How PCB Assembly Works: A Comprehensive Guide for Beginners

PCB assembly is a critical step in producing reliable, high-performance electronic devices. When you’ve finished your design files, the assembly begins, turning your concept into a fully functioning circuit board. Precision-assembled PCBs are the basis of every modern electronic product – whether it’s a smartphone, computer, medical device, or industrial machine. In this article, we will break down the whole PCB assembly process step by step, covering everything from the assembly technologies used to the final quality control checks. Let’s dive right in.

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What Is PCB Assembly?

PCB assembly is a manufacturing process where electronic components are soldered onto a printed circuit board, creating a functional electronic system. This process can be done by machine or manually. However, unlike PCB fabrication which involves building the board itself, PCB assembly focuses on populating the board with resistor, capacitor, integrated circuit, connector and so on. To ensure that each board can meet exact performance specifications, precision, state-of-the-art technology and expert skill are all needed to carry out this process.

Types of PCB Assembly Technologies

1. Surface Mount Technology (SMT) Assembly

SMT assembly is the most popular assembly technology in the electronics industry today. It refers to mounting electronic components directly on the surface of the board through solder paste by using specialized equipment. SMT allows for:

• Smaller, more compact board designs
• Higher component density
• Faster assembly processes
• Improved performance for high-frequency applications

2. Through-Hole Technology (THT) Assembly

The second is through-hole technology, which involves inserting component leads into pre-drilled holes in the PCB and then soldering them on the other side. While gradually being replaced by SMT, THT remains crucial for:

• Components needing high mechanical strength
• Power electronics
• Military and aerospace applications

3. Mixed Technology Assembly

This kind of PCB assembly technique combines both SMT and THT techniques. This approach is ideal for complex electronic systems requiring:

• Advanced component placement
• Varied component types
• Optimal performance and reliability
• Design and manufacturing flexibility

PCB Assembly Process: Step-by-Step Breakdown

Step 1: Apply solder paste

First, put the PCB stencil over PCB pads. Then apply the solder paste and spread it evenly. After removal of the stencil, the solder paste will cover evenly to the area where the components have to be placed. The process is usually done with automated equipment to improve the speed and accuracy.

Step 2: Place components

In the second step, we need to use an automatic pick-and-place machine to accurately place the required components in the position where the solder paste is applied.

Step 3: Reflow soldering

In this step, we need to put those boards with components into the reflow oven to melt the solder paste, and when the solder paste is all melted and cooling down, the components stick to the board and form electric connections.

Step 4: Initial inspection

We then carry out initial inspection. The use of various inspection methods like visual inspection, AOI, X-ray inspection will help us to know if these PCBAs have any problem like components misalignment, poor solder joints, etc.

Step 5: Insert the plated through-hole component

For some larger and heavier components that need to withstand greater mechanical stress,  they need to be assembled by through-hole technology. Simply insert the leads of these components into the pre-drilled holes and then connect them with manual soldering or wave soldering.

Step 6: Perform functional test

Finally, test the functions of these assembled PCBs. Simulate the actual use conditions including voltage, signal and current, and see if they can operate normally and achieve the expected performance.

Soldering Methods in Printed Circuit Board Assembly

1. Wave Soldering

In wave soldering, the bottom side of the PCB gets passed over the wave of molten solder. The wave then touches exposed metal pads on which it forms the solder joints. It is a fast and efficient method of large scale production, especially good for soldering through-hole components and allows for multiple connections to be done at the same time.

2. Hand Soldering

Hand soldering involves technicians using solder iron to apply solder to the leads of individual components on the board. It is featured with high precision and great control, well suited for a small production run, rework or repairs. And it is also very helpful when dealing with fine tuning or complicated components.

3. Reflow Soldering

Reflow soldering has become the perfect solution for modern printed circuit board assembly. In this case, the component pads are covered with solder paste and the board is then heated in a reflow oven. The heat melts the solder paste, attaching the components to the board firmly as it cools down.

4. Selective Soldering

Selective soldering can solder specific area of PCB, which offers a high level of precision. It is ideally used where PCB has both surface mount and through holes components. They are also used when focused heat in certain areas is required.

