01-03-2017, 11:54 AM
Engineering of electronic communications
If you are interested in repairing or developing electronic communication systems, a degree in electronic communications engineering may be right for you. Read on to learn more about this field, including academic and career options.
Within the Engineering of Electronic Communications
The engineering of electronic communications is the use of science and mathematics applied to practical problems in the field of communications. Electronic communications engineers are involved in the research, design, development and testing of electronic equipment used in various communications systems. It is because of the electrical engineers that we enjoy such modern communication devices as cell phones, radios and television. If you would like to learn more about this field and how to enter it, review the following Study.com resources.
Education Information
Bachelor programs in electronics and electrotechnics with concentrations of communication are usually offered from undergraduate to doctorate. These programs prepare students for careers such as system engineers, research engineers, control engineers, communications engineers and electronic engineers, as well as researchers and university professors. Programs are rigorous with emphasis on math and science. Students study topics such as wireless, digital, data, and fiber optic communications. Students should seek ABET-accredited programs (www.abet.org). Engineers who offer their services directly to the public must be licensed by the state, which normally requires the graduation of a program accredited by ABET.
Associate degrees in electronic engineering technology are also available. These programs prepare students to find employment as technicians dedicated to the service and repair of equipment, such as broadcast television, radio and other telecommunication systems. Technicians also help engineers. Courses may include welding equipment, electrical circuit analysis, semiconductor devices and circuits, digital systems, industrial safety, microcomputer systems and electronic control systems. Employers range from research and development laboratories to manufacturers of electronic equipment, as well as universities, government agencies, medical laboratories and hospitals.
If you are interested in repairing or developing electronic communication systems, a degree in electronic communications engineering may be right for you. Read on to learn more about this field, including academic and career options.
Within the Engineering of Electronic Communications
The engineering of electronic communications is the use of science and mathematics applied to practical problems in the field of communications. Electronic communications engineers are involved in the research, design, development and testing of electronic equipment used in various communications systems. It is because of the electrical engineers that we enjoy such modern communication devices as cell phones, radios and television. If you would like to learn more about this field and how to enter it, review the following Study.com resources.
Education Information
Bachelor programs in electronics and electrotechnics with concentrations of communication are usually offered from undergraduate to doctorate. These programs prepare students for careers such as system engineers, research engineers, control engineers, communications engineers and electronic engineers, as well as researchers and university professors. Programs are rigorous with emphasis on math and science. Students study topics such as wireless, digital, data, and fiber optic communications. Students should seek ABET-accredited programs (www.abet.org). Engineers who offer their services directly to the public must be licensed by the state, which normally requires the graduation of a program accredited by ABET.
Associate degrees in electronic engineering technology are also available. These programs prepare students to find employment as technicians dedicated to the service and repair of equipment, such as broadcast television, radio and other telecommunication systems. Technicians also help engineers. Courses may include welding equipment, electrical circuit analysis, semiconductor devices and circuits, digital systems, industrial safety, microcomputer systems and electronic control systems. Employers range from research and development laboratories to manufacturers of electronic equipment, as well as universities, government agencies, medical laboratories and hospitals.