1. FIRST YEAR STUDENTS BRIEFING Sarjana Muda Kejuruteraan Elektrik (SEE) Fakulti Kejuruteraan Elektrik, Universiti Teknologi Malaysia July, 2010

2. CONTENTS Background of the departments Overview of SEE Program Academic system Secondary School/Matriculation To University Transitions Your role: A university student Your goal: An electrical engineer

3. BACKGROUND OF THE DEPARTMENTS

4. Background of the Departments Control And Instrumentation Engineering - CIED Electronics Engineering - INSEED Microelectronics & Computer Engineering - MICE Mechatronics and Robotics Engineering - MER Telematics & Optical Engineering - TOP Radio Communication Engineering - RACED Power Engineering - POWER Energy Conversion Engineering - ENCON Departments in FKE ….

5. Background of the Departments Power Engineering - POWER Energy Conversion Engineering - ENCON

6. Background of the Departments Power Engineering - POWER Energy Conversion Engineering - ENCON SEE

7. Background of the Departments Power Engineering - POWER Professors Ir Dr Abdullah Asuhaimi b. Mohd Zin Associate Professors Dr. Mohd Wazir b. Mustafa (Head) Hjh. Faridah bt. Mohd Taha Dr. Azhar b. Khairuddin Senior Lecturers/Lecturers Dr. Ahmad Safawi b. Mokhtar Dr. Md Pauzi b. Abdullah Alias b. Mohd Yusof Faridah bt. Hussin Mohd Fadli b. Rahmat Mohd Hafiz b. Habibuddin Norzanah bt. Rosmin Rasyidah bt. Mohamad Idris Dr. Saifulnizam b. Abd Khalid Hjh. Zaniah bt. Muda http://www.fke.utm.my/department/power/

8. Background of the Departments Power Engineering - POWER Research activities POWER Power system protection Power system analysis Power quality Energy efficiency AI applications in power system Power system harmonics Deregulated power system

9. Background of the Departments Energy Conversion Engineering - ENCON Professors Dr. Zainal Salam (Director of IQCC) Associate Professor Dr. Nik Rumzi Nik Idris (Head) Dr. Makbul Anwari Senior Lecturers/Lecturers Jaafar Shafie Dr. Awang Jusoh Dr. Naziha Ahmad Azli Nik Din Muhamad Mohd Zaki Daud Mohd Rodhi Sahid Dr. Shahrin Md Ayob Dr. Mohd Junaidi Abd Aziz Dr. Tan Chei Wee NorJulia Mohamad Nordin http://encon.fke.utm.my

10. Background of the Departments ENCON Research activities Energy Conversion Engineering - ENCON DC-DC converters Renewable energy systems Electrical machines Real-time control applications AC drive systems Power electronic converters Inverter control

11. Background of the Departments Institute of High Voltage and High Current IVAT Professors Dr. Ahmad bin Darus (Dean, FKE) Dr. Hussein bin Ahmad (Director, IVAT) Associate Professors Dr. Zulkurnain bin Abdul Malek Dep. Director (Testing & Tech Trans.) Dr. Mohd. Afendi bin Mohd. Piah Dep Director (Calibration, Consultancy & Continuing Education) Dr. Zolkafle Buntat (Dep. Director (R & D) Dr. Mohd. Muhridza bin Yaacob Lecturers Dr. Yanuar Zulardiansyah Arief Dr. Muhammad Abu Bakar Sidik Dr. Nouruddeen Bashir Umar Dr. Nor Asiah Muhamad Pn. Noor Azlinda En. Zuraimy adzis Tutor Mona Riza binti Mohd Esa http://www.ivat.com.my

12. Background of the Departments IVAT Grounding system High voltage transmission Surge protective devices High voltage Insulation system Voltage surge arresters Lightning protection system Pulse Power Institute of High Voltage and High Current Research activities

13. Background of the Departments To get the latest information about CEES please go to http://www.fke.utm.my/cees/index.php The website is continuously updated (including all current research projects) Centre of Electrical Energy System (CEES) http://www.fke.utm.my/cees/

