Computer & electrical engineering: Electrical Engineering vs. Computer Engineering: What’s the Difference?

What is ECE? | Electrical & Computer Engineering

 

 

Electrical engineers and computer engineers work at the frontier of high technology and are involved in research, the creation of new ideas, the design and development of new products and technologies, manufacturing and marketing activities.

Change the world, become an electrical or computer engineer

ECEs help save lives by designing medical technologies like monitoring devices, surgical robots and lasers; help preserve the environment by developing hybrid electric vehicles and solar or wind power; improve the safety of critical high technology systems by designing anti-skid braking systems and nuclear power plant controls; and reduce human toil in manufacturing with computer automation technologies. Pursue an exciting career and make a difference by helping people worldwide.

Invent, create, design key technologies

Challenge what is possible. Invent new technologies and innovations in a range of fields, from nanotechnology to biotechnology. Electrical engineers find innovative ways to use electricity, electric materials, and electrical and magnetic phenomena (like radio waves and signals) to make people’s lives better. Computer engineers design computer systems, both hardware and software, to create new technology and meet new societal needs.

Work with smart people on cool technologies

Electrical and computer engineers create innovative, practical solutions and work with other smart, inspiring people to invent, design and build technologies and products that matter. ECEs design high-profile technologies and products, including medical devices, tablet computers, smart phones, video games, wireless networks, 3D television and highfidelity audio.

The field of electrical engineering encompasses a broad spectrum of technical areas, including computers and digital systems, microelectronics, photonics, materials, controls, communication systems and signal processing, energy conversion and power distribution, antenna design and electromagnetic scattering, and robotics in manufacturing. Electrical engineers create, research, design, develop, manufacture, and market new devices.

The field of computer engineering covers a wide range of topics including multimedia systems, robots, microprocessors, memory systems, networks, the Internet, chip design, supercomputers and all other aspects of computer organization, design, and programming.
 

Electrical and Computer Engineering Major Sheet: Includes program educational objectives for both the Electrical Engineering program of study and Computer Engineering program of study.

 

 

Learn more:

 

  • Electrical and Computer Engineering brochure
  • Career Prospects in Electrical and Computer Engineering
  • Try Engineering: Electrical Engineering
  • Learn How to Become (Computer Engineer)
  • Learn How to Become (Electrical Engineer)
  • Engineering Your Life: A guide to engineering for high school girls
  • ECE Facts and Figures At-A-Glance

B.

S. Computer and Electrical Engineering | University of Wisconsin

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UW-Stout’s Bachelor of Science degree in Computer and Electrical Engineering (CEE) prepares you to work with both computer hardware and software through courses and labs that combine electrical engineering and computer science. The B.S. Computer Engineering 4-year concentrations are:

Computer Engineering Concentration 

  • Embedded Systems, Microcontroller, Microprocessor, FPGA
  • Computer Network, Wireless Communications- 5G Communications
  • Cybersecurity, Machine Learning
  • Game Design

Electrical Engineering Concentration

  • Robotics, Artificial Intelligence
  • Controls, Automation, PLC (Programmable Logic Controller)
  • Healthcare/Biomedical Instrumentation Design
  • Electronics, Printed Circuit Board (PCB)


Learn how to apply your knowledge of mathematics, science and engineering to design hardware and software for electrical engineering systems.
/ UW-Stout

The Computer and Electrical Engineering program at UW-Stout is ideally suited to help you develop skills that align with the needs of regional and national industries. This program will help you develop computer engineering skills with a strong background in both electrical engineering and computer science. Our curriculum is calculus-based with a solid foundation in mathematics and science, through to practical skills in analysis and design including:

  • Electrical engineering
  • Robotics
  • Electronics
  • Sensors and actuators
  • Wireless communication
  • Systems engineering
  • Mathematics
  • Analysis and design of computer systems
  • Design of hardware and software systems that use embedded digital processors

Graduates of the program receive automatic minors in Mathematics and Computer Science but must submit an Add or Change Minor form to the Advisement Center to formally declare a minor on their academic records.

We also offer a Biomedical Instrumentation minor.

