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Telecommunication & Electronics Engineering Bachelor Degree

Telecommunication & Electronics Engineering Bachelor Degree

Introduction to Degree


Telecommunication and Electronics Engineering integrates two technologies including Telecommunication technology and Electrical technology. Telecommunication technology is the communication system over long distance by transmitting electrical signal via cable, propagating electromagnetic wave (wireless) or light signal, base on the fundamental of electricity and electronics. Electronics technology focuses on a design of integrated circuit with components such as diode, transistor, resistor, capacitor, sensors and other components in order to control electron flow (electricity). Our department provides quality education for students to be able to design system and devices in both technologies to solve social problems, to be able to conduct research, and to be able to continue to pursuit graduate studies. With our curriculum, students will be able to do group work effectively with leadership and entrepreneurship. After graduate from our program, students are qualified to work in mobile operation companies, Internet service providing companies, TV / Radio Stations, Airports/seaports, factories, and public/private institutions.



Last semester Optional tracks
 

Coursework

is for students who would like to conduct coursework and final project.
 

Research Thesis

is for outstanding student who would like to conduct their research project under the supervision of BE faculty members.

Extended Training

is designed for students who would like to participate in a long training period (for the entire semester) under a co-operative training program with companies or organizations.



TO IMPROVE STUDENT’S SOFT SKILL (COMMUNICATION, TEAMWORK AND LEADERSHIP), THE STUDENTS ARE REQUIRED TO CONDUCT A MINIMUM 6 WEEKS INTERNSHIP AT A STANDARD COMPANY OR ORGANIZATION DURING THEIR VACATION TIME OF THE THIRD YEAR OR BEFORE.



Prospect
 

Research knowledge which are provided by Telecommunication & Electronic Engineering department

Research

  • Wireless communication systems
  • Electronics and Electromagnetic signal systems
  • Telephone communication system
  • Satellite system
  • Development of electronic devices
  • Intelligent system
  • Security System





    Based on knowledge which are provided by Telecommunication & Electronic Engineering department, graduates can work as
  • Job Prospects
  • Electrical Engineer
  • Telecommunication Engineer
  • broadcasting Engineering
  • Computer Network Administrator

  • Telecommunication and Electronics System Manager



     

     


Evaluation & Graduation

Assessment of study will be performed at the end of each semester. Evaluation will be shown as the Grade Point Average (GPA) (4.00 scale) and the Cumulative Grade Point Average (4.00 scale).

 

Score RangeGPAGrade Meaning
85–1004.0A = Excellent
80–843.5B+ = Very Good
70–793.0B = Good
65–692.5C+ = Fairly Good
50–642.0C = Fair
45–491.5D = Poor
<400.0E = Fail



Curriculum


The curriculum is designed education in the principles of TE Engineering and also development of communication, teamwork, leadership and entrepreneurship skills.

L = Lecture, P = Practice, S = Self Study, * = Under Project ASEAN FACTORI 4.0 (609854-EPP-1-2019-1-FR-EPPKA2 CBHE-JP)
 

Foundation 

SubjectCreditHours (L - P - S)
SEMESTER I  
Mathematics I3.0(3-0-6)
Introduction to Electronics Engineering3.0(2-2-4)
Computer Fundamental3.0(2-2-4)
Physics3.0(3-0-6)
Academic Skill2.0(2-0-4)
Civilization and History3.0(3-0-6)
General English I4.0(4-0-8)
SEMESTER II  
Mathematics II3.0(3-0-6)
Introduction to Electrical Engineering3.0(2-2-4)
Computer Programming3.0(2-2-4)
Introduction to Statistics3.0(2-2-4)
Technical Drawing3.0(2-2-4)
General English II4.0(4-0-8)
Philosophy and Sociology3.0(3-0-6)




Second Year

SubjectCreditHours (L - P - S)
SEMESTER I  
Mathematic III3.0(3-0-6)
Circuit Theory I3.0(1.5-2-3)
Digital Circuit *3.0(2-2-4)
Probability and Statistics3.0(2-2-4)
Data Communication I3.0(3-0-6)
Programming for Intelligent Computing I3.0(1.5-2-3)
Data Structure and Algorithm I3.0(1.5-1.5-3)
General English III4.0(4-0-8)
Project Practicum I1.0(0-2-0)
SEMESTER II  
Advance Mathematic3.0(3-0-6)
Circuit Theory II3.0(1.5-2-3)
Signal and System2.0(2-0-4)
Electromagnetic Theory I3.0(3-0-6)
Data Communication II3.0(3-0-6)
Programming for Intelligent Computing II3.0(1.5-2-3)
Data Structure and Algorithm II2.0(1.5-1.5-3)
General English IV4.0(4-0-8)
Project Practicum II1.0(0-2-0)


Third Year

SubjectCreditHours (L - P - S)
SEMESTER I  
Communication Engineering *3.0(3-0-6)
Electronic Engineering I3.0(1.5-2-3)
Antenna Design3.0(2-2-4)
Electromagnetic Theory II3.0(3-0-6)
Network Engineering I *3.0(2-2-4)
Machine Learning3.0(2-2-4)
General English V4.0(4-0-8)
Project Practicum III1.0(0-2-0)
SEMESTER II  
PLC for Automation System *3.0(2-2-4)
Electronic Engineering II & IoT3.0(2-2-4)
RF Environment Analysis3.0(2-2-4)
Network Programming3.0(2-2-4)
Network Engineering II3.0(2-2-4)
Project Management2.0(2-0-4)
General English VI4.0(4-0-8)
Project Practicum IV1.0(0-2-0)


Fourth Year

SubjectCreditHours (L - P - S)
SEMESTER I  
Business Management and Entrepreneurship2.0(2-0-4)
Control Engineering *2.0(2-0-4)
Telecommunication Systems4.0(3-2-6)
Technical Paper Writing2.0(2-0-4)
Advanced Network Architecture3.0(2-2-4)
Project Practicum V1.0(0-2-0)
SEMESTER II  
Option 1  
Engineering in Startup2.0(2-0-4)
Microwave Engineering3.0(3-2-6)
Intelligent Network Engineering3.0(2-2-4)
Final Project4.0(0-4-10)
Option 2  
Thesis12.0(0-12-40)