Electronic engineering is an engineering discipline related to electronic circuits, equipment, and systems that use them. Electronic engineering is a rapidly developing profession and a driving force for the development of information technology in the world. Electronic engineers create, design and develop everyday devices such as mobile phones, portable music devices and computers. Electronic engineering offers a wide range of exciting professional challenges, including the development of new innovations and developments in telecommunications, robotics, computing hardware, and electrical and electronic equipment.
Electronic engineering utilizes a variety of different types of electronic components from the more traditional analog components through to digital electronic components, microprocessors and microcontrollers as well as programmable logic devices. This means that electronic engineering can incorporate a large variety of different areas. The field of electronic engineering includes a variety of more specific electronic engineering fields including analog electronics, digital electronics, consumer electronics, embedded systems and power electronics.
The main job for Electronic engineering students is Electronic engineer. Electronic engineering develops the way electricity is used to control equipment. Electronic engineers continually improve the quality of our lives through the development of new equipment in the fields of medicine, communications, computing, security, business and entertainment. It is a challenging and creative profession which, by using the latest state of the art technology, has brought us MP3 players, digital cameras, security systems, improved weather forecasting, electronic medical devices and so many other things that we now take for granted.
THE DIFFERENCE BETWEEN ELECTRICAL ENGINEERING AND ELECTRONICS ENGINEERING
1. Electronic engineering
The main task of electronic engineering is to handle the functions and programming of small circuits and board-based circuits in order to properly run appliances such as computers, televisions, laptops and other appliances. When you look at a piece of equipment, consider whether it could work without chips or a motherboard. Cell phones couldn't run without these components, so that would be in the realm of electronics engineering.
We can find that electronic engineering focuses on mobile device research. In today's society, we rely on the latest technology and mobile devices to improve the quality of life, so electronic engineering has been particularly popular in recent years and the demand for qualified electronic engineers is increasing. The main responsibilities of an electronics engineer are to develop electronic products, submit recommendations for advanced technology, inform the latest changes in products and services, and then test the products for further processing. If you're interested in electronic devices and want to learn more about their workflow and how to design them, or if you're willing to solve electronic problems and want to develop technology to participate in technology improvements, then electronic engineering can help you find a high-paying job. At the same time, it will provide you with better employment opportunities. So, electronic engineering is a better choice in comparison to electrical engineering.
2. Electrical engineering
Electrical engineering products exist in our lives. A hydro-electric power plant can be filled with electronic regulatory and monitoring panels, but because it could run without these gadgets, the plant falls into the electrical engineering category.
Electrical engineering's main job is Electrical engineers. Electrical engineers develop different products based on the basic knowledge they have learned to help industries continue to grow. Electrical engineers focus on the design and development of tools and technologies. Electrical engineer's wages are higher but lower than those of electronics engineers. Electrical engineers can work in technology and even enter management and administration. At the same time, they can go to areas such as power engineering, communications, transportation, telecommunications, electronics, computers, wiring and lighting signal processing.
Information theory and coding
Signals and systems
Digital signal processing
Common skills gained from this degree
- Technical expertise
- Strong numeracy
- Team work
- General IT skills