Electrical Engineering

What is Electrical Engineering Technology?

What is Electrical Engineering Technology?


In the ever-evolving field of engineering, electrical engineering technology (EET) stands out as a pivotal area that merges theoretical concepts with practical applications. This domain is essential for those intrigued by the design, development, and maintenance of electrical systems. Through this article, we will embark on a comprehensive journey to uncover what EET entails, its subdisciplines, career paths, necessary certifications, and skills, as well as how it differs from traditional electrical engineering.

Understanding Electrical Engineering Technology

Definition of EET

Electrical Engineering Technology (EET) is an engineering technology field that applies the principles of electrical engineering in practical and real-world scenarios. If we compare engineering vs engineering technology, we will surmise that EET focuses on the design, application, installation, manufacturing, operation, and maintenance of electrical and electronic systems, while the other is more focused on the general idea of the engineering field. EET is a specialized discipline that emphasizes the practical implementation and applied design of electronic circuits, while also incorporating theoretical knowledge.

Unlike electrical engineering, which places more emphasis on theory and conceptual design, EET is more hands-on and solution-oriented. EET professionals are skilled in problem-solving and mathematics and prefer practical solutions over theoretical modeling. They have a deep understanding of electrical and electronic systems and can apply this knowledge to various industries and sectors.

EET encompasses a wide range of sub-disciplines, including applied design, digital electronics, embedded systems, control systems, instrumentation, and telecommunication. It is the largest branch of engineering technology and plays a crucial role in the development and maintenance of modern electrical systems.

Subdisciplines of EET

Electrical Engineering Technology (EET) is a diverse field that encompasses various sub-disciplines, each focusing on specific areas of application, design, and implementation. These sub-disciplines play a crucial role in the development and advancement of electrical/electronic systems. Here are some of the key subdisciplines within EET:

  1. Applied Design: Applied design is a fundamental subdiscipline of EET that focuses on the practical application of electrical engineering principles. It involves designing and developing electrical systems that meet specific requirements and constraints. This subdiscipline emphasizes problem-solving, creative thinking, and the ability to translate theoretical concepts into real-world solutions.
  1. Electronics: Electronics is a subdiscipline that deals with the study and application of electronic devices, circuits, and systems. It includes the design, analysis, and implementation of electronic components like transistors, diodes, integrated circuits, and printed circuit boards. Electronics plays a crucial role in various industries, including telecommunications, consumer electronics, and automation.
  1. Embedded Systems: Embedded systems are computer systems designed to perform specific tasks within larger systems. This subdiscipline focuses on the integration of hardware and software to create efficient and reliable embedded systems.
  1. Control Systems: Control systems involve the design and implementation of systems to control and regulate the behavior of dynamic processes. This subdiscipline is essential for applications such as robotics, industrial automation, and power systems.
  1. Instrumentation: Instrumentation is the subdiscipline concerned with the design and development of instruments and devices for measurement, monitoring, and control purposes. It involves the selection and integration of sensors, actuators, data acquisition systems, and signal processing techniques. Instrumentation plays a critical role in industries such as manufacturing, energy, and healthcare, where precise and reliable measurements are necessary.
  1. Telecommunications: Telecommunications is a subdiscipline focused on the design, implementation, and management of communication networks and systems. It encompasses various technologies such as wireless communication, fiber optics, and satellite systems.
  2. Power systems: This subdiscipline concentrates on generating, transmitting, and distributing electricity efficiently.

These subdisciplines within EET represent the diverse range of applications and focuses within the field. By specializing in a degree program in one or more of these areas, electrical engineering technologists and electronic engineering technologists can contribute to the development of innovative solutions, improve system performance, and address the evolving needs of industries and society as a whole.

The Work of an EET Professional

The Work of an EET ProfessionalThe role of an EET professional is diverse, involving the application of principles from mathematics, science, and engineering to solve practical problems. They work closely with electrical engineers to bring designs to fruition, ensuring that systems are safe, efficient, and reliable.

Careers in EET

With a degree in and educational objectives related to EET, individuals can pursue a variety of careers, such as:

  • Electrical Technician
  • Systems Designer
  • Instrumentation Engineer
  • Telecommunications Specialist
  • Power Systems Engineer

Certification in EET

Certification can enhance an EET professional’s credentials. Organizations like the Institute of Electrical and Electronics Engineers (IEEE) offer certifications that validate an individual’s skills and knowledge in specific areas of electrical engineering technology.

Skills Required in EET

Success in EET requires a blend of hard and soft skills, including:

– Technical proficiency in electrical systems

– Problem-solving abilities

– Attention to detail

– Strong communication skills

– Teamwork and collaboration

Difference Between EET and Electrical Engineering

Difference Between EET and Electrical EngineeringWhile both fields deal with electrical systems, Electrical Engineering focuses more on theory and conceptual design, whereas Electrical Engineering Technology emphasizes practical applications and implementation. EET professionals bridge the gap between theoretical designs and real-world applications.


Electrical Engineering Technology is a dynamic and essential field that contributes significantly to the technological advancements we enjoy today. With its diverse subdisciplines, career opportunities, and emphasis on practical application, EET offers a fulfilling path for those interested in making tangible contributions to the field of electrical and electronic engineering.

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What do electrical engineering technology professionals do?

Electrical Engineering Technology (EET) professionals play a crucial role in the design, development, and maintenance of electrical equipment and systems. They work closely with electrical engineers to ensure the efficient and safe operation of various electrical devices and infrastructure.

One of the key responsibilities of EET professionals is to assist electrical engineers in designing and developing equipment that relies on electricity or electric current. They contribute their expertise in electrical power distribution, process control, instrumentation design, and more. By leveraging their knowledge of advanced tools and software such as Autodesk AutoCAD Electrical design software and computer-aided drafting and design (CADD), EET professionals bring engineering concepts to life.

Is electrical engineering technology a good degree?

Pursuing a degree in electrical engineering technology can be a wise choice due to the abundance of job opportunities, the versatility of the field, the hands-on experience gained, the strong foundation in sciences and mathematics, the collaborative work environment, and the potential for professional growth. With the rapid advancement of technology, electrical engineering technology professionals are well-positioned for a rewarding and fulfilling career.