TW201004512A - Overall tinning process for printed circuit board - Google Patents

Abstract

The present invention discloses a tinning method for a printed circuit board. The method comprises a first tinning process, a second overall tinning process and a paste-layer coating process, and is for generating a protection layer to prevent partial etching from occurring. The first tinning process forms a first tin layer on a copper circuitry pattern which is formed on an insulation substrate. The first tin layer encompasses the copper circuitry pattern to provide protection for it. Since the first tin layer contacts the copper circuitry pattern, it will be transformed into an intermetallic compound by nitrogen baking and the compound will carry the copper diffused from the copper circuitry pattern. Thereafter, the second overall tinning process forms a second tin layer for entirely covering the first tin layer and thereby provides a good welding characteristic for soldering and disposing electronic elements. Finally, the paste-layer coating process is carried out to use the paste layer to isolate the area needing insulation protection, and provide mechanical strength to prevent damage from external force.

Description

201004512 IX. Description of the Invention: [Technical Field] The present invention relates to a protection process for a printed circuit board, and more particularly to a method for processing a full-key tin. x [Prior Art] The printed circuit board is the most common device for arranging electronic components, and the conventional single-layer printed circuit board has at least one insulating substrate and a copper foil layer, wherein the copper developing butterfly or other adding a mode forms a specific circuit The pattern is used to provide electrical connection of circuit components and heat dissipation. In order to prevent the copper circuit pattern from being oxidized in the air or being scratched by external force, a solder resist layer (such as a solder resist green paint), such as a solder resist green paint, is usually applied on the printed circuit board. Wei insulation and considerable mechanical strength' can therefore prevent the short circuit of the Wei line and the circuit pattern of the county, while the anti-weld green paint is exposed to the area of the ship welding system. The material of the solder resist green paint is hot baked hard side epoxy _ (ThermQ Cured E Qing) and ultraviolet bake hardening type acrylic acid cool _v Curable (four) (four)). The general processing method is liquid-film imaging technology of screen printing, dry film coating or a combination of both. In addition, the copper box circuit pattern requires further surface treatment to produce a surface suitable for soldering electronic parts because the copper surface of the circuit pattern has poor soldering characteristics for the pins of the electronic component. The surface treatment methods of conventional printed circuit boards include electric mining, electric gold, and non-electric hybrid gold processing, which have been used in the printed circuit board industry. Due to cost considerations and weldability problems without scales, 201004512 Many emerging surface treatment methods such as organic protective film (0rganic

