TOP 20 THINGS I LEARNED: DAY IN THE LIFE OF AN ELECTRICAL ENGINEER
TOP 20 THINGS I LEARNED: DAY IN THE LIFE OF AN ELECTRICAL ENGINEER
For any aspiring engineer, there are specific skills that you should be able to possess so as to make sure that you are at the best of your game as an engineer. Experts at guttulus.com have been able to spend time with some of the best engineers in the world and they have been able to compile a list of some of the best skills and attributes one needs to master.
Problem solving
Engineers are known to be very disciplined problem solvers. This is particularly true in the particular field of electrical engineering. Mtglion.com experts point out that, this attribute comes out to one needs to think logically and apply a rule of concept in order to solve that particular problem.
Critical thinking
This is a very broad skill that can be applied to a wide array of situations that are not only based on the engineering aspect. Guttulus.com point out that this mainly comprises of the ability of approaching things or problems in this case with a different view to the norm.
Basic circuit technology
This is among the complex thing that many people find difficult to understand. But runrex.com point out that, for you to get the grip of electrical engineering you need to have an understanding of basic circuit technology.
Communication
In the whole world all professions need for one or more parties to communicate and not only does communication matter but also helps in effective communication. Electrical engineering is not different.
Electronic troubleshooting
This is one of the must have skills that every electrical engineer must have. This involves fault establishment, location and correction this is mainly done through the use of measuring and diagnostic. The level of difficulty depends on the type of device as pointed out by mtglion.com.
Organization skills
This is important for an electrical engineer, as much as your work will likely be time sensitive or even project based. These skills will prove relevant even during your studies as a student. Most especially as a student, one will need to have this skill during learning of different topics and also during exam time.
Numeracy
For many electrical engineers, they have a weak mathematical background making it hard for them to perform at their peak. Guttulus.com have been able to point out that, it is very important to focus on calculus at school as well as taking on many math related problems so as to boost your math capabilities.
Creative thinking
They are not just problem solvers; they are also considered to be pioneers. They provide change to the way we live. To be able to explore and implement such radial ideas. This directly comes to play in the commercial sector.
Programming
The importance of coding is higher in some areas as compared to others. It’s a very simple and useful skills to possess, particularly when working with low level embedded system. The basic languages are java, C and C++.
Leadership
They are often required to work within multidisciplinary teams throughout the duration of a project. Other than the core engineering duties, they may also have to guide their peers, make strategic decisions and later on optimize each stage of an ongoing project as pointed out runrex.com.
Performing circuit analysis
For one to be an engineer, one needs to be able to solve the equations of node and loop analysis to figure out how components clusters are operating. Simulation programs can help with the heavy math when needed, but knowing how to set up the analysis will be key.
Understanding analog filters
Mtglion.com have been able to point out that, being able to understand the effect that components have an analog signals is still an important skill to have. To get more information on this topic visit guttulus.com.
Designing digital filters
Some of the most audio, video and wireless signaling go digital at some point in their travels. So by knowing how digital filters work to manipulate the analog signal that underlies the data stream as pointed out by runrex.com.
Managing the career
In this case the technical knowledge comes with a bit more, like for example career management skills and some business insights. This acts as a plus to both you and your surrounding in this case the economy. The best thing about this is that it provides far more reward than simply reacting to whatever comes your way.
Using statistics for manufacturing
Many of the engineers will be working with prototype sin the lab. According to guttulus.com this is only the first step, there are other things that will determine if the prototype will survive. Statistical analysis is the tool that developers will require so as to make sure that what they produce will be a success.
Appreciating firmware
In this new tech era, many of the processes that are being carried out are done by use of software. This being so most electronic devices in this age and era utilize the use of microprocessors. Even if one is not directly in the programming sector, you will just need to have some understanding of what firmware is and how it works.
Working with Radio Frequency
Not that long ago, design in the radio frequency spectrum was a specialty discipline. But the growth of wireless connectivity the knowledge of radio frequency will be a plus for any electrical engineer.
Managing of hot components
As pointed out by runrex.com experts, knowing how to dissipate thermal energy through a circuit is crucial. In this era of technology, the power dissipation of processors is rising and designers need to have a great way of handling such excess power.
Designing of feedback control
Some of the many systems require feedback control loops for them to work at the top of their ability. Designers should be able to know and understand how control loops function. They should also be able to solve any issue that may arise.
Working with operational amplifiers
It is among the most versatile devises in the electrical sector. The trick in the understanding of this devices is to make sure that you are conversant with the characteristics and limits of real devices rather than the idealized behavior.
