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An Overview of the Printed Circuit Board (PCB) Fabrication Process
In 1936, the first printed circuit board (PCB) was created by Paul Eisle. But it wasn't until the 1950s when the U.S. Defense industry began integrating PCBs in their bomb detonator systems that printed circuit boards found wide application. PCBs are now used in nearly all manufactured products such as, automobiles, cellular telephones, personal computers, among others. Click here on hdi pcb to get more info about our site.
A Summary of the PCB Fabrication Processes
PCBs are initially fabricated with the use of two types of software. Computer Aided Design (CAD) software is used to design the electronic schematic of the circuit to be produced. After the schematic is designed, Computer Aided Manufacturing (CAM) software is used by engineers to produce the PCB prototype.
Once the PCB prototype is designed, the first step in the fabrication process is to select the material of the printed circuit board. There are many different types of PCB materials available, but the popular ones, based on the application and a customer's requirements, include: Alumina, Arlon, Bakelite, CEM1, CEM5, Ceramic, FR1, FR4, FR4 High Temperature, GeTek, Nelco, Polyimide and Rogers.The design requirement dictates the dimensions of the PCB (I.e., length, width and thickness).
After the material has been selected, the first process is to apply a coating of copper to the entire board. The circuit layout will then be printed on the board by a photosensitive process. Then, a photo engraving process will be used so that all the copper that is not part of the circuit layout will be etched out or removed from the board. The resulting copper creates the traces or tracks of the PCB circuit. To connect the circuit traces, two processes are used. A mechanical milling process will use CNC machines to remove the unnecessary copper from the board. Then, an etch-resistant, silk-screen, printing process is applied to cover the regions where traces must exist.
At this point in the PCB fabrication process, the PCB board contains copper traces without any circuit components. To mount the components, holes must be drilled at the points where the electrical and electronics parts are placed on the board. The holes are drilled with either lasers or a special kind of drill bit made of Tungsten Carbide. Once the holes are drilled, hollow rivets are inserted into them or they are coated by an electroplating process, which creates the electrical connection between the layers of the board. A masking material is then applied to coat the entire PCB with the exception of the pads and the holes. There are many types of masking material such as, lead solder, lead free solder, OSP (Entek), deep/hard gold (electrolytic nickel gold), immersion gold (electroless nickel gold - ENIG), wire bondable gold (99.99% pure gold), immersion silver, flash gold, immersion tin (white tin), carbon ink, and SN 100CL, an alloy of tin, copper, and nickel. The final step in the PCB fabrication process is to screen print the board so labels and the legend appear at their proper locations.
Testing the Quality of the PCB Board
Prior to placing the electrical and electronic components on the PCB, the board should be tested to verify its functionality. In general, there are two types of malfunctions that can cause a faulty PCB: a short or an open. A "short" is a connection between two or more circuit points that should not exist. An "open" is a point where a connection should exist but does not. These faults must be corrected before the PCB is assembled. Unfortunately, some PCB manufacturers do not test their boards before they are shipped, which can lead to problems at the customer's location. So, quality testing is a critical process of the PCB fabrication process. Testing ensures the PCB boards are in proper working condition prior to component placement.