Electrical certificate, No matter what it is, whether it’s as simple as a light bulb, or an advanced piece of equipment such as a smartphone, devices that are powered by electricity are an integral part of our daily lives. The significant role electronics play in modern society has placed electrical engineers among the most influential professionals in the age of digital. Without them, there would be no communication, GPS navigation systems, or even power generators.

Electrical engineering is the foundation of a variety of services and products that are offered across a range of industries which is that electrical engineering is an ever-growing and constantly developing field. If you’re wondering how you can become an engineer in the field it’s the initial step to get an educational program that fits the position. A Master of Science in Electrical Engineering (MSEE) program offers the necessary education to be an electrical engineer who is ready to create new ideas in this exciting field, electrical certificate.

But there are many differences in electrical engineering jobs. Not all jobs are not created to be the same and neither are all education pathways to the field the similar. To help you gain a thorough knowledge of electrical engineering and the expectations for those who enter the field, it’s recommended to start by providing a broad outline of the duties that the job requires as well as the main responsibilities.

Electrical Engineering Job Description:

One of the reasons that makes the electrical engineering field so attractive and full of potential is that a lot of the tasks and capabilities of electrical engineers cross-over regardless of kind of job.

The description of a job in electrical engineering typically covers the following duties that are essential to the job:

Making technical reports and creating project documentation; analyzing and compiling engineering data

Cost estimation for an engineering project to budget reasons:

Meeting with customers and engineers to discuss project ideas and create timelines and group collaboration with technicians and engineers

Staying up-to-date with the latest regulations for compliance and ensuring that every engineering project is in conformity

Conducting engineering tasks using Computer-aided Design (CAD) programs and equipment for engineering.

Responsible for the production of electrical equipment, from the development and design phase to the point of production

Designing, creating installations, testing, and maintaining equipment and devices that are powered by electricity. Examples range from devices such as cellphones to the largest of power generator

Designing and implementing satellite navigation as well as Telecommunications equipment and systems

Assisting in the manufacture, distribution, and supply of energy procedures of systems and equipment that operate on electricity.

Designing propulsion systems used by electric transportation systems, like rail and automobiles.

Are you looking for ways to improve and increase the efficiency of the existing equipment and systems?

It’s important to remember the fact that electrical engineers don’t all are employed full-time by one employer. Based on their expertise and the nature that the work is, engineers can be employed as contractors, consultants, and project manager.

Education and Certification Requirements in Electrical Engineering:

The process of being an engineer starts by completing you’re the education. While a Bachelor of Science in Electrical Engineering (BSEE) will provide an overview of the field of engineering and allows graduates to be eligible for entry-level positions Many students decide to go one step further to pursue a higher degree.

A MSEE program will provide students with greater understanding of topics like math and physics in addition to technological, problem-solving and critical thinking abilities – each of these are vital for any electrical engineering position. When thinking about how one can be an electrician, education as well as practical experience are two of the areas that are crucial to the job.

In addition, master’s degree in electrical engineering programs let students to select a specialization. This is particularly beneficial for students who already have an idea of what career they’d like to pursue after finishing their education. The areas of concentration in the MSEE program can comprise the following:

Autonomous, unmanned vehicles

Digital signal and communications processing

Computer engineering

Electrical engineering in general

Electronic navigation systems

 Micron devices, systems and micro-nano devices

The majority of entry-level positions do not require certification to be electrical engineers. People who are looking for more advanced tasks or leadership positions nevertheless, must obtain the professional Engineer (PE) certification. Licensed PEs supervise projects of engineers who are not licensed, and are able to approve projects, and provide direct services to people. The essence of having a PE license grants the electrical engineer greater freedom and power. 

Earning a degree of four years of engineering through an accredited institution

The exam is passed if you pass an exam called the Fundamentals of Engineering (FE) test

Four years of experience in engineering under a PE licensed

Successfully passing an exam.

Achieving the PE test proves that the engineer has the ability to manage projects and supervise other engineers.

What Are the Different Areas of Electrical Engineering?