Program Overview

The program includes a strong emphasis on laboratory activities and student engineering design projects. Particular focus is placed on the design of hardware and software for engineering systems that utilize embedded digital processors such as microprocessors, microcontrollers, digital signal processors, and personal computers.

Student Projects

The following video showcase provides an in-depth look at the design, and computer and electrical components of CEE student projects. Click on the drop-down menu in the top left-hand corner of the video to watch the seven videos.

Our small class sizes make it possible for professors to work with each one of the students on lab and project design in class. As Wisconsin’s only comprehensive polytechnic university, we focus on:

  • Hands-on laboratory activities
  • Engineering design projects
  • Real-world challenges
  • Employment competitiveness
  • Hardware and software development
  • Active learning
  • Comprehensive application ability
  • Innovation abilities

Resources available to you include an outstanding cooperative education program and the Stout Technology Transfer Institute. A part of UW-Stout’s Discovery Center, the STTI is a nationally-recognized center that assists regional businesses in applying innovative technologies to become more competitive. As you progress toward your degree, both of these resources provide valuable opportunities for you to learn through practical, on-the-job experiences while still enrolled at UW-Stout.

“The opportunity to network with future engineers and professors well-established in their fields, combined with the chance to learn industry tools and the hands-on approach, has set me up for success in the field.”

Maximilien McDermott
B.S. Computer and Electrical Engineering

Use the Request Information form to receive a program summary and learn more about the Bachelor of Science degree in Computer and Electrical Engineering.

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Student Project Gallery

Our students gain experience working on real-world projects with unique computer and electrical technology.

View Student Gallery

Preparing for Computer and Electrical Engineering

As a student in the Computer and Electrical Engineering program, you must have an aptitude for science and mathematics. We encourage you to take as many upper-level math and science courses in high school as possible, including mathematics through algebra and trigonometry, physics, and chemistry. Early development of computer skills is also very helpful.

Objectives & Outcomes

Program Educational Objectives

The Computer and Electrical Engineering program develops computer engineers who are:

  • in demand by employers
  • recognized for their ability to apply engineering expertise
  • recognized for their leadership and teamwork skills
  • demonstrate an ability to learn and adapt to the changing environment created by societal and technical influences
  • demonstrate continued career growth and professional development 

Student Outcomes

UW-Stout Computer and Electrical Engineering program graduates will possess:

  1. An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.
  2. An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.
  3. An ability to communicate effectively with a range of audiences.
  4. An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts.
  5. An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives.
  6. An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions.
  7. An ability to acquire and apply new knowledge as needed, using appropriate learning strategies

Career Opportunities

As a computer and electrical engineer, you will be uniquely suited to meet the needs of many industries. Ability to tackle both hardware and software issues in a wide range of computer systems provides you with great flexibility in your choice of employment. UW-Stout is located in West Central Wisconsin, and is also very close to the Twin Cities of Minneapolis and St. Paul, Minnesota. A large number of companies in the region have a demonstrated need for computer and electrical engineers. 

Typical Job Titles

  • Computer Engineer
  • Embedded systems engineer
  • Embedded software engineer
  • Computer hardware engineer
  • Computer software engineer
  • Computer consultant
  • Computer systems engineer
  • Computer design engineer
  • Design and development engineer
  • Software test engineer

Computer and Electrical Engineering Internet Career Resources

  • Occupational Outlook Handbook »
    Bureau of Labor Statistics Section on Engineering includes information on Computer Hardware Engineers and Computer (software) Engineers. Graduates of UW-Stout’s program will have the flexibility to choose careers in both categories.
  • Sloan Career Cornerstone Center