Below we have listed a table to compare these 4 PCB soldering technologies from different aspects:

Testing and Inspection Methods in PCB Assembly

• Functional Testing

It ensures that we assemble the PCB the way it should operate. This testing method tests the board in the simulated real world conditions to ensure that the board is designed correctly and that it will operate correctly on the intended environment.

• In-Circuit Testing (ICT)

In-Circuit Testing (ICT) can test individual components assembled on the PCB, checking their functionality in circuit. One of its advantages is that it permits easy check without the need to take apart the board.

•  Automated Optical Inspection (AOI)

AOI allows technicians to inspect the PCB with high-resolution imaging systems. It can find issues such as bad component placement, broken solder joints or potential problems. The defect detection process is automated and more efficient compared to manual inspection.

• X-Ray Inspection

X-ray inspection is performed when solder joints are not visible at the surface of the board and there is coverage over joints or inside multilayer PCBs. This makes it possible to check internal structure by means of this non invasive technique, inspecting hidden defects that cannot be detected by simple visual checks.

Key Factors Affecting PCB Assembly Costs

PCB assembly costs can be affected by several factors, including:

• Board Complexity: The cost of assembly tends to increase if the PCB design is complex such as multi layer PCBs, or high density interconnect (HDI) boards
• Component Types and Quantities: Customization, high-end components or large quantities of components can lead to more expensive solutions. And more precise handling may be required for special components such as BGAs or fine pitch devices, which also increase costs.
• Assembly Technology: For high volume production, SMT is usually less expensive; while for more specialized designs, THT or mixed technologies are used.
• Production Volume: As a rule, economy of scale cuts costs at higher production volumes. It could be more expensive for fabricating prototypes or low-volume production runs.
• Material Specifications: The cost would also be affected by the choice of materials, such as the PCB substrate or surface finish. All premium materials normally lead to higher production costs.

In conclusion, the PCB assembly is a vital process and contains several stages, from component placement to functional testing. Knowing the assembly technologies and processes will help you make decisions about your circuit board assembly projects.

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Surface Mount Assembly Process

Originally, all PCBs were assembled by hand using only a solder iron. As technology progresses, components get smaller and more difficult to assemble by hand and the amount of components that may fit on a single board increases. Thus the need for auto assembly was developed.

Required Elements

The following are the required elements for auto assembly:

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• Gerbers in 274-X (embedded apertures) including fabrication drawing.

• Part centroid text file with Reference Designators, external placement layer, and X & Y location and rotation in ASCII format.

• Numerical control (NC) drill files

• Solder paste file (one of the Gerber files) for all sides mounted

• Glue dot file

• If possible, the design database, specifying the database format (program name)

• Parts list or BOM (bill of material)

• Parts or hardware required

The Gerber files are used to define the pad locations and help the assembly house determine where pin 1 is located and provides a heads-up of how the board looks. The database can also be used to determine the location of pin 1. Some board houses choose to make their own solder paste file/stencil. The designer may create the solder paste file to his/her own preference with experience. It is good to learn how and why the assembly house makes its stencils and duplicate it to ensure consistency from each assembly house (the common name for any company that assembles boards). The solder paste file is used to mask the entire board except those areas that will be soldered. Solder paste is applied to the exposed pads and the stencil is removed. Components are applied and held to the board by the solder paste and the glue dots securing the components as they are soldered to the board.

For component placement a part placement/centroid file is required to know where the center of the part is. The layer ID shows what side the part is placed on, and the rotation displays the orientation of the component.

Consistency in rotation of the original component is critical to report. Unless the designer's software can account for inconsistencies, all components should be created in the same orientation.

NC drill files are used to locate mounting holes and provide the holes sizes for thru-hole components. This also allows the assembly house to determine adequate clearance for the component lead.

A bill of material or parts list is used to reference the designators of the centroid file and the components that need to be mounted. The BOM should also provide information if the component is an SM component or a thru-hole component.

Other Considerations

Other considerations for auto assembly are the board size, the panel size, and breakaways. The boards are commonly assembled in a panel that may contain many boards. The panel is the original material that the boards were etched routed in. The panels pass to the assembly house with all boards intact.

Note

Breakaways are the connections around a board that hold the board during assembly but can be broken easily when it is time to remove the board.

