When the trends in electronics industry change, so do the rest of the world. Every day, the world’s most breakthrough innovations arrive in deceptively little electronic boxes, and society transforms as they become commonplace. However, the feedback loop works both ways, as technology is affected by societal material requirements.
With the creation of the transistor and silicon-based semiconductor technology in 1947, the electronic age started. Seven decades later, we are surrounded by electronic gadgets, and we rely on them in our daily lives, no matter how much we try to deny them. Silicon-based device performance has increased dramatically in recent decades, owing mostly to innovative processing and patterning methods, while nanotechnology has enabled shrinking and cost reduction.
For a long time, silicon was the sole choice in electronics. However, recent advances in materials engineering and nanotechnology have opened up new possibilities and trends in the electronics industry. Alternative trends are emerging, yet classic silicon electronics will continue to be the major emphasis.
Here are 7 upcoming trends in electronics industry;
1. Health Wearables
Health wearables are not only a significant fashion trend but also an educational movement at the moment. Since the discovery of COVID-19, we as a culture have grown much more conscious of our bodies health and mental status. A new generation of fitness devices, in my opinion, will emerge within the next several years. Fitness monitoring watches that track activity and fitness habits are the most popular health wearables on the market today. In the future, we may expect gadgets to show not only pulse and movement, but also blood oxygen levels and even brain function.
The use of a basic feature of particles known as “electron spin” for information processing is known as spintronics, a portmanteau phrase meaning “spin transport electronics.” The magnetic field of an electron spin can be observed in one of two directions: up or down. To the standard low and high logic values, which are represented by simple currents, this adds two more binary states and amazing trends in electronics industry.
The ability to carry information in both the charge and spin of an electron might provide devices with a wider range of capabilities. Spintronic technology has so far been tested in data storage devices like hard drives and spin-based transistors. Digital electronics in general might benefit from spintronics technology. The ability to control four specified logic states rather than simply two may result in increased information processing power, data transfer speed, and storage capacity.
In comparison to their silicon equivalents, spin transport electrical devices are predicted to be smaller, more adaptable, and more resilient. This technology is still in its early stages of development, and despite extensive study, we will have to wait a few years to see the first commercial spin-based electronic device.
3. 2-D Electronics
The discovery of graphene, a structural variation of carbon, sparked interest in the subject. The hexagonal two-dimensional lattice formed by carbon atoms in graphene has drawn interest because of its great electrical and thermal conductivity, mechanical flexibility, and extremely high tensile strength. The strongest substance ever tested is graphene. Andre Geim and Konstantin Novoselov were awarded the Nobel Prize in Physics in 2010 by the Royal Swedish Academy of Sciences for their “groundbreaking experiments” in graphene research.
Graphene may have sparked the 2D revolution and trends in electronics industry, but atom-thick allotropes of silicon, phosphorus, tin, silicene, phosphorene, and stanene, all have a honeycomb structure with diverse characteristics and uses. All four have the potential to transform the way we think about electronics, allowing for downsizing, improved performance, and lower costs. Graphene-based applications are being developed by a number of firms throughout the world, including Samsung and Apple.
4. Smart Grid Solutions
The grid is a network of high-voltage transmission wires that carry electricity from power plants to homes and businesses. When you plug anything in or switch on a light, you’re using the grid. The grid has improved in recent years and will continue to do so in the future as amazing trends in electronics industry. This current system is referred to as a “smart” grid, and it is an evolution of the existing grid that allows technology to connect to the network in order to extract more information from data.
Consumers no longer need to rely solely on local electrical power providers, as they once were. They now have a choice of options, and as a result, the power distribution system must adapt. In response to these demands, the majority of electricity providers throughout the world are integrating cutting-edge smart grid technology into their networks, all the way up from customers’ homes, offices, and businesses. The smart grid system collects data that users and producers may utilize to have better control over various electricity sources. It also enables them to predict increases in use and quickly identify disruptions.
5. Artificial Intelligence
Engineering is being transformed by artificial intelligence and machine learning, as well as many other areas. These are innovative trends in electronics industry. Even though these innovations appear to be “everywhere,” we must remember how incredible they are and the incredible things they inspire us to achieve individually and collectively. Artificial intelligence and machine learning can cause a shift in an engineer’s daily work list while also allowing them to perform things they never thought possible.
In the electronics business, AI is used in both software and hardware components. As machines become more advanced, they will be able to assist with not just intelligent supply chains and complex industrial activities, but will also be able to create and evolve tasks over time with little or no human participation, owing to machine learning.
Automobile manufacturers have long utilized robots on the assembly line, and they’ve gone from basic technical responsibilities to completing a wide range of precise motions for some of the most difficult portions of the job.
6. Innovation of Electric Vehicles
Electric cars are a component of the fourth industrial revolution, which is being fuelled by a major shift in innovation trends in electronics industry. As a result, although these advancements have the ability to generate new market sectors and job prospects, they also have the potential to render some occupations obsolete. Bentley said in 2020 that by 2030, all fossil fuel automobiles will be phased out of their product lineup.
Any Bentley that leaves the plant after then will be totally electric, releasing no CO2. Furthermore, Volkswagen, the world’s largest carmaker, is presently actively investing in the development of electric vehicles. Several other well-known automakers, like Honda, Audi, and Jaguar, have also stated their intention to go hybrid by 2030.
Researchers from the University of Birmingham offered their perspectives on several sorts of electric cars at last year’s CBI convention. They, like many other experts, envision a transition to electric vehicles as part of a bigger effort to recover from COVID-19’s worldwide economic collapse. They’re encouraging lawmakers and big businesses to take steps that will make it easier for more people to transition from gasoline to electric automobiles.
Students studying engineering who are interested in electric vehicle innovation will now have the opportunity to specialize in the field while still in school. Postgraduate degrees in automotive electric engineering and automotive engineering with electric propulsion are also available at universities worldwide. This will bring forward a new generation of electrical engineers specialized in greener transportation propulsion and will contribute massively to trends in the electronics industry and electronic engineering.
7. IoT Technologies
The establishment of the Internet of Things is one of the major events of the new industrial revolution (IoT). Digital transformation has become inescapable for the majority of businesses looking to better their competitiveness and wealth management. As firms battle for market dominance, manufacturers and engineers must create new equipment and the newest technology trends in electronics industry.
By supplying high-speed and effective solutions, the Industrial Internet of Things (IIoT) assists businesses in operating scalable production processes at cheap prices. Another major issue is the seamless integration of these integrated technologies. Design engineers and original equipment manufacturers (OEMs) employ research and development (R&D) to produce low-cost solutions to shifting needs. The Internet of Things has had an impact on a number of different parts of the electrical engineering scene. Smart grids, smart lighting, and Visible Light Communication (VLC) are just a few examples of how IoT is intertwined with the electrical engineering business.
As a result, having IoT skills is now a need for each electrical engineer. Smart inverters, automated metering infrastructure (AMI), remote control management of energy-consuming systems, and SCADA (supervisory control and data acquisition) are examples of IoT technologies in the electrical energy sector, in addition to the smart grid benefits of tracking, storage, and automation introduced in electrical utilities.
These are the amazing trends in electronics industry everyone should know.