Solderability Preservatives, 0SP), immersion silver plating (Immersi〇n

Silver, immersion tin (lmmerSi〇n Tin) and pure matte tin are rapidly evolving, with pure matte tin being the first choice for coating applications for high volume semiconductor manufacturers. The reason is that for the lead frame of various electronic components, the matte tin process not only has good soldering characteristics, but also a low-cost solution 'there is no double in the conventional Sn-Ag, Sn-Bi and Sn-Cu systems. Alloy composition control issues. Another key factor in the widespread use of the matte tin solution is its adequate supply, which is closely related to the above technologies. The most important advantage of matte tin is its compatibility with older lead-containing solders. Given the delays in implementation of many of the world's lead-free policies, this backward compatibility is still important. The technology of immersion silver and immersion tin has a relatively simple manufacturing process, mainly including pre-cleaning, micro-etching, surface pre-treatment, and immersion plating of copper surfaces. The silver-plated plating solution is mainly composed of silver nitrate, which has good weldability and reliable solder joint strength. However, the surface of pure silver is prone to vulcanization and oxidation in the air, so it is necessary to add an organic inhibitor to the immersion plating tank to prevent discoloration of the surface. In addition, in order to avoid the migration of organic silver, a surface wetting agent, a buffer, and the like are added to the immersion bath. ^ The emerging immersion tin plating technology is based on thiourea (Thiourea), which is stable in plating solution and excellent in solderability. However, the immersion tin plating process is liable to cause discoloration or side etching of the green paint. The weldability of the fast-growing brittle metal layer (IMC) between the machine-shield gasket and the solder joint will be affected. For the problem of tin whisker (Tin Whisker) on the surface of pure tin electro-mineral layer, it is also a major concern for 201004512 of immersion tin technology. Referring to Figure 1, the printed circuit board of a conventional tin plating method is turned over. The copper layer is placed on the insulating layer 1 by means of the adhesive layer 12, followed by development_processing 'Let the copper ride to form the circuit pattern layer with the circuit_3 〇 _ _ appropriate method, the barrier layer 2G, such as solder mask The green lacquer, coated, protects the circuit pattern layer 30 on the circuit pattern layer 30 while leaving the splicing area of the bare road for subsequent soldering of the electronic element side. Finally, a suitable tin plating method is applied to coat the exposed soldering region with a protective first tin layer 31. The tin in the primary tin plating method erodes the copper of the solder resist layer 2 and the edge of the circuit pattern layer 30. The formation of the erosion zone evil, as shown in Figure ,, is due to the potential difference between the copper and tin of the interface, forming a local cathode zone and an anode zone, so that the copper is oxidized by the copper ions, causing the part to be invaded. , which in turn causes damage to the printed circuit board or even a short circuit. Referring to Figure 2, a printed circuit board structure diagram of the secondary tin-staining method of the conventional technique. This structural drawing is a secondary tin plating method disclosed in Japanese Patent No. 3,763,422. The secondary tin plating method is: after the circuit pattern layer 3 is completed, the entire circuit pattern layer 3 is first plated with a protective first tin layer 31 by using a suitable tin plating method, that is, the first tin layer 31 is packaged. The entire circuit pattern layer 30 is covered, as shown in FIG. Next, a coating process of the solder resist layer 2 is performed to cover a portion of the circuit pattern layer 30. Finally, a second tin plating treatment is performed to cover the second tin layer 33 over the region not covered by the solder resist layer 20. The first tin layer 31 is in contact with the circuit pattern layer 30, and the copper of the circuit pattern layer 30 is diffused into the first tin layer 31 during the aging or baking process, that is, the first tin layer 31 contains diffusion. copper. The bismuth-tin layer 33 covers the first tin layer 31, so it does not contain copper. The method can solve the problem that steel intrusion occurs in the edge intersection area of the 2010 20101212 solder resist layer 20 and the circuit pattern layer 3 in the conventional technology. However, the secondary tin plating method disclosed in Japanese Patent No. 342, there is still a possibility that the solder resist layer is melted in the tin, and the tin liquid life is shortened and the solder resist layer is attacked by the tin liquid, which may result in reliable products. Degree is degraded. SUMMARY OF THE INVENTION The main object of the present invention is to provide a printed circuit board comprising a first tin plating process, a second full tinning process, and a solder resist layer coating process to create a protective layer and avoid local intrusion. On the formed copper circuit pattern, the first tin plating treatment is used to form = layer 2, the first tin layer covers the entire copper circuit pattern to provide protection, and the nitrogen-baking is performed to convert the first-tin layer into a boundary metal. The eutectic is such that the tin layer contains copper diffused from the copper circuit pattern. A second under-plating treatment is then performed to form a second tin layer that completely encapsulates the tin layer, providing excellent soldering characteristics for soldering various electronic components. After the solder resist coating process is performed, the region requiring insulation protection is covered with a solder resist layer while providing mechanical strength to prevent damage to the external force. The tin plating method of the printed circuit board of the present invention can solve the problem of local erosion in the manufacturing technology, prevent tin from further attacking copper, and avoid tin whisker. At the same time, the comprehensive tin layer can avoid the boundary between copper and solder resist green paint, PI (polyacetamide), Cover Layer (protective adhesive), silver paste sheet, subsequent layer, reinforcing plate and other heterogeneous materials. The local potential difference occurs, which improves product reliability and service life. And to avoid the dissolution of the solder resist layer in the tin liquid, the tin liquid life is shortened, and the surface of the solder resist layer is attacked by the tin liquid, which may cause deterioration of product reliability. 8 201004512 [Embodiment] The following is a more detailed remuneration for the implementation of the present invention, so that those skilled in the art can implement it after studying the present specification. Referring to Figure 3', there is shown a comprehensive tin structure diagram of the tin-plating method of the printed circuit board of the present invention. In the present invention, method t, including the first tin plating treatment, the second comprehensive lining treatment, and the solder resist layer treatment, a protective layer is generated and localized invasion is avoided. First, the copper pattern attached to the insulating layer 10 by the layer 12 is applied, and the circuit pattern 30 completed by a suitable method is subjected to a first tin plating treatment to form a tin layer 3. The first tin layer 31 will be the entire circuit. The pattern 3〇 is covered to provide protection of 'helium baking, so that the first transition to the boundary metal complex' and contains copper diffused from the copper circuit pattern 3, that is, the first tin layer 31 s has copper followed by The second comprehensive treatment of the tin tin to form a comprehensive second tin layer 33 'the second tin layer 33 completely covers the first tin layer 31, providing a superior (4) solder bump 1 for soldering various electronic components. Finally, the solder resist layer coating process is performed to form the germanium resist layer 2G, and the area requiring insulation protection is used for the damage of the external force of the machine. The first tin plating treatment and the second full tin plating treatment may use a immersion tin method or a purely square method. Since the first-tin layer 31 provides a barrier function, the subsequent tin is prevented from attacking the metal copper while avoiding tin whiskers. In addition, the comprehensive second tin layer 33 can avoid metal copper and printed bribes on J: green paint, PI (poly _), c__