Program Advisory Committee

Program Advisory Committee Members

Kenan Baltaci Associate Professor UW-Stout, Eng. and Tech. Dept.
Chris Bendel Associate Dean UW-Stout STEMM
Brandon Cedarblade Software Engineer Collins Aerospace
David Ding Director, School of Engineering UW-Stout
Austin Elsinger Software Engineer Digi-Key Electronics
Mike  Gerner Account Manager NEO Technology Solutions
Robert  Harveland Senior Program Manager Benchmark Electronics
Jacob Hillebrand Alumni Representative CEE Alumni
Steve Johnson Software Manager Benchmark Electronics
Connor Johnson CEE Student UW-Stout
Bradley Kase CEE Student UW-Stout
Ryan Laleman Maintenance Manager Nestle Health Science
Jeff Leismer Founder & CEO Vibetech, Inc.
Cheng  Lui Professor UW-Stout, Eng. and Tech. Dept.
Steve Martin Master Technologist Hewlett Packard Enterprise
Terry Martin Software Engineer Milwaukee Electronics
Jason  Pecor VP, Business Development Superion Technology Group, Inc.
Dave Rush Software Engineer Hewlett Packard Enterprise
Paul Schaffner Director of Engineering: Test Development Benchmark Electronics
Blake Schipp Electrical and Automation Manager Nestle Health Science
Wei  Shi Program Director UW-Stout, Eng. and Tech. Dept.
Ahmet Turkmen Professor UW-Stout Eng. And Tech Dept.
Ryan Weinberger Talent Acquisition Specialist Benchmark Electronics
Yuan Xing Assistant Professor UW-Stout, Eng. and Tech. Dept.
Holly Yuan Professor  UW-Stout – Computer Networking & Information Tech

 

Student Organization

Computer Engineering

All Computer Engineering News

Inspiring Graduate Matthew Ryan, B.S. Computer and Electrical Engineering

‘It’s the people that make it all worth it.’

Inspiring Graduate Devin Dumke, B.

S. Computer and Electrical Engineering

‘The experiential learning has given me the technical skills and soft skills I need to succeed.’

Students develop solution for waste management, look to bridge rift between science and religion

More than 300 students present research across variety of fields at STEMM Student Expo

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Electronic and Electrical Engineering – training

Electricity and electrical engineering are at the heart of modern society. Engineers specializing in these fields have changed the 21st century with technologies such as universal electric power systems, television, medical technology, and more.

Among the most famous electrical and electronics scientists you may have heard of are Nikola Tesla (pioneer of commercial electricity and electromagnetism), Thomas Edison (inventor of the light bulb, and inventor of the gramophone), Jack Kilby (inventor of the pocket calculator and integrated circuit), Markian Hoff (inventor of the microprocessor), and Martin Cooper (inventor of the mobile phone).

What is the difference between electrical and electronic engineering?

The distinction between electrical and electronic technology is often blurred. Electrical engineers are mainly concerned with large-scale power generation and distribution, while electronics engineers focus on smaller electronic circuits.

In an electrical engineering course, students are likely to develop an expert understanding of the microcircuits used in computers and other modern technologies, and for this reason, electronics is often taught alongside computer science. Electrical and electronic engineering will also overlap with mechanical and civil engineering.

At the elementary level, students will acquire knowledge about the basic principles of this specialty. Students will take part in projects, work in groups.

As with most engineering disciplines, training will include lectures, practical exercises, laboratory work, project work (individually or in a group), and individual research.

Also, students can be given engineering problems to solve, as well as course assignments and laboratory reports. Practice sessions may also include taking apart electronic devices to see how they work and then reassembling them. This helps students learn to develop and apply their engineering skills, rather than just memorizing them from textbooks.

Admission requirements

To study on this course, students need knowledge of mathematics, and other scientific disciplines (especially physics). Also, many courses will start with some foundational modules designed to bring this knowledge to the required level.

Electrical Engineering Specializations

During most electrical engineering courses, students will have the opportunity to specialize in a number of related areas. General electrical specialties include: power generation and transmission, magnetostatics and electrostatics (types of electrical charge), and electrical equipment (such as heating and lighting systems).

Also, courses in electronics may cover such subjects as electrical circuits, digital communications, wireless technology, and computer programming. If students are also interested in studying management (management), then the opportunity to study electrical engineering along with management topics may be offered. Special programs in engineering management provide an opportunity to study industrial management methods in the context of electrical engineering, including operations and supply chain management.

As their studies progress, students can usually choose to specialize in a particular branch of electrical engineering. Examples of popular occupations:

  • Power Generation and Supply
  • Computer Systems
  • Communications and Media
  • Robotic Systems
Career Opportunities

Electrical engineering careers offer good prospects in many parts of the world, with the demand for such professionals projected to continue to grow.