Engineering is extensive and covers a variety of different fields of electrical engineering which cover various industries. The majority of electrical engineering positions can be found in the five following areas:

Computer Engineering:

Computer engineers create and design hardware and software applications. Electrical engineers working in the area of computer engineering will develop and test equipment such as circuit boards routers, as well as computer programs. Other responsibilities and duties could include:

Working with a group composed of developers, designers engineers, and project managers to accomplish the goals of a company for a new hardware or software product or application; developing or writing programs that meet requirements of the company’s program

Implementing patches, updates and new features to the existing hardware and software applications as well as handling bugs and technical support

Analyzing current hardware and software applications and then developing better versions that run faster or more efficient or include more options

Developing the security program and then implementing it that will secure the network of your company

Autonomous Unmanned Vehicles:

Unmanned autonomous vehicles (AUVs) are a new branch of engineering that lets electrical engineers develop and construct air land, sea, and vehicles that do not require human driver to steer them. The primary advantage from autonomy is the fact that the vehicle is able to function while keeping humans from potentially hazardous situations. A large number of AUVs are currently being developed specifically designed for military use like drones that fly small tanks and submarines.

The function of the electrical engineer is a crucial factor when designing and implementing the operation for the AUV. The AUV can be constructed to be remotely controlled by a person or be autonomously operated by using AI or artificial intelligent (AI). Autonomous vehicles are able to regulate themselves using a set of cameras and sensors that control the movement.

One of the most well-known models of an AUV that is currently in development is the self-driving vehicle from Tesla. The concept is far from becoming a fully functioning technology that doesn’t require human intervention.

Embedded Systems:

Embedded systems are used extensively in the fields of consumer electronics, aviation, medical science, manufacturing engineering as well as automotive technologies. The term embedded software engineering refers to the process of creating an instrument for controlling equipment or devices (excluding computers) by using software engineering. Typically, an embedded device requires various software tools, microprocessors as well as an operating system designed by a team of electrical engineers have developed.

Although a personal computer isn’t an embedded device however, a tablet, cellphone camera, device or external hard drive or any other device that is connected to the computer are. Certain embedded systems run on the basic embedded system software for example, Ada as well as C++, while others operate on a specific operating system such as Windows as well as Linux.

Digital Signal Processing:

Digital signal processing (DSP) is used in almost every type that includes audio video or voice communication that relies on electricity. A few examples include calls made over on the telephone, video conference calls (Zoom, Google Hangouts), streaming music and YouTube videos. DSP signals are also utilized to display information like the temperature of the room, global position and tire pressure.

DSP is a method of converting signals A converter that converts analog signals into digital takes an actual signal, like an audio or song and transforms it into digital format, consisting that is comprised of zeros and ones. These zeroes and ones are later processed and reproduced at another side of the feed. This recreates the sound of the source. The most impressive aspect of this field that is electrical engineering is how it happens so quickly DSP happens — almost instantly. This is the result of years of enhancing and optimizing the process by electrical engineers, electrical certificate.

Electronic Navigation Systems:

Electronic navigation is navigation in which is accomplished by an electronic device or instrument that directs. The most well-known types of navigation using electronic technology include GPS or radar as well as the satellite-based positioning system. With the advancement of technological advancements and electrical engineering electronic navigation systems are commonly used in smartphones, cars aircrafts, ships, as well as other commercial and private devices.

What can I do with a degree in Engineering? What can I do with a degree in Electrical Engineering?

The education level is crucial when deciding how one can be an electrical engineer. After obtaining the degree there is still a question to be asked: “What can I do with a degree in electrical engineering?” Because the electrical engineering field is in high demand many things is possible with this degree. There are five career options that are popular among electrical engineering graduate students:

Aerospace Engineer:

Aerospace engineers create and design aircraft for commercial and military applications, in addition to various kinds of equipment for aerospace. They are the expert in aviation projects. They also help create guidelines and coordination of procurement plans for subsystems and aircraft systems. Other typical responsibilities of an aerospace engineer are the following:

Coordinating the manufacturing process, design as well as testing aerospace components and aircraft

Reviewing the proposals of space projects, to assess whether the proposed project is financially and technically feasible

Determining whether aerospace projects have the required specifications while operating in a safe manner

Evaluation of designs to make sure that they comply with the requirements of the environment and specifications of the customer.

Conducting inspections on aerospace equipment that’s malfunctioning, or other issues and developing solutions

There are two kinds of aerospace engineers. The aeronautical engineer works on aircraft and an astronautically engineer is responsible for spacecraft.

To succeed aerospace engineers must be able to think critically, analytically and problem-solving abilities. In addition, they must have an excellent business sense and have a solid understanding of mathematics and writing in order to effectively communicate their ideas.

As per the U.S. Bureau of Labor Statistics (BLS) the aerospace engineers earned an average annual salary of $118,610 by 2020. This position is expected to increase to 8% in the period between the years 2020 and 2030, which is in line with the expected average job increase for all professions.

