Manufacturing method of novel printed circuit board

Abstract

The invention relates to a manufacturing method of a printed circuit board, which can form fine circuits and laminated interconnection based on the improved semi-additive process and the process of pore filling under pattern plating. The specific steps of the method are as follows: a) preparing a dielectric layer and laminating a conductive layer on the dielectric layer, thereby forming a substrate of a composite structure with the dielectric layer and the conductive layer; b) manufacturing conduction blind holes on the dielectric layer and the conductive layer; c) carrying out conduction treatment for the conductive layer and the walls of the conduction blind holes, thereby forming a seed layer; d) adhering a light-sensitive film to the surface of the substrate and forming a plated blocking layer on the substrate through pattern transfer; e) plating the substrate with the plated blocking layer, forming a conductor pattern, and filling the conduction blind holes through plating, thereby forming a solid conductive pole; f) removing the plated blocking layer; g) removing the exposed seed layer and the conductive layer below the seed layer, and reserving the conductor pattern and circuits formed through plating, thereby forming a circuit board; and h) repeating the steps from Step a) to Step g) on the circuit board, so as to realize the multi-layer superposition.

Description

technical field [0001] The invention relates to a method for manufacturing a printed circuit board, in particular to a method for realizing interlayer interconnection based on a pattern electroplating hole filling method and using an improved semi-additive method to form a fine circuit. Background technique [0002] With the development of electronic products in the direction of thinner and smaller, the requirements for product refinement are getting higher and higher. In the production of printed circuit boards, in addition to reducing the diameter of the via hole, reducing the size of the circuit is also an important direction to increase product density and reduce the size of the completed board. [0003] At present, in the circuit board manufacturing process, three typical pattern transfer technologies are: subtractive method, full additive method and semi-additive method. In the ordinary subtractive process, a photosensitive resist material is generally used to complet...

AI Technical Summary

Problems solved by technology

[0012] The purpose of the present invention is to provide a method for manufacturing printed circuit boards for the above-mentioned defects in the prior art, which is different from the process of electroplating and filling holes on the entire board surface commonly used in the circuit board industry. Hole technology, that is, complete the electroplating of blind holes while completing the growth of conductors, and the blind holes are filled by electroplating to form solid conductive columns; at the same time, the present invention uses an improved semi-additive process to make fine circuits. In the improved semi-additive method, The conductive layer on the dielectric layer is formed by thermocompression, so it can effectively avoid the problems of poor bonding force between the conductive layer and the dielectric layer and poor thermal reliability.

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