electrical-engineering

The 5 must have skills for every electrical engineering student

Electrical engineering is a vast field of study; since most of the technological advancements relay on electricity, how it behaves and can be monitored, so as a field expert on this specific area one should have the basic theoretical and practical skills on the science of electricity, so here are the lists of the basic skill that every electrical engineer should have

1. understanding the basic theory behind the nature of electricity it self

The very basement for a solid understanding in the field of electrical engineering is understanding the vert nature of electricity.

start form the discovery, the times of Tesla, what inspired him to look for such an unseen phenomenon before his time, and then understand what lightning is, and then try to relate it with electricity or the other way around

 1.Performing circuit analysis

From designing simple resistor circuits to analyzing the frequency response of complex networks, designers will need to know how to write and solve the equations of node and loop analysis to figure out how component clusters are operating. Simulation programs can help with the heavy math when needed, but knowing how to set up the analysis will still be necessary.

2.Understanding analog filters(filters)

While the design of active analog filters may not be needed in all product development, understanding the effect that components have on analog signals is still an important skill to have. The capacitance, inductance, and impedance of both components and circuit traces can alter even digital signals in ways that, if not understood and compensated for, may cause systems to fail.

3.understanding op-amps

SONY DSC

The workhorse in nearly every application that requires signals beyond ones and zeroes, the operational amplifier is a versatile device. Used properly, it is an amplifier, integrator, signal conditioner, level shifter, and many more useful analog elements. The trick is in understanding the characteristics and limits of real devices rather than the idealized behavior described in textbooks.

4.Understanding and Designing digital filters

Digital filters are basic elements in today’s communication system These days, most audio, video, and wireless signaling go digital at some point in their travels, with many kinds of signal manipulation carried out in the digital domain. Knowing how digital filters work to manipulate the analog signal that underlies the data stream will prove essential to avoiding surprises, even if a developer only invokes canned functions instead of designing the filter.

5.About feedback control

Robots, air conditioning, autonomous vehicles, and many other systems depend on feedback control loops for their proper operation. (And such loops include filters, so see above.) Designers should know how control loops function, how to determine their effectiveness, and how to ensure that they are stable in their behavior. No one wants a system that goes “oops.”

Robots, air conditioning, autonomous vehicles, and many other systems depend on feedback control loops for their proper operation. (And such loops include filters, so see above.) Designers should know how control loops function, how to determine their effectiveness, and how to ensure that they are stable in their behavior. No one wants a system that goes “oops.”

Electrical engineering is a vast field of study; since most of the technological advancements relay on electricity, how it behaves and can be monitored, so as a field expert on this specific area one should have the basic theoretical and practical skills on the science of electricity, so here are the lists of the basic skill that every electrical engineer should have 1. understanding the basic theory behind the nature of electricity it self The very basement for a solid understanding in the field of electrical engineering is understanding the vert nature of electricity. start form the discovery, the times of Tesla, what inspired him to look for such an unseen phenomenon before his time, and then understand what lightning is, and then try to relate it with electricity or the other way around  1.Performing circuit analysis From designing simple resistor circuits to analyzing the frequency response of complex networks, designers will need to know how to write and solve the equations of node and loop analysis to figure out how component clusters are operating. Simulation programs can help with the heavy math when needed, but knowing how to set up the analysis will still be necessary. 2.Understanding analog filters(filters) While the design of active analog filters may not be needed in all product development, understanding the effect that components have on analog signals is still an important skill to have. The capacitance, inductance, and impedance of both components and circuit traces can alter even digital signals in ways that, if not understood and compensated for, may cause systems to fail. 3.understanding op-amps SONY DSC The workhorse in nearly every application that requires signals beyond ones and zeroes, the operational amplifier is a versatile device. Used properly, it is an amplifier, integrator, signal conditioner, level shifter, and many more useful analog elements. The trick is in understanding the characteristics and limits of real devices rather than the idealized behavior described in textbooks. 4.Understanding and Designing digital filters Digital filters are basic elements in today's communication system These days, most audio, video, and wireless signaling go digital at some point in their travels, with many kinds of signal manipulation carried out in the digital domain. Knowing how digital filters work to manipulate the analog signal that underlies the data stream will prove essential to avoiding surprises, even if a developer only invokes canned functions instead of designing the filter. 5.About feedback control Robots, air conditioning, autonomous vehicles, and many other systems depend on feedback control loops for their proper operation. (And such loops include filters, so see above.) Designers should know how control loops function, how to determine their effectiveness, and how to ensure that they are stable in their behavior. No one wants a system that goes “oops.” Robots, air conditioning, autonomous vehicles, and many other systems depend on feedback control loops for their proper operation. (And such loops include filters, so see above.) Designers should know how control loops function, how to determine their effectiveness, and how to ensure…

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