2. Electronic engineering
It is said that electronics is indispensable to our daily lives, and that
as time has elapsed embeds itself more and more to our daily lives,
this is due to the technological advances we have today had also also
be said that it is difficult find someone more or less connected with
daily life, that has not heard of electronics, because few know what it
is. On the other hand, young people today who were born in the 80's
and 90's seen as a basic need services of electronics and
telecommunications; since they can not live without electronic
devices (cell phone, computer, and internet), a clear example of the
importance of electronic technology in our lives is when a company
water lack, the same continues his work but when in a company the
internet or computer failure, there is a technological deficit, since the
entire company is hindered, so the same work with the computer
system, bone perform banking transactions, sending email, etc. With
regard to the above electronics has led to a new era, and this new era
is the digital age, and when we say that a new era, when it begins to
change the ways of thinking of citizenship, when people have no
other way to interact, it has other customs and all this is caused due
to the development of electronic technology.
3. Knowledge areas
The electronic engineer has a deep training in
everything related to systems, circuits and electronic
instruments and applications.
This knowledge will enable them to:
. Plan and execute communications link systems,
electronic data processing (hardware), including
processing (software).
. Study, build and operate systems, subsystems and
components for the generation, transmission,
reception, distribution, reproduction and processing
of electromagnetic, optical and acoustic signals.
. Design and manufacture electronic equipment and
subsystems incorporate embedded electronic
machines, devices and processes of different types.
. Designing systems for communications, industrial
control and automation systems for professional
audio.
. Projecting and design intelligence systems in
buildings and homes, roads and urban traffic systems
and transportation.
. Understand and certify in noise and vibration
measurements following the legislation on
environmental impact.
hardware
software
Electronic
components
artificial
intelligence
4. Fields of action
There are many work canpos for electronic
engineer and as it passes the greatest demand s
time. but bear in mind what is now called for in
day.
The occupational field relates especially to
modern businesses that require computing both
to increase efficiency and control in the
productive sectors of goods and services sectors.
Among the former are the industries of mining,
energy, pulp and paper, petroleum,
manufacturing, food and agriculture industry
sector.
Among utilities, telecommunications, financial,
commercial, pension companies, consulting, and
medical services.
You can also perform consulting and
independent advice.
The modernization of equipment used in
industry and laboratories, innovations of new
computer applications to increase the level of
automation and the development of medical
equipment, continue to require electronic
technology professionals.
telecommunications
5. Electronic engineering is very important in our society as it is responsible for resolving
problems such as industrial process control transformation of electricity for the
operation of various devices and has application in industry, in telecommunications
design analysis instrumentation electronics, microcontrollers and microprocessors.
Among electronic engineering and electrical engineering there are fundamental
similarities, as both are based on study electrical phenomenon. However, the first
specializes in low voltage circuits including semiconductors, which have as a
fundamental component to the transistor or the behavior of the loads in a vacuum as in
the case of valves old thermionic and electrical engineering specializing in circuits
electric high voltage as shown in the transmission lines and power stations. Both have
common engineering aspects such as mathematical and physical fundamentals, circuit
theory, the study of electromagnetism and project planning. Another fundamental
difference lies in the fact that studied electronic engineering using electricity to
transmit, receive and process information, this being the basis of telecommunications
engineering, computer engineering and automatic control engineering. The concordant
point of electrical and electronic engineering is the area of power. The electronics used
to convert the waveform of the voltages used to transmit electrical energy; electrical
engineering studies and designs systems generation, distribution and conversion of
electrical energy in sufficient proportions to feed and activate equipment, electricity
networks of buildings and cities among others.
importance of electronic
engineering