Electrical engineering is a new discipline related to the design of electrical equipment. It originated from electrical technology, but unlike this discipline, electrical engineering also involves equipment and systems for microchips and large power plants.
Since its inception, the electrical engineering field has evolved and expanded into many specialized categories, including power generation and transmission systems, motors, batteries and control systems. Electrical engineering also includes electronics, which itself has branched into larger sub-categories such as RF systems, telecommunications, remote sensing, signal processing, digital circuits, instrumentation, audio, video and optoelectronics.
The main job is electrical engineers. Electrical engineers are engaged in transportation networks, lighting, heating, ventilation, elevator systems, power generation and distribution, renewable energy, manufacturing and construction. You will develop a detailed project, estimate schedules and costs, manage work technicians and craftspeople, test fixtures, analyze data and ensure compliance with health and safety regulations.
Typical employers of electrical engineers are consulting firms, civil servants, telecommunications, engineering, computers, construction, energy, manufacturing, transportation and utility companies, and armed forces. As an electrical engineer, your workplace will vary by lab, office and construction site, depending on the project and the project phase you are interested in.
They sometimes need extra working hours, especially during the end of their project. Electrical engineers may be involved in domestic and international travel.
International students studying electrical engineering in China are very popular. In fact, many universities in China offer bachelor's degrees and master's degrees in electrical engineering, providing scholarships for foreign students.
TOP 5 JOBS FOR ELECTRICAL ENGINEER STUDENTS
1. Electrical engineer
Electrical engineers are responsible for designing, developing, testing and supervising the manufacture of electrical equipment such as electric motors, radar and navigation systems, communication systems or power generation equipment. Electrical engineers also design electrical systems for cars and aircraft. Electronic engineers design and develop electronic devices, such as broadcast and communication systems, from portable music players to global positioning systems (GPS). Many people also work in areas that are closely related to computer hardware.
2. Software Engineer
Software engineers are responsible for creating information systems by designing, developing, and installing software solutions. They involve almost all aspects of new or modified software products. Software developers usually have strong computer programming ability.
Software engineering is a detailed study of software design, development and maintenance engineering. Software engineers solved the problem of low-quality software projects by introducing software engineering. A problem occurs when the software usually exceeds the timeline. Software engineers ensure that applications are consistent, accurate, and built on budget and requirements.
3. Electronic technician
Electronic technicians help engineers design and develop computers, communication equipment, medical monitoring equipment, navigation equipment and other electrical and electronic equipment. They often use measurement and diagnostic equipment to adjust, test and repair equipment during product evaluation and testing. They are also involved in the manufacture and deployment of automated equipment. Electrical technicians install and maintain electrical control systems and equipment. They also modified electrical prototypes, parts and components to correct the problem. When testing the system, they set up the test equipment and evaluate the performance of the development component or system under simulated conditions. They then analyze the test information to resolve design-related issues.
4. System Engineer
The system engineer is responsible for organizing the planning and engineering of the system infrastructure. They manage and monitor all installed systems, as well as develop software and implement system security and data assurance. System engineers should focus on building software-related courses to prepare for a career. For some positions, employers may prefer a master's degree. While writing code is not their primary task, system engineers must have a strong background in computer programming. They usually get this experience at school. In their careers, system engineers must keep abreast of new tools and computer languages.
Engineers design machinery, build skyscrapers, and supervise public works, but they also address social needs and problems at many other levels. At the molecular level, they are committed to drug delivery systems. At the macro level, they quantify the flow of pollutants through the soil to clean up oil spills, abandoned industrial sites and other biological hazards. At the atomic level, they are developing data storage that focuses on the electron spins in atoms. Clean drinking water, safe food storage and environmental protection are also within the scope of the engineer.
Calculus and Linear Algebra
Electromagnetism and Modern Physics
Embedded Systems Design and Interfacing
Common skills gained from this degree
- Electrical Measurements
- Circuit Design
- Active Learning
- Innovative Thinking
- Programming Languages