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Top PCB Assembly Testing Methods: The Future of An Augmented Reality Overlay

Testing the PCB assembly process results

PCB assembly inspection

Developing circuit boards is a complex process. It typically involves taking an original or novel concept or idea and transforming it into a PCBA containing electronic circuits which perform the functions necessary to achieve the operational vision. During development or prototyping, your design is refined through a design⇒build⇒test (DBT) iterative process, which results in a design ready for scaled-up manufacturing or volume—low or high—production.

The build stage or circuit board manufacturing consists of fabrication and assembly. As the last stage, assembly is where the quality of your board design and build is verified. Understanding this process and the best PCB assembly testing methods is essential for ensuring the proper technique for verification and development optimization.

Understanding the PCB Assembly Process

Before PCB assembly, a componentless physical embodiment of your PCB layout is created during fabrication. This layout must be designed for specific DFM rules and guidelines from your manufacturer. In addition, and similarly, to facilitate successful PCB assembly, your CM’s DFA should be followed. There are several board assembly stages, as listed below, and each is important.

PCB Assembly Stages

As the list above shows, PCB assembly testing is an essential aspect of board manufacturing to ensure your PCBAs meet established manufacturing standards and additional criteria defined by you before being shipped out.

Current PCB Assembly Testing Methods

The level of quality required for most boards today means PCB assembly testing might not be an option. However, it is mandatory to ensure expected quality is met. Therefore, virtually all CMs employ at least some of the common PCB assembly testing methods listed below.

Common PCB Assembly Testing Methods

Highly Accelerated Life Test (HALT), or Highly Accelerated Stress Screen (HASS), to assess performance or reliability outside of normal operating conditions. Typically, these are only utilized for boards operating in extreme environments where failure is not an option.

The first three tests listed are atypical; however, the others—although commonly known—will likely only be performed if requested.

Optimizing PCBA Quality with Augmented Reality

The most often performed PCB assembly testing methods have drawbacks—manual, AOI, X-ray, and ICT tests.  The ICT tests can be expensive and time-consuming to perform, while the others are limited to surface inspection and cannot be used for functional testing. However, a new technique utilizes augmented reality (AR) overlay to combine the best of these techniques while also addressing their weaknesses. An example is shown in the figure below.

PCBA with AR overlay from InspectAR

The above figure of InspectAR, illustrates how an AR overlay can interact with a manufactured PCBA. With this technology, an engineer or manufacturing technician can compare individual components, traces, sub-circuits, or the entire board with design specifications at any point during manufacturing.

Errors can be identified easily, as with common PCB assembly testing methods. In addition, online troubleshooting and debugging can be performed to discover the best solutions before making any physical adjustments to the board through rework or the assembly process for repeated flaws. This use of software in conjunction with hardware is pointing the way to the future of PCB assembly testing and team management of ECAD.

If you’re looking for CAD models for common components, tips on the best design practices or information on advanced tools such as AR overlay for PCB assembly testing methods.

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