During the manufacturing of printed circuit boards (PCBs), a lot of attention is focused on how tools and processes are handled to avoid many common quality issues such as brittle joints, cold joints, and voids. Voids consist of an empty space somewhere along the PCB where not enough of a certain material was added. If the voiding issue is not addressed, then the entire PCB may need to be scrapped.
At the conclusion of our webinar, Effective Ways To Reduce Your CNC Machining Costs, we had several questions submitted to our presenter, Mark Stanley, General Manager at Metal Craft Machining, Epec’s sister company. We have compiled these questions into a readable format on our blog.
An electrical continuity test is used to determine if there is an uninterrupted path within a circuit allowing current to pass. Continuity allows electrical components to become properly energized and operate as intended. Simple electrical tests can help verify continuity quickly and inexpensively in a circuit, with sophisticated test equipment available for higher complexity options.
Not all printed circuit board (PCB) materials are created equal. In fact, to say there is an equivalent for any is untrue. Although, they are all in line with each other for basic attributes and are close but not exact. These many different flavors are also not always available; some come with a steep cost, a high Minimum Order Quantity (MOQ,) and a long lead time.
When machines operate, they generate internal heat that may compromise working components. The same situation holds true for battery cells. Cells undergo a chemical process that provides power to devices.
There are several reasons for the need to plug printed circuit board (PCB) holes. Some of the most commonly seen reasons include: properly tinting or covering the via with soldermask (isolation), to prevent entrapment (solder, chemistry, flux), to prevent solder starvation (wicking of solder in the hole/surface mount technology (SMT) placement directly on via), and for thermal or electrical purposes.
When designing a custom cable assembly, it can be more in-depth than you would initially think. All you have to do is make connections, right? What could be intricate about that? If care is not taken during the design process, it could lead to unintentional failures or incorrect functionality down the line.
At the conclusion of our webinar, Why High-Tech Multi-Layer PCB Features Add Cost and Processing Time, we had several questions submitted to our presenter, Angie Brown, PCB Product Manager at Epec. We have compiled these questions into a readable format on our blog.
When it comes to manufacturing printed circuit boards (PCB), providing your PCB supplier with a clean data package can decrease cycle time and ensure requirements are clearly understood.
Flexibility is a critical element in most flexible circuit board designs. Whether it’s to meet a tight “one-time bend-to-fit” application or a “dynamic” infinite bend cycle application. To meet these requirements, a flex circuit design must be kept as thin as practically possible, use the correct copper type, and utilize the correct copper plating process.