14. P07 – POWER & ENCON P05 - We are now HERE IVAT

15. OVERVIEW OF SEE PROGRAM

16. Overview of SEE program Normal duration: 8 semesters Maximum duration: 12 semesters Minimum number of credits must be earned: 129

17. EE courses Overview of SEE program Digital Elect 1223 Circ Thy 1023 Instru. & Electricak Measurement 1123 Elect Tech 2053 Electro. Dev 2063 Sgnl & Netw 2043 I I I I II Basic EE 1003 EE Workshop 1712. Control: Mod & Sim 2113Elect Circuit 2253 EMT 2523 Lab 2742 Power Engn. Fund 3423 MicroP 3223 ElecSystem 3263 Lab 3732 Elec Mch 3433 Control: Analysis & Desg 3113Com Principles3533 Lab 3742 P Trn 3 rd Sem Pwr Engin. Sys 4423 Power Elc Drives 4433 Comm System 4513 Lab 4722 Profess Eng Practice 4012 Final Yr Prj Prt 1 4812 Power Sys Anlys 4443Elective 1 Elective 2 Final Yr Prj Prt 2 4824

18. Overview of SEE program Basic Electrical Engineering SEE1003 Root to majority of courses : (pre-requisite) Circuit Thy Electronic Devices Signal & Netw To get GOOD grades for most of the courses you need to get GOOD grades for your first year courses YOU HAVE TO START FROM NOW !

19. ACADEMIC SYSTEM Academic Advisory System Status of a student

20. Academic Advisory system Each student will be assigned to an Academic Advisor Role of an Academic Advisor: To advise to students on things related to academic matters University’s policies Planning to Graduate On Time (GOT) Effective way to study Courses Selection Other matters related to academic Academic system Academic regulations

21. GET TO KNOW YOUR ACADEMIC ADVISORS Department of Power Engineering Academic Advisory system Academic system Dr. Azhar b. Khairuddin Dr. Ahmad Safawi b. Mokhtar

22. GET TO KNOW YOUR ACADEMIC ADVISORS Dr. Mohd. Afendi bin Mohd. Piah Dr. Zolkafle Buntat Dr. Nor Asiah Muhamad IVAT Academic Advisory system Academic system

23. GET TO KNOW YOUR ACADEMIC ADVISORS Dr. Mohammad Yusri b. Hassan CEES Academic Advisory system Academic system

24. An academic status of every student can be one of the following: KB – Good Standing - Kedudukan Baik KS – Conditional Pass – Kedudukan bersyarat KG – Fail – Kedudukan gagal How ?Based on your CPA and GPA When ?At the end of every semester You should know how to calculate your CPA and GPA Status of a student Academic system

25. You should know how to calculate your CPA and GPA Status of a student Academic system

26. You should know how to calculate your CPA and GPA Status of a student Academic system

27. You should know how to calculate your CPA and GPA Status of a student Academic system 123452x5 CoursesCreditMarksGradeGrade Point Credit Points SEE3253 (U*)3 48D+1.33.9 SEE41033 45D+1.33.9 SEE42433 68B2.78.1 SEE4413347D+1.33.9 SEE4712277B+3.36.6 SSM3763357C2.06.0 Total1732.4 Prev Sem. Current Sem. All Sem. CE:63 1780 CC: 651779 (82 -3) ( 3 ) CP:135.632.4168.0 (0.00) CPA:2.09 GPA:1.91 CPA:2.13 (168.0/79) Case 1

28. Status of a student Academic system 123452x5 CoursesCreditsMarksGrade Point Credit Points SEE3112 (UG)2 77B+3.36.6 SEE51033 77B+ 3.39.9 SEE54144 75B+3.313.2 SEE4413356C2.06.0 SEE4712274B3.06.0 SSM3763377B+3.39.9 Total1751.60 Prev Sem Current Sem All Sem CE:105 17120 (122 – 2) CC: 9817113 (115 – 2) ( 2 ) CP:279.951.6328.9 (331.5 – 2.60) (2.60) CPA:2.86 GPA:3.04 CPA:2.91 (328.9/113) You should know how to calculate your CPA and GPA Case 2