1.Ordering a Board

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2.DFM Check

The DFM check looks at all the design specifications of a PCB. Specifically, this check looks for any missing, redundant or potentially problematic features. Any of these issues may severely and negatively influence the functionality of the final project. For example, one common PCB design flaw is leaving too little spacing between PCB components. This can result in shorts and other malfunctions.
By identifying potential problems before manufacturing begins, DFM checks can cut manufacturing costs and eliminate unforeseen expenses. This is because these checks cut down on the number of scrapped boards. As part of our commitment to quality at a low cost.

3.Incoming Quality Control(IQC)

PCBWay Verifying all incoming materials and handling quality problems before subsequent SMT assembly begins. Our IQC position will check following issues of incoming materials if they comply with our strict requirements.

• model number and quantities according to BOM list

• shape (deformation, broken pin, oxidation etc), particularly for IC or other complex components

• sample test of incoming materials by tools such as test frame, multimeter etc.

• If above defect or discrepancy occurs, we will return full incoming materials to supplier or customer.

4.Machine programming - Gerber / CAD to Centroid / Placement / XY file

Having received the PCB panels and components the next step is to setup the various machines used with the manufacturing process. Machines such as the placement machine and AOI (Automated Optical Inspection) will require a program to be created which is best generated from CAD data but quite often this isn't available. Gerber data is almost always available as this is the data required for the bare PCB to be manufactured.

5.Solder Paste Printing

The first machine to setup in the manufacturing process is the solder paste printer which is designed to apply solder paste using a stencil and squeegees to the appropriate pads on the PCB.

6.Component Placement

Once the printed PCB has been confirmed to have the correct amount of solder paste applied it moves into the next part of the manufacturing process which is component placement. Each component is picked from its packaging using either a vacuum or gripper nozzle, checked by the vision system and placed in the programed location at high speed.

There is a large variety of machines available for this process and it depends greatly on the business to what type of machine is selected. For example if the business is focused around large build quantities then the placement rate will be important however if the focus is small batch/high mix then flexibility will be more important.

7.Pre-Reflow Automated Optical Inspection (AOI)

Following the component placement process it is important to verify that no mistakes have been made and that all parts have been correctly placed before reflow soldering. The best way of doing this is by using an AOI machine to make checks such as component presence, type/value and polarity.

8.Reflow Soldering

Once the components are placed on the boards, each piece is sent through our reflow machines. This means the solder paste needs to solidify, adhering components to the board. PCB assembly accomplishes this through a process called "reflow".

This would appear to be one of the less complicated parts of the assembly processes but the correct reflow profile is key to ensure acceptable solder joints without damaging the parts or assembly due to excessive heat.

When using lead-free solder a carefully profiled assembly is even more important as the required reflow temperature can often be very close to many components maximum rated temperature.

9.Post-Reflow Automated Optical Inspection (AOI)

The last part of the surface mount assembly process is to again check that no mistakes have been made by using an AOI machine to check solder joint quality.

Often, movement during the reflow process will result in poor connection quality or a complete lack of a connection. Shorts are also a common side effect of this movement, as misplaced components can sometimes connect portions of the circuit that should not connect.

Checking for these errors and misalignments can involve one of several different inspection methods. The most common of these inspection methods include the following:

• Manual Checks
• Automatic Optical Inspection(AOI)
• Automated X-ray inspection(AXI)

10.Conformal Coating

Some completed Printed Circuit Board Assemblies have a conformal coating. It's usually depends on the customer's product requirements.

11.Final Inspection and Functional Test

After the soldering and conformal coating step of the PCB assembly process is finished, a final inspection will test the PCB for its functionality by our Quality Assurance team. This inspection is known as a "functional test". The test software and tools are usually provided by the customer, PCBWay can also make fixtures according to customer requirements. The test puts the PCB through its paces, simulating the normal circumstances in which the PCB will operate. Power and simulated signals run through the PCB in this test while testers monitor the PCB's electrical characteristics.

12.Washing and Drying

Suffice it to say, the manufacturing process can be a filthy one. Soldering paste leaves behind some amount of flux, while human handling can transfer oils and dirt from fingers and clothing to the surface of the board. Once all is said and done, the results can look a little dingy, which is both an aesthetic and a practical issue.

13.Packing and Shipping

All assembled boards are packaged (can request in anti-static packaging) and shipped DHL,FedEx,UPS,EMS,and so on. Any unused components are returned in accordance with customer instructions. Additionally, customers are notified via when their packages ships.

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