For those who have completed a Bachelor’s degree in Engineering (BEng) and wish to continue their studies and obtain a CEng degree, research work will be required.

Some of the main sectors of employment for graduates of the Department of Electrical Engineering include:

  • Power generation
  • Construction
  • Transport infrastructure maintenance and development
  • Manufacturing
  • Communications and media
  • Computer hardware and software development
  • Healthcare
  • Science and Engineering

In each of these industries, positions are available in research and development, design, testing and maintenance. Other careers with an electrical engineering degree:

If a student chooses not to pursue traditional electrical engineering positions, there are many alternatives. Students of electrical engineering specialties are also in demand in other industries. IT skills, math and problem solving skills are required by many employers, for example in finance and management.

Aeronautical engineering is another specialization that could be suitable for graduates of the electrical engineering department. Aeronautical engineers apply scientific, technological, and mathematical principles to research, design and develop, maintain, and conduct performance testing of civil and military aircraft, as well as weapons, satellites, and spacecraft. Aeronautical engineering implies the ability to solve any problems that arise during the design and development process, as well as testing, including the investigation of any aircraft accidents and project management.

Profession: Computer Engineer – description, salary and where to learn

(Ingenieurinformatiker/in)

  • Type

    Profession after diploma

  • Specialty

    Engineering, Computer Science

  • Salary

    4604-5819 € per month

Computer engineers (computer engineers) develop computer systems for complex technical problems of all kinds. They create computer networks and ensure their smooth operation, program technical applications or implement information systems for organizing communication and data transfer.

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Responsibilities of a Computer Engineer

Computer engineers develop automation and communication systems. They program, optimize and control automated industrial processes and develop customized solutions that are not available on the market in the required form. Computer engineers set up company networks and servers, monitor and administer them as system administrators, organize communications and data flows, or develop databases. In the field of software, they develop, for example, operating systems or adapt operating systems to the respective corporate organizational structures. They are also responsible for the analysis, control and monitoring of these systems. In addition, computer engineers assist customers in selecting and customizing hardware and software systems, installing them in the field, and training users.

Where Computer Engineers Work

Computer Engineers find jobs, for example:

  • in companies that manufacture, maintain and distribute computer and automation systems;
  • in companies in the electrical industry or mechanical and automotive technology.

Computer Engineer Salary

The salary level for Computer Engineers in Germany is

  • from €4604 to €5819 per month

(according to various statistics and employment offices in Germany)

30
  • Tasks
  • Statistics
  • Tasks and responsibilities of a Computer Engineer in detail

    What is the job of a Computer Engineer?

    Computer engineers (computer engineers) develop computer systems for complex technical problems of all kinds. They create computer networks and ensure their smooth operation, program technical applications or implement information systems for organizing communication and data transfer.

    Hardware and software development

    Computer engineers design hardware and software for technical systems and design user interfaces. In addition to computer and process control systems, they design and develop, for example, on-board computer and control systems for vehicles or mobile robots. They are not limited to the concept of analog and digital circuits, but also program microprocessors according to customer requirements. Computer engineers are involved in the development of the so-called firmware. It can be found, for example, in consumer electronics devices such as digital cameras or DVD players. In addition, they are responsible for the software for controlling machines, plants or measuring systems, for example for digital network line management systems.

    Several fields of activity of computer engineers

    Computer engineers individually adapt systems to the respective production conditions or organizational structures of companies. If, for example, the dimensions of car doors forged by computer-controlled machines deviate from the car manufacturer’s specifications, engineers will find the error in the CAM and fix it. User training and advice are also part of their area of ​​responsibility. In addition, computer engineers plan, for example, databases, organize database management or increase the capacity of data transmission and computer networks, including taking into account security and performance management aspects, as well as network interface issues.

    Statistics

    Sign up for a consultation on admission to a university in Germany by profession

    Computer Engineer

    Examples of highly paid vacancies for a Computer Engineer in German companies

    Company: 9012 7
    Robert Bosch GmbH

    City:
    Reutlingen

    Salary:
    €70.788 – €98.653 per year

    More details

    900 02 Current Vacancies for Computer Engineer: https://www.gehalt.de/einkommen/search?searchtext=it+Ingenieur&location=

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