The most important information about microelectronics engineering

Introduction to microelectronics engineering

Microelectronic engineering is one of the branches of electronic engineering that deals with the study and manufacture of micro components found in many devices used in our daily lives, such as: computers, portable devices and various means of transportation, which are made of semiconductor materials. , such as: silicon, germanium and lies. The main difference between it and electronic engineering is that it deals with precision components and equipment.

The astonishing development of electronic engineering has brought about a rapid qualitative leap in our daily life, as the specializing in physicists, they are: John Bardeen, Walter Brattain and William Shockley, Transistor as one of the electronic elements used to conduct or create electrical voltage, as well as to regulate the flow of electronic signals in many

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Microelectronics Engineering Applications

Microelectronic engineering has many important applications, including:

The microsurgery team uses smaller incisions to perform their surgical functions.
Small and delicate devices make it easy for patients to take them with them everywhere.
Precision medical devices help reduce the effort and time spent performing surgeries and other medical procedures.
Improving the quality of electronics used in various modes of transport provides various services related to the reception of data, and thus the improvement of transmission processes.

Microelectronics engineer tasks

Among the tasks performed by a microelectronics engineer are:

Design basic circuits, prepare rough drawings to document designs as directed by engineers, using design software.
Semiconductor device test development and test equipment evaluation to develop engineering evaluation data for new designs or special studies.
Build, modify and repair electronic components and operate various test equipment such as; Oscilloscopes, logic and test sensors, and calibrators to check product compliance with process specifications.
Preventive maintenance, calibration and repair of installations and operating and testing equipment.
Helping engineering faculty, staff, and students develop processing and testing techniques and laboratory equipment.
Operate and maintain clean rooms, ensuring compliance with applicable standards.

The work force in the field of microelectronics engineering

Microelectronics technicians typically work 40 hours a week, in addition to the overtime that is usually paid, and their job requires a clean, well-lit and dust-free work environment, and requires them to be flexible and focused at the same time. perform their duties.

electronic Engineering

Electronic engineering is a branch of engineering that deals with the study of electronic circuits, devices, and microprocessors and how they are used. This is done through the manufacture, design and operation of various electronic devices used in our daily lives. Electronic engineering includes many fields and branches that you can work in,

Fields of work in electronics engineering

The job opportunities in electronic engineering vary to include small and large companies, in addition to other fields where the electronic engineer can work in different fields, the most important of which are:

1. Design and development of electronics in general
2. Interested contacts pls
3. Automation and the Internet of Things.
4. Medical electronics.
5. Defense electronic engineering
6. Manufacturing engineering and machine design with a high level of automation.
7. Radio broadcast.
8. Avionics.

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