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PCB Technical

PCB Technical - Wide range of uses for circuit board design

PCB Technical

PCB Technical - Wide range of uses for circuit board design

Wide range of uses for circuit board design

2021-11-06
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Author:Will

Usually, the conductive pattern made of printed PCB boards, printed PCB components or a combination of the two on the insulating material, according to the predetermined design of the PCB, is called the printed circuit. The conductive pattern that provides electrical connections between components on an insulating substrate is called a printed PCB circuit. In this way, the printed circuit or the finished board of the printed circuit is called a printed circuit board, also called a printed circuit board or a printed circuit board. PCBA is inseparable from almost all the electronic equipment that our circuit board design company can see, ranging from electronic watches, calculators, general-purpose computers, to computers, communication electronic equipment, military weapon systems, as long as there are electronic devices such as integrated circuits. For devices, PCBA is used for electrical interconnection between them. It provides mechanical support for the fixed assembly of various electronic components such as integrated circuits, realizes wiring and electrical connection or electrical insulation between various electronic components such as integrated circuits, and provides required electrical characteristics such as characteristic impedance. At the same time, it provides solder mask graphics for automatic soldering; provides identification characters and graphics for component insertion, inspection, and maintenance. How is the PCB made? When we open the keyboard of a general-purpose computer, we can see a flexible film (a flexible insulating substrate) printed with a silver-white (silver paste) conductive pattern and a healthy bit pattern. Because the general screen printing method obtains this kind of pattern, we call this kind of printed circuit board a flexible silver paste printed circuit board. The printed circuit boards on the various computer motherboards, graphics cards, network cards, modems, sound cards and household appliances that we saw in the Computer City were different. The substrate used in it is made of paper base (usually used for single-sided) or glass cloth base (usually used for double-sided and multilayer), pre-impregnated with phenolic or epoxy resin, and the surface layer is laminated with copper-clad film on one or both sides and then laminated to cure Become. This kind of circuit board copper clad sheet material, we call it rigid board. And then make a printed circuit board, we call it a rigid printed circuit board. We call single-sided printed circuit boards with printed circuit patterns on one side, and printed circuit boards on both sides with printed circuit patterns on both sides. The printed circuit boards formed by double-sided interconnection through hole metallization are called double-sided boards. If one double-sided as the inner layer, two single-sided as the outer layer, or two double-sided as the inner layer and two single-sided as the outer layer of the printed circuit board, the positioning system and the insulating bonding material alternate together and The printed circuit board with the conductive pattern interconnected according to the design requirements becomes a four-layer or six-layer printed circuit board, also called a multilayer printed circuit board. There are now more than 100 layers of practical printed circuit boards.

The production process of PCBA is more complicated, and it involves a wide range of processes, from simple mechanical processing to complex mechanical processing, common chemical reactions, photochemical, electrochemical, thermochemical and other processes, computer-aided design CAM and other aspects of knowledge . Moreover, there are many process problems in the production process and new problems will be encountered from time to time. Some of the problems disappear without finding out the cause. Because the production process is a non-continuous assembly line form, any problem in any link will cause the entire line to stop production. Or as a result of a large number of scraps, if printed circuit boards are scrapped, they cannot be recycled and reused. The work pressure of process engineers is relatively high, so many engineers have left the industry and turned to printed circuit board equipment or material vendors to do sales and technical services. .

pcb board

In order to further understand PCBA, we need to understand the production process of the usual single-sided, double-sided printed circuit board and ordinary multi-layer board, so as to deepen our understanding of it. Single-sided rigid printed circuit board: - single-sided copper clad laminate - blanking - (brushing, drying) - drilling or punching - screen printing circuit anti-etching pattern or using dry film - curing inspection and repairing board - etching copper - removing corrosion Printing, drying - brushing, drying - screen printing solder mask graphics (commonly used green oil), UV curing - screen printing character marking graphics, UV curing - preheating, punching and shape - electrical opening, short circuit test - brushing, drying - Pre-coated soldering anti-oxidant (drying) or spraying tin and hot air leveling - inspection and packaging - finished products leave the factory.

Double-sided rigid PCB printed board: - double-sided copper clad laminate - blanking - stacking - CNC drilling through holes - inspection, deburring and brushing - chemical plating (through hole metallization) - (full board electroplating of thin copper) - Inspection and scrubbing - screen printing negative circuit patterns, curing (dry film or wet film, exposure, development) - inspection, repairing - circuit pattern plating - tin electroplating (anti-corrosive nickel/gold) - removing printing material (photosensitive film) - Etching copper-(removing tin)-cleaning and scrubbing-screen printing solder mask pattern commonly used thermal curing green oil (photosensitive dry film or wet film, exposure, development, thermal curing, commonly used photosensitive thermal curing green oil)-cleaning, drying-screen Printing and marking characters and graphics, curing-(spray tin or organic solder mask)-shape processing-cleaning, drying-electric continuity inspection-inspection and packaging-the finished product leaves the factory.

Through-hole metallization method for manufacturing multilayer board process flow - double-sided cutting of inner copper clad laminate - brushing - drilling positioning holes - sticking photoresist dry film or coating photoresist - exposure - developing - etching and removing Film - inner layer roughening, deoxidation - inner layer inspection - (outer layer single-sided copper clad laminate circuit production, B-stage bonding sheet, board bonding sheet inspection, drilling positioning holes) - lamination - number control drilling - Hole inspection - hole pretreatment and electroless copper plating - thin copper plating on the whole board - plating inspection - sticking photo-resistance electroplating dry film or coating photo-resistance electroplating agent - surface layer bottom plate exposure - development, repairing board - circuit pattern plating - Tin-lead alloy electroplating or nickel/gold plating - film removal and etching - inspection - screen printing solder mask or photo solder mask graphics - printing character graphics - (hot air leveling or organic solder mask) - CNC washing shape - cleaning, Drying - electrical on-off detection - finished product inspection - packaging and leaving the factory. It can be seen from the process flow chart that the multi-layer board process is developed on the basis of the double-face metallization process. In addition to the double-sided process, it also has several unique contents: metallized hole inner-layer interconnection, drilling and epoxy drilling, positioning system, lamination, and special materials.

Our common computer boards are basically double-sided printed PCB circuit boards based on epoxy resin glass cloth. One side is for inserting components and the other side is for component pin soldering. It can be seen that the solder joints are very regular. These solder joints The discrete soldering surface of the component foot is called a pad. Why are other copper wire patterns not tinned? Because in addition to the soldering pads and other parts, the surface of the remaining parts has a solder mask that is resistant to wave soldering. Most of the solder mask on the surface is green, and a few use yellow, black, blue, etc., so solder mask oil is often called green oil in the PCB industry. Its function is to prevent bridging during wave soldering, improve soldering quality and save solder. It is also a permanent protective layer for printed boards, which can prevent moisture, corrosion, mildew and mechanical scratches. From the outside, the smooth and bright green solder mask is a green oil that is photosensitive and thermally cured for the film on the board. Not only does the appearance look better, it is also important that the PCB pads are more accurate, which improves the reliability of the PCB solder joints.