The electronics engineering industry is one of the most dynamically developing branches of the economy, and, as a result, high-tech products are on the rise more than ever.
With the production of smart homes, LCD, LED lights, and various other gadgets, applying modern scientific and technical knowledge to the electronic society has led to beneficial purposes that make our daily lives more accessible and more comforting.
Therefore, the electronics engineering industry has a role in creating new technology for all consumers to utilize now and in the future.
The Meaning of Electronics Engineering
The electronics engineering industry is a sub-discipline of electrical engineering, emerging in the early 20th century as a distinguished discipline consisting of the use of active components rather than the common use of passive ones. It is concerned with the practical applications of electricity, the uses of the electromagnetic spectrum, and how it is applied to electronic products.
The electronics engineering industry comprises high-value and up-to-date equipment, contributing to societal and technological progress. In other words, it consists of the technical designs and products that make up the information society, a term coined by Fritz Machlup, which consists of the creation, distribution, and manipulation of information and is determined as the most critical global economic and cultural activity. Its goal is to help businesses obtain a global competitive advantage by using technological advancements toward their own benefit creatively and efficiently, becoming a significant concept due to its ability to help shape the perspectives on the workings of the world and the affects of the decisions and behavior of individuals and businesses.
Therefore, electronics engineering has become the driving force and the foundation of multiple innovations in the technology sector, becoming a critical influence on the quality and comfort of daily life.
Branches of Electronics Engineering
Electronics engineering is the foundation of various fields, creating and stabilizing the basis of the source of cutting-edge technological products.
The fields below make up the primary sector of the electronics industry:
IoT
IoT refers to the network of technology that facilitates communication between connected devices and the cloud.
Circuits and Systems
The area of circuits and systems deals with the theory, analysis, and design of interconnected devices and components targeted at signal processing and communications applications.
Micro Electronics
A subfield of electronics, microelectronics relates to designing and manufacturing tiny electronic components. These devices are typically made from semiconductor materials.
Communication
Communication focuses on the transmission systems of information using communication devices. It enables us to communicate with other people worldwide without any physical equipment. Communication devices work on the strength of signals in order to make them strong enough for smooth communication in multiple markets, such as the field of aerospace.
Signal Processing
Signal Processing deals with evaluating and analyzing signals categorized as analog and digital. Analog signaling is concerned with the amplification of audio signals using different equipment. Digital signaling, on the other hand, involves checking and correcting the system’s error.
Control System
A control system is a network of electromechanical devices that regulate the behavior of dynamic process systems through control loops.
Robotics
Robotics is an interdisciplinary branch of electronics. It involves the design, manufacture, operation, and use of robots in order to help make our daily lives easier.
Automation
Automation involves making a system operate automatically by monitoring and controlling the manufacture and delivery of products and systems.
Electronic Commerce
Electronic Commerce, also known as E-Commerce, refers to buying and selling goods, products, or services through the Internet. It further deals with the currency transactions made between the consumer and supplier, such as an electronic component distributor.
The Future of the Electronics Engineering Industry
The electronic engineering sector is ever-evolving with multiple areas of disciplines, from communication to the Internet, that need newer technological advancements by the minute. Therefore, many sectors are in dire need of keeping up with the pace of the growing industrial society.
Better technical advancements are a must, and more innovative ways need to be found to take advantage of all of the technical opportunities presented to us, making our lives both easy and exciting simultaneously. Through global research and development teams, better ways of designing, manufacturing, storing, and using electrical sources are being produced.
Below are some of the new trends in the electronics engineering sector you should check out to get a glimpse of what’s on the horizon.
Smart Grid Solutions
The grid is a high-voltage transmission line that transfers energy from power plants to daily appliances in our home and work life. Through embedding innovative grid technologies into business networks, companies have modernized the grid system into what is known as a “smart” grid. This allows for valuable information to gather and provides customer leverage over various and multiple power sources. It further reduces costs by enabling end-to-end connectivity between power plants and end users.
Wearable Technology
Another trend labeled “smart” is wearable tech products like smartwatches. Products that are part of the wearable technology trend are equipped with sensors and are usually connected to the cloud or the Internet. In some instances, smartwatches can even inform users of any health problems they may have, potentially saving their lives with a single notification.
Artificial Intelligence
Another trend transforming the electronics engineering industry is Artificial Intelligence. They are meant to help intelligent supply chains and assist with complex production tasks with minimal to no human intervention, from basic roles to more precise and complex manufacturing processes, including both software and hardware modules in its system. AI can further work on low-value activities while human operators can concentrate on higher-value ones.
IoT technologies
From businesses trying to attain a competitive edge to households creating more accessible and convenient surroundings, creating IoT technologies is one of the most critical aspects of industrial society and its technological advancements. IoT delivers high-performance and efficient systems with the help of Research and Development (R&D) integration. As a result, multiple low-cost approaches are being designed and manufactured for the changing demands.
Robotics
Robotics-based systems have a significant role in increasing worker safety. With remote operations and wireless connections, various innovations are built into the electronics engineering industry in order to assist human operators with any work they have to do that may be deemed dangerous and life-threatening. This way, robotics helps increase efficiency and improve working conditions, leading to higher productivity and, as a result, higher revenue and cash flow.
Conclusion
The electronics engineering industry has become a hotspot for the newest and most innovative technological advancements. The preceding trends illustrate how far we have come and how we will transform our society even further in the future. Therefore, what solutions businesses come up with is vital to determine where they will position themselves within the competitive marketplace and how they will provide us with a safer and better way of life.