Layer (protective rubber), silver paste sheet, adhesive layer, reinforcing plate and other heterogeneous materials at the junction of 201004512 local potential difference occurs. Yangshuo caused the tin liquid to be shortened, and the attack 'produced the possibility of product reliability deterioration. In the case of attempting to broadcast, the #4 is only turned over to the actual situation, and it is not intended to limit the invention to any form. Therefore, any modification of the invention made under the same spirit of the present invention* Changes or modifications are intended to be included within the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a structural view showing a printed circuit board of a conventional tin plating method of the prior art. Fig. 2 is a structural view showing a printed circuit board of a secondary tin plating method of a conventional technique. Fig. 3 is a view showing the overall tin plating structure of the tin-tin method of the printed circuit board of the present invention. [Main component symbol description] 10 insulating layer 12 adhesive layer 20 solder resist layer (solderproof green paint) 30 circuit pattern layer (copper foil) 31 first tin layer 33 first - tin layer 35 erosion zone

Claims (1)

201004512 X. Patent application scope: 1. A tin plating method for printed circuit boards, which is used to cover a first tin layer and a first layer on a printed circuit board including an insulating layer and a copper-clad pattern. a tin layer and a solder resist layer, the method comprising: forming a first tin layer on the surface of the copper circuit pattern to cover the surface of the copper circuit pattern by using a suitable first tin plating method; a first tin method of forming a second tin layer to cover the entire first tin layer; and applying a solder resist layer to a portion of the second tin layer such that the second tin layer The bare area acts as a soldering area for soldering and placing various electronic components' and the solder resist layer protects the copper circuit pattern. 2. The printed circuit board ore method according to claim 1, wherein the solder resist layer is a solder resist green paint. 3. The method according to claim 1, wherein the first tin plating method is a dip tin plating method. 4. The method of tin plating of a printed circuit board according to claim 1 of the patent application scope, wherein the method of sigma-min is a pure matte tin method. 5. The method according to claim 1, wherein the second tin plating method is a dip tin plating method. The printed circuit board key tin method according to claim 1, wherein the second tin plating method is a pure matte tin method.