The Printed Circuit Board (PCB) industry is the basic industry of electronic information product manufacturing and the industry with the largest output value in the global electronic component industry. PCB has a wide range of applications, ranging from home appliances to products such as ocean exploration. As long as there are electronic components, PCBs are needed for support and interconnection between them.
As the development of technology, you may curious about the trend of PCB industry. In this passage, we are going to talk about this topic and please check the content we provide for more information.
The pervasiveness of PCBs in our daily lives has continued to expand. To a high degree, this growth has been driven by consumer demands for smarter products that monitor or control more of the common activities in which we engage as well as industry demands. For example, in aerospace, medical devices, automotive and commercial electronics, industry demands include enhanced functionality and capability. These demands have been met by the utilization and development of new materials, components and manufacturing technology. To keep pace with the projected trends below, PCB manufacturing processes and equipment must continually evolve.
Trend 1: High Density Interconnect
High density interconnect (HDI) was developed in response to the demand for smaller and smaller products with greater capability, especially in terms of routing traces. This capability that allows for fewer layers in the PCB stackup and promotes high-speed signal transmission. HDI manufacturing faces challenges with fabricating traces such that a greater number of traces may be routed within a smaller area, which introduces issues like noise and interference. Extensions of this concept, every layer interconnect (ELIC) and any layer interconnect (ALIC) should also see continued growth over the coming years.
Trend 2: High Power Boards (48V and higher)
There is a significant thrust towards higher power PCBs. This includes boards with up to 48V supplies. These voltage levels are in response to the growth in solar energy, where panels typically operate at 24V or 48V, and electric vehicles (EVs) where voltages may be in the hundreds. These high power boards require PCBs to mount larger components like battery packs while being able to deal with interference issues effectively.
Trend 3: Internet of Things
The Internet of Things (IoT) is a multi-tiered design strategy that requires fast communication (typically wireless) between layers and elements. This is the key technology behind smart homes and offices and remote monitoring and control. The primary manufacturing challenge for IoT PCBs is meeting various standards and regulations that govern their development.
Trend 4: Flex PCBs
Flex and rigid-flex PCBs are rapidly gaining market share in PCB development. In fact, it is predicted that by the mid-2020’s, one-third of all PCBs manufactured will be flex. The advantages of flex boards include increased capability, smaller size, higher reliability and more material options. However, before selecting your materials, you should be aware of the critical attributes that impact flex board manufacturing.
Trend 5: Commercial-Off-The-Shelf Components
Another trend that is taking hold is the use of Commercial-Off-The-Shelf or COTS components. The use of COTS components is thought to be able to bring some standardization and reliability to the components used in critical space-based systems. Traditionally, components used in space manufacturing have been heavily scrutinized; however, the commercialization of the industry may lead to reduced regulation of components.
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