Let’s understand the electronics manufacturing process of PCBA in details:

Solder Paste Stenciling

First and foremost, the PCBA company applies a solder paste to the printed circuit board. In this process, you need to put solder paste on certain portions of the board. That portion holds different components.

The solder paste is a composition of different tiny metal balls. And, the most-used substance in the solder paste is tin i.e. 96.5%. Other substances of solder paste are silver and copper with 3% and 0.5% quantity respectively.

The manufacturer mixes paste with a flux. Because flux is a chemical that helps solder in melting and bonding to the board surface. You must apply solder paste at the precise spots and in the right amounts. The manufacturer uses different applicators for spreading paste in the intended locations.

Pick and Place

After the successful completion of the first step, the pick and place machine has to do the next job. In this process, manufacturers place different electronic components and SMDs on a circuit board. Nowadays, SMDs are accountable for non-connector components of boards. You will learn how to solder these SMDs on the board in the upcoming steps.

You can use either traditional or automated methods to pick and place electronic components on the boards. In the traditional method, manufacturers use a pair of tweezers to place components on the board. Contrary to this, machines place components on the right position in the automated method.

Reflow Soldering

After placing the components in their right place, manufacturers solidify the solder paste. They can accomplish this task through a “reflow” process. In this process, the manufacturing team sends the boards to a conveyor belt.

The conveyor belt has to pass from a large reflow oven. And, the reflow oven is almost similar to a pizza oven. The oven contains a couple of heathers with different temperatures. Then, the heathers heat the boards on different temperatures to 250o C. This temperature converts the solder into solder paste.

Similar to heaters, the conveyor belt then passes through a series of coolers. The coolers solidify the paste in a controlled manner. After this process, all electronic components sit on the board firmly.

Inspection and Quality Control

After mounting the components in the reflow process, you need to inspect the board for flaws. In this process, manufacturers also test for the functionalities of the board. During the reflow process, many boards come with poor connections or become short. In simple words, there can occur a lot of connection problems during the previous step.

So there are different ways to check the circuit board for misalignments and errors. Here are some remarkable methods of testing:

Manual Check

Even in the era of automated manufacturing and testing, manual checking still has significant importance. However, manual checking is most effective for small scale PCB PCBA. Therefore, this way of inspection becomes more inaccurate and impractical for large scale PCBA circuit board.

Besides, looking at the miner components for so long is irritating and optical fatigue. So it can lead to inaccurate inspections.

Automatic Optical Inspection

For a large batch of PCB PCBA, this method is one of the finest options for testing. In this way, AN AOI machine inspects PCBs using plenty of high-powered cameras.

These cameras cover all angles to inspect different solder connections. AOI machines recognize connections’ strength by the reflecting light from solder connections. The AOI machines can test hundreds of boards in a couple of hours.

X-Ray Inspection

It is another method for board testing. This method is less common but more effective for complex or layered circuit boards. The X-ray helps manufacturers to examine lower-layer problems.

Using the aforementioned methods, if a problem exists, the manufacturing team either send that back for reworking or scrapping.

If the inspection finds no mistake, the next step is to check its workability. It means testers will check that either its working is according to the requirements or not. So the board might need calibration to test its functionalities.

Insertion of Through-Hole Component

The electronic components vary from board to board depends on the type of PCBA. For example, the boards might have different types of PTH components.

Plated through-holes are different types of the hole in the circuit boards. By using these holes, components on circuit boards pass the signal to and from different layers. PTH components need special types of soldering methods instead of using only paste.

Manual Soldering

This process is very simple and straightforward. At a single station, one person can easily insert one component into an appropriate PTH. Then, the person will pass that board to the next station. There will be many stations. At each station, a person will insert a new component.

The cycle continues until all components installed. So this process can be lengthy that depends on the number of PTH components.

Wave Soldering

It is an automated way of soldering. However, the process of soldering is completely different in this technique. In this method, the boards pass through an oven after putting on a conveyor belt. The oven contains molten solder. And, the molten solder washes the circuit board. However, this type of soldering is almost not practicable for double-sided circuit boards.

Testing and Final Inspection

After the completion of the soldering process, PCBAs pass through the final inspection. At any stage, manufacturers can pass circuit boards from the previous steps for the installation of additional parts.

Functional testing is the most common term used for the final inspection. In this step, testers put the circuit boards through their paces. Besides, testers test the boards under the same circumstances in which the circuit will operate.

For example, testers test the board on different voltages, signals, and current. If boards show fluctuation or unwanted behavior, the circuit boards fail the test. So manufacturers can recycle or scrape the circuit boards.