As IoT technology advances, so do the requirements for Printed Circuit Board (PCB) design and manufacturing. This blog extends the discussion on how IoT is driving innovations in PCB design, exploring deeper insights into new design techniques, material advancements, manufacturing challenges, and future prospects.
BGA assembly refers to the process of attaching a ball grid array (BGA) to a circuit board using a solder reflow process. BGAs are surface mount components that use an array of solder balls to create electrical interconnections between components and PCBs
The Internet of Things (IoT) is revolutionizing industries worldwide, and its influence on Printed Circuit Board (PCB) design and manufacturing is profound. As IoT devices become more compact, efficient, and interconnected, the demand for innovative PCB designs has surged. This blog delves into how IoT is transforming PCB design and manufacturing, the challenges it poses, and the opportunities it presents.
Printed Circuit Boards (PCBs) are the backbone of all electronic devices, akin to how cells are the foundation of the human body. As the structural framework of every electronic product, PCBs must be efficient and well-constructed.
When it comes to assembling Printed Circuit Boards (PCBs), there are two primary technologies: Surface Mount Technology (SMT) assembly and Through-Hole Technology (PTH) assembly
Fast Turn PCBs are printed circuit boards manufactured and assembled in a short time frame. This process is widely adopted by electronics companies because it ensures high-quality products while being cost-effective and time-efficient.
Printed Circuit Boards (PCBs) are the backbone of electronic devices, connecting components seamlessly for reliable functionality. Among these, Flexible LED PCBs have gained prominence due to their adaptability, reduced size, and cost-effectiveness compared to rigid PCBs. They are widely used across industries like consumer electronics, automotive, and aerospace
Printed circuit board (PCB) assembly is at the heart of electronic components and gadgets. Designers typically choose between two primary techniques for mounting components on PCBs: SMT (Surface Mount Technology) and PTH (Plated Through Hole).
An annular ring refers to the area of copper that surrounds the drilled hole (via) in a PCB. In multi-layer PCBs, vias are essential for connecting various layers. The annular ring ensures strong electrical conductivity between these layers, as it provides the necessary copper coverage around the hole.
The introduction of phenolic resin-based laminates in the 1930s improved mechanical stability and insulation. However, the game-changer was the development of glass-reinforced epoxy laminates (FR-4) in 1940, offering superior electrical insulation, moisture resistance, and mechanical durability.