What is electronic engineering? »Its definition and meaning

Electronic engineering is another of the important branches in which engineering is divided, while, being its base, electronics deals precisely with attending, solving and studying issues related to this matter such as: the transformation of electricity, control industrial processes, among others.

Electronic engineering is a branch of engineering, based on electronics, which is responsible for solving engineering problems, such as the control of industrial processes, the transformation of electricity for the operation of various devices and has application in industry, in telecommunications, in the design and analysis of microcontrollers and electronic instrumentation microprocessors.

This engineering is considered an area of ​​study of electrical engineering in the United States and Europe. Electronic Engineering is dedicated to the study of electronic devices, circuits and systems, including their analysis, design, development and operation, as well as the study of the principles on which they are based. These devices, circuits and systems can be used in a wide range of applications including but not limited to digital systems, communication systems, automation and control systems, transportation systems, and numerous personal and household appliances that make our lives easier and more enjoyable.

Electronic engineering is the set of technical knowledge, both theoretical and practical, that points to the application of electronic technology to solve practical problems.

There are fundamental similarities between electronic engineering and electrical engineering, both based on the study of the electrical phenomenon. However, the first one specializes in low voltage circuits, among them semiconductors, whose fundamental component is the transistor or the behavior of vacuum charges as in the case of old thermodynamic valves and electrical engineering specialized in electrical circuits. voltage as seen in transmission lines and power stations. Both engineering have common aspects such as mathematical and physical foundations, circuit theory, the study of electromagnetism and project planning.

Another fundamental difference lies in the factpower. Electronics are used to convert the waveform of voltages that are used to transmit electrical energy; electrical engineering studies and designs of electrical energy generation, distribution and conversion systems, in sufficient proportions to power and activate equipment, electrical networks of buildings and cities, among others.