighter in weight year after year.
In addition, in terms of mounting components, as the density of semiconductor elements (ICs) has increased, surface mount packages and multi-pin packages have been used, and the demand for higher density and finer printed wiring boards has increased. For solder resist and marking in the manufacturing process of printed wiring boards, for example, it is difficult to perform visual inspection such as the condition of ink entering the edge when solder resist is formed and bleeding and scraping on land. Even in printing, it has a drawback that it is becoming difficult to inspect ink for blurring.

Therefore, an object of the present invention is to provide a method of manufacturing a printed wiring board which can eliminate the difficulty of visual inspection at the time of forming the solder resist and the marking in the conventional method of manufacturing a printed wiring board. Is.

[0005]

A method of manufacturing a printed wiring board according to the present invention is a printed wiring board formed by forming a printed wiring circuit on one side or both sides of a substrate, applying a solder resist, and performing marking printing. In the manufacturing method, the solder resist is formed by applying a solder resist ink containing a fluorescent substance, and the marking print is printed with a marking printing ink containing a fluorescent substance. .

[0006]

According to the method of manufacturing a printed wiring board of the present invention,
In solder resist and marking printing, by forming with a solder resist ink and a marking ink containing a fluorescent substance, the penetration of ink into the edge by irradiation of light or thermal energy, bleeding of land or marking bleeding etc. Visual or mechanical inspection can be facilitated.

[0007]

EXAMPLES Examples of the method for manufacturing a printed wiring board according to the present invention will be described below.

The manufacturing process of the printed wiring board in the present invention is carried out through conventionally known processes. FIG. 1 shows the classification of the manufacturing process, for example, a typical PWB manufacturing method. Further, other circuit forming methods such as a conductive paste printing method and a die stamping method can be mentioned. Therefore, in carrying out the solder resist (undercoat, overcoat) used in the method for producing a printed wiring board described above, a fluorescent dye and a fluorescent pigment as fluorescent substances were added to the following formulation examples 1 and 2. The ink is formed by adding 5 to 15% by weight. The fluorescent dyes and fluorescent pigments as the fluorescent substance may be those listed below. The coating method is also a method adapted to various manufacturing methods of the printed wiring board, for example, screen printing method.

Formulation Example 1 Wt% Epoxy acrylate 28 Polyethylene glycol acrylate 40 Benzoin alkyl ether 4 TiO ₂ (titanium oxide) 5 SiO ₂ (silicon oxide) 3 Diferdisulfide 2.0 Pigment (cyanine green) 0.4 Diethylhydroxy Amine 0.1 Dimethylhydroxane (foam stabilizer) 2.0

Formulation Example 2 wt% epoxy acrylate 40 polyurethane acrylate 40 benzoin alkyl ether 4 CaCO ₃ (calcium carbonate) 5 SiO ₂ (silicon oxide) 3 pigment (cyanine green) 0.4 benzothiazole 0.05 benzonephenone 2. 6 Dimethylhydroxane (foam stabilizer) 1.5

Fluorescent Dyes Acridine Orange NO Methylene Blue Rosamine Tripaflarine

Fluorescent Pigment Lumogen L Yellow Lumogen Water Blue Lumogen L Blue Lumogen Yellow Orange

By forming the solder resist by the above method, the following effects can be obtained. By mixing the fluorescent substance, the fluorescent effect facilitates the visual distinction between the circuit pattern and the solder resist, and the exposure of the edge portion and the bleeding can be easily confirmed. Even in a substrate having two layers or more on one side and four layers or more on both sides, the formation state of the solder resist (insulating layer) was clearly visible, and the interlayer insulation failure could be reduced. Further, in forming the cooking in the manufacturing process of the printed wiring board, any one of the fluorescent dye and the fluorescent pigment listed as the fluorescent substance added to the solder resist ink described in Formulation Example 3 below should be used. The printing is performed by using the materials added with 5 to 15% by weight. The printing method can be implemented by a conventional printing method.

Formulation Example 3 wt% Epoxy acrylate 20-30 Polyethylene glycol acrylate 20-30 Filler 32 Pigment 10-11 Additive 4

According to the marking formed by the above method, even the fine letters and numbers can be visually confirmed more clearly by the fluorescent action of the fluorescent substance in the ink.

[0016]

According to the present invention, the inspection of the solder resist and the marking in the manufacturing process of the printed wiring board can be easily performed by visual inspection, and the high density and high performance of the printed wiring board can be sufficiently dealt with. It is a thing.

[Brief description of drawings]

FIG. 1 is an explanatory view showing classification of methods for manufacturing a printed wiring board according to the present invention.

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Shin Kawakami 1106 Fujikubo, Miyoshi-cho, Iruma-gun, Saitama Japan CMK Corporation

Claims (3)

[Claims] 1. A method for manufacturing a printed wiring board, wherein a printed wiring circuit is formed on one side or both sides of a substrate, a solder resist is applied, and marking printing is performed. The solder resist contains a fluorescent substance. A method for manufacturing a printed wiring board, which comprises applying a solder resist ink to form the marking printing, and printing the marking printing with a marking printing ink containing a fluorescent substance. 2. The method for manufacturing a printed wiring board according to claim 1, wherein the solder resist is formed by a screen printing method or a photo printing method. 3. The printed wiring board according to claim 1, wherein the solder resist is formed on an upper side or an interlayer of a printed wiring circuit of one layer or a plurality of layers formed on one side or both sides of the substrate. Manufacturing method.