The world of electronics manufacturing is changing. Due to the adoption of breakthrough technologies in recent years, encouraging manufacturers to re-imagine how goods are developed and manufactured in tomorrow’s smart factories.
We’ve gone through several revolutions since the 18th century. From farming to industrial production to the IT revolution, which enabled automated production with the introduction of electronics and technology. As digitalization takes root, we are witnessing the beginning of the Fourth Industrial Revolution. But how would this affect the electronics industry?
The Fourth Industrial Revolution
The First Industrial Revolution saw rural cultures across Europe and North America. It is become more industrialized and urbanized over the 18th and 19th centuries. The Second Industrial Revolution lasted from 1870 to 1914. They observed the introduction of electric power to generate mass manufacturing. It is follow by a time of growth for pre-existing industries and expansion for new ones such as steel, oil, and electricity. The telephone, light bulb, phonograph, and internal combustion engine were all major technological developments.
The personal computer, the internet, and information and communications technologies developed during the Third Industrial Revolution. It is which began in the 1980s. The Fourth Industrial Revolution (Industry 4.0) builds on this. Altering technology to become even more integrated into communities and the human body. Emerging breakthroughs in robotics, AI, nanotech, renewable energy, quantum computing, 5G networks and IoT, decentralized consensus, 3D printing, and autonomous cars are part of this new era.
It’s more than a label
Computers were disruptive when introduced in Industry 3.0 due to the arrival of wholly new technologies. Industry 4.0, on the other hand, has describe. It is an evolution rather than a revolution – it isn’t just another designation or technology.
Rather than technology, the underlying foundation for Industry 4.0 is advancements in communication and networking. These technologies can connect billions of people via the internet, dramatically increasing company productivity. It also assists the natural environment in regenerating through better asset management.
This surge in digitalization opens up new ways to respond effectively to client wants, allowing machines, computers, and even data to play a more active part in manufacturing and production processes, minimizing the need for human intervention and bringing the smart factory closer to reality.
Electronics manufacturing optimization and automation
We may not have a clear picture of what automation means for electronics manufacturing until we look back 30 years. However, the industry is expected to see significant adoption of automated equipment and smart technology on the manufacturing floor in the future years.
These enhanced technologies will aid in the automation of recurrent processes, the transformation of communications, and the execution of operations with minimal manual intervention. As a result, higher productivity, resources are better allocate, and shorter process cycles, with better quality control.
For example, 3D automated optical inspection (AOI) devices might replace 2D systems, and production managers could utilize augmented reality to monitor and report on a variety of factory floor metrics. Smart materials and intelligent labeling, on the other hand, might boost speed and agility by allowing manufacturers to track deliveries in real-time and automatically alert operations to delays.
Adapting to new working methods
Industry 4.0 and digitization are expect to generate even more disruption in the decades ahead. Making it critical for the current workforce to adjust skill sets and accept the changing landscape.