Automotive Engineer:

Automotive engineers allow car makers to continue to release new vehicles every year. They use their knowledge of electronics engineering and automotive know-how to design vehicles that produce more power and torque and have better fuel efficiency and emit less carbon dioxide. They also are the brains behind the security and convenience features like remote start, lane assist and rain-sensing windshield washers.

Naturally, there’s the greatest advancement in the world of cars than the electric vehicle that is slowly gaining the world of. Electronic engineers are at work to improve the designs of electric cars in order to give the battery a longer life and quicker charging times.

Other duties typical of an engineer in the automotive industry can include:

Making car plans as well as drawings and design specifications

Designing and researching vehicles that enhance the previous models

Designing computer-generated models to evaluate the efficiency of vehicles

Analyzing design concepts to find possible weaknesses or concerns

Creating a complete budget for costs of manufacturing

To succeed to be successful, an engineer in the automotive field must have a thorough understanding of automobiles as well as the auto industry. A keen understanding of commercial issues and being current with the latest trends in the industry are essential to their job. In addition, automotive engineers must be able to analyze data as well as problem-solving and technical abilities.

According to PayScale Automotive engineers made an average annual pay of $79,100 at the time of the October 2021 date.

Embedded Systems Engineer:

As stated above embedded software engineering involves creating ways to control machines or devices (excluding computers) through software engineering. An embedded systems engineer’s job is to create, develop and maintain the embedded systems of products that are powered by electricity.

Based on the specific project an embedded system engineer could be working on the software specifically or the whole system. Other common duties for embedded systems engineers include the following:

Developing software; creating and improving embedded software, as well as systems

Analyzing software or technical issues and developing solutions

Making firmware for devices like smartphones and tablets

An engineer who is successful in embedded systems must have a wide range of technical abilities and knowledge of the product. C or C++ programming expertise as well as experience in designing or troubleshooting systems for embedded use are essential to the job. Engineers who work on embedded systems tend to be exceptionally analytical, skilled in problem solving, and possess excellent communication skills.

According to Pascale embedded system engineers made a median annual income around $79,700 by October 2021.

Semiconductor Engineer:

The term semiconductor refers to a material that is used in electronic circuits, which can conduct a small amount of current (hence the name). Semiconductor engineers are the only ones who work with semiconductors. They are used to transfer heat between an conductor and an insulator. Common products that use semiconductors include televisions, smartphones medical equipment, automobiles.

The typical duties of an engineer in semiconductors include the following:

Conducting research, designing, and developing testing and integrating systems modules, interfaces, software and applications that make use of semiconductors

Offering software support for engineers and software problems

Reviewing specifications documents to ensure accuracy:

To succeed semiconductor engineers must possess an extensive knowledge of manufacturing engineering design and process engineering in relation to semiconductors. They must also be extremely analytical, and be able to identify any issues that might arise.

According to PayScale that semiconductor engineers made an average annual salary of $83,000 by the end of July 2021.

Naval Engineer:

Naval engineers supervise the construction and maintenance of sea-going vessels, like cargo ships, ships and submersibles. Based on the specifications for design that the naval architect gives naval engineers are charged with implementing the plans and frequently consult with naval architects during the entire process.

As building the construction of a ship or another sea-going vessel is an enormous project, naval engineers have to be proficient in handling projects and delegating duties to technicians. Other responsibilities of an engineer in the naval field are as follows:

Preparing system layouts as well as drawings and schematics.

The design, inspection and testing marine equipment and machinery

Keeping up-to-date in compliance standards and ensuring all naval construction projects remain compliant

Provides cost estimates in detail for the cost of parts, labor manufacturing, and much more

Outlining the timelines for the various stages of construction

Keeping in constant contact with technicians and contractors to ensure that tasks are done punctually and according to schedule

To succeed naval engineers must have an in-depth knowledge of the design and production process of naval vessels as well as other vessels that travel on the sea. They must be proficient communicators, who understand how to manage large-scale projects and effectively delegate duties.

As per the BLS maritime engineers as well as naval architects earned an average annual salary of $95,440 in the year 2020. The job is projected to rise by 4% from 2020 to 2030.

Build an Exciting Future:

Electrical engineering fields are full with potential and offers individuals to work on significant projects in a variety of sectors. Automobiles, goods and other hardware that run using electricity continue to improve and get more efficient thanks to the dedication that electrical engineers do. Being the electrical engineer of your dreams is about finding out which type of electronics appeals to you and seeking an education.

The online Ohio University Master of Science in Electrical Engineering program equips aspiring electricians with expertise and abilities to be able to make a difference on the job. Fundamental courses like ones on engineering writing as well as engineering tools that can be used to compute help to prepare students for a career that is successful.