Making It: A Processing and Manufacturing Website

A Comprehensive Introduction To PCB Packaging And Shipping

Printed circuit boards (PCBs) are used in many applications in the modern world. Products that rely on these components vary widely, from light-emitting diodes (LEDs) and aerospace equipment like space shuttles to medical devices and consumer electronics. If your organization manufactures PCBs, you understand why it's vital to ensure clients get quality items without any defects. That means observing high-quality standards through the entire process, from designing to packaging, shipping, and delivery. If you are unfamiliar with the packaging methods used to ensure PCBs are fully protected and secure during shipping, this article is for you.

Common PCB Packaging Solutions for Shipping

Some of the most commonly used packaging solutions experts used to prevent PCBs from damages during shipping include:

1.       Moisture-proof packaging

Standard PCBs are moisture sensitive. That means they need moisture protection to prevent numerous functional failures and problems like increased delay time in corresponding devices and slower circuit speeds. And, as moisture accumulates in the PCB cracks, resin, glass interfaces, or epoxy glass, the problems aggravate and eventually cause complete failure. Fortunately, reputable PCB packaging and shipping companies have a solution for these issues:  moisture-proof packaging. Most experts ensure your products are moisture-free by sealing them in quality barrier bags and desiccants.

2.       Anti-static packaging

PCBs are prone to electrostatic discharge (ESD) while in shipping. ESD occurs when a voltage potential is created by an abundance of electrons on an item's surface. And an electric arc or shock emanates if the item comes into contact with another object at lower voltage potential. Packaging and shipping experts use anti-static packaging to prevent damage that arises when a PCB is in the vicinity of a charged object. This solution stops latent damage and debilitating failure, otherwise known as catastrophic damage to your PCBs.

3.       Anti-vibration packaging

One of the culprits that lead to PCB failure is mechanical vibration. This issue causes vibration fatigue in solder joints and components mounted on the PCB using surface-mount technology (SMT). That, in turn, compromises connections and leads to faulty functioning and, in extreme cases, complete PCB failure. Mechanical vibration can also flex or bend the PCB, damaging components and joints within the affected area. But you can avoid all these by working with a shipping service provider offering anti-vibration packaging. This solution is designed to withstand the rigorous handling associated with shipping and protect your products from flexing, bending, and shock.

Final Thoughts

Your PCBs need protection in transit, and an excellent packaging and shipping company understands that explicitly. That is why they offer suitable solutions like anti-static, anti-vibration, and moisture-proof packaging options. Although the type of packaging you choose depends on your product needs and preferences, using a combination is more effective. Most importantly, you need to choose a PCB shipping company that understands your requirements and takes extra measures to ensure your clients receive undamaged goods.  To learn more information about PCB shipping, reach out to a company such as Advanced Circuits.