PCB, or printed circuit board, is the backbone of electronic components, and it is the carrier for the electrical interconnections of electronic components. Since PCBs are made using electronic printing technology, they are called "printed" circuit boards.
The main function of this product is to connect various electronic components to form a predetermined circuit, serving as a relay for transmission. Printed circuit boards are key interconnectors used to assemble electronic components, not only providing electrical connections for electronic components but also carrying out business functions such as digital and analog signal transmission, power supply, and RF microwave signal transmission and reception for electronic devices. Most electronic devices and products require the PCB, making them the "mother of electronic products."
The PCB industry began developing in the 20th century and has been continuously advancing. PCBs have made tremendous contributions to the development of the electronic industry. For example, it has led to the emergence and development of very high-performance small electronic components such as resistors.
Printed circuits are the foundation of many electronic devices. These PCBs are the mounting surface for other basic equipment, whether it is a simple printed circuit or the most complex circuit. For example, resistors, capacitors, semiconductors, transistors, and diodes require PCB fabrication to function.
PCBs are standard because they have many advantages. These boards are typically compact and lightweight in design, making them ideal for many modern electrical equipment. In addition, PCB fabrication is essential for very complex systems, as these boards are easy to use and maintain. Furthermore, these boards are cost-effective, since their production cost is much lower. Some of the common markets where you can find PCBs include:
The constant advancement of aerospace technology requires the use of compact but complex circuit boards. Flex-rigid PCBs have excellent durability and survivability, as they have no connectors.
The small size of available PCBs makes it easier to use the best medical devices. For example, medical hearing aids are made using PCB fabrication technology. In particular, rigid-flex boards are essential when reducing the complexity of the device is needed. These circuit boards usually do not require flexible cables and connectors that take up more space.
Industry and Commerce
PCB fabrication technology is revolutionary in the industrial and commercial markets. In addition, using these boards makes it easy to guide equipment with automation technology, which in turn increases productivity while reducing labor costs.
Most military equipment and machinery undergo heavy impacts and shocks. Like any other market sector, military equipment also integrates PCB fabrication technology. These devices require both mechanical and electrical performance. For example, the flexible and rigid-flex packaging needs to be modified. Both types of packaging can withstand continuous impacts and vibrations without damage.