Electronics Design and Development
Electrical and Electronics Engineering plays a significant role ranging from power industries to
integrated circuits. It also involves the computation systems to control machines and robots. It
deals with the design of electrical equipment, installation maintenance and operation in
industries. This program builds a good foundation in power generation, transmission, and
distribution. Electrical and Electronics also give exposure to instrumentation and process
automation.
This program also gives familiarity to modern tools used in circuits, machines, and power
systems. The curriculum, designed in collaboration with industry, focuses on the Electrical,
Electronics projects, and blends in-class academic learning with hands-on laboratory and field
testing.
Students will gain knowledge to assemble the machines, evaluate electrical equipment,
maintain machines like transformers, circuit breakers, electrical panel boxes and
troubleshooting. Students also gain knowledge in designing electrical circuits, drawing,
simulating, and fabricating the PCB for specific applications.
Students also gain knowledge in interfacing microcontrollers, microprocessors to electrical
machines.
Students will learn relevant theoretical and practical knowledge to support their career. Courses
will be delivered with components of face-to-face classroom instruction and computer-aided
PCB Design. Additionally, emphasis will be given to Power System technology, workshops, and
hands-on experimental laboratory testing. Effective technical communication will be
emphasized throughout the program.
This program covers the concept of Electrical Engineering technology especially in the areas of
AC and DC machines. This program has courses in different areas of power like power system
analysis, power system protection, smart grid, power transmission and distribution. This
program gives a detailed study of design, testing and development of electronic and Electrical
circuits.
Students will gain knowledge in electronics like analog and digital electronics, VLSI, VHDL
Design, microprocessor, microcontroller, and embedded systems which play a significant role in
Electrical technology. Students will get additional skills in MATLAB to model the electrical
systems and single line diagrams.
A total of 120-140 credit hours will be required to graduate. They will have core and elective
courses in Electrical and Electronics Engineering technology. Students can expect to spend an
average of 25-28 contact hours per week in class workshops, and labs, with additional time
spent studying, completing assignments, and doing research.
Upon successful completion of this program, students should be able to:
1. Apply knowledge in contractual obligations, applicable laws, standards, bylaws, codes,
and ethical practices in the Power, Electrical and Electronics field.
2. Assist in the scheduling, cost estimation and monitoring of the Power and Electrical
industries.
3. Apply knowledge, techniques, skills and modern tools of mathematics, science,
engineering, and technology (electronic and digital technologies) to solve broadlydefined engineering problems appropriate to Electrical and Electronics Engineering
Technology.
4. Design systems, components, or processes meeting specific needs for broadly defined
engineering problems appropriate to Electrical and Electronics Engineering Technology.
5. Apply written, oral, and graphical communication in broadly defined technical and
non-technical environments: and an ability to identify and use appropriate technical
literature.
6. Conduct standard tests, measurements, and experiments and analyze and interpret the
results to improve processes.
7. Function effectively as a member as well as a leader on technical teams related to
Electrical and Electronics Engineering Technology.
Electronics Engineering Technology Track:
1. Use concepts and applications of embedded systems to identify, formulate, and solve
engineering problems.
2. Design digital integrated systems and produce solutions that meet specified needs with
sustainable, environmental, and economic factors.
Electrical Power Engineering Technology
Electronic Engineering Technology
Language Requirements:
or Institutional TOEFL (450)
Supreme Council/ MOHE requirements
Study and internship abroad opportunities are offered in UAE, India, and more.
Electronics Design and Development
Manufacturing Systems
Sales and Maintenance
Technical Support
Production and Operation
Control and Instrumentation
Onsite Plant Installation
Quality Control
Product Design and Development