29. Status of a student Academic system Prev Sem Current Sem All Sem CE:28 1231 (40 – 9) CC: 261229 (38 – 9) ( 2 ) CP:64.533.987.6 (98.4 – 10.8) (2.60) CPA:2.48 GPA:2.83 CPA:3.02 (87.6/29) You should know how to calculate your CPA and GPA Case 3 123452x5 CoursesCreditsMarksGrade Point Credit Points SEE1003 (UG)3 72B+3.339.9 SEE510233 46C- 1.675.1 SEE1223(UG)3 67B3.009.0 SSE1793(UG)372B+3.339.9 Total1233.9

30. KB – Good Standing - Kedudukan Baik KS – Conditional Pass – Kedudukan bersyarat KG – Fail – Kedudukan gagal Status of a student Academic system

31. KB – Good Standing - Kedudukan Baik KS – Conditional Pass – Kedudukan bersyarat KG – Fail – Kedudukan gagal Status of a student Academic system

32. KB – Good Standing - Kedudukan Baik KS – Conditional Pass – Kedudukan bersyarat KG – Fail – Kedudukan gagal The status that we all like you to have CPA  2.00 The status that we don’t want you to have 1.7  CPA  2.00 The status that will force you to leave UTM ! CPA  1.7 Obtained 3 KS in a row GPA < 1.0, even though CPA is  1.7 Status of a student Academic system

33. Is CPA > 2.0 good enough ? Classes of Honours Classes of HonoursCPA/PNGK First Class Honours CPA/PNGK  3.67 Second Class Honours (Upper Division) 3.00  CPA/PNGK  3.67 Second Class Honours (Lower Division) 2.00  CPA/PNGK  3.00 Industries will look for graduates with high CPA (typically > 3.0) In 4 years time from now, they will probably demand for higher CPA ! Status of a student Academic system

34. SOME GOOD AND BAD EXAMPLES Status of a student Academic system

35. Status of a student Academic system SOME GOOD AND BAD EXAMPLES

36. Status of a student Academic system SOME GOOD AND BAD EXAMPLES

37. Status of a student Academic system SOME GOOD AND BAD EXAMPLES

38. A University is a place where you will Please read the Academic Regulations Handbook ! and become learn how to learn, more independent

39. SECONDARY SCHOOL/MATRICULATION TO UNIVERSITY TRANSITIONS

40. Secondary School/Matriculation to University transitions Secondary school /MatriculationUniversity Classes are normally small – Teacher memorized students’ names – teacher taught and you listened Read books  do problems  answers are in the books - memorizing Read and understand the concepts  apply the concepts to new problems – its not just memorizing Understand the lectures in real- time – review is in the form of doing exercises and getting the correct answers Don’t expect to understand the lectures in real-time  review lecture notes within 24 – take notes – understand the previous lectures before attending the new ones – be an active listener Larger classes – need to pay more attention – get involve in discussion – don’t make your own conclusion, ask the lecturers

41. Secondary School/Matriculation to University transitions Secondary school /MatriculationUniversity 5 days a week – 6 hours a day, a total of 30 hours per week. Homework 1.5 hours per day = 7.5 hours per week. Total commitment required = 37.5 hours per week. Somebody will monitor your time management. 14 credits. This require 14 x 3 = 42 hours per week outside class. Total commitment required = 56 hours per week. Nobody will force you to study; you have to manage your time. You are in control of your own learning.

42. YOUR ROLE: A UNIVERSITY STUDENT

43. Some tips …. Decide a place to study Favorite corner in library – empty classroom – in your room Try to study regularly in the same place at the same time Review lecture notes within 24 hours of lectures If you choose to study in a group Two heads are better than one Study on your own first – be prepared before joining the group Not too many: 4-6 is good Meet your lecturers Meet the lecturers, introduce yourself – building a rapport can make a difference – make use of the lecturers ! When confused, ask the lecturers – don’t make your own conclusions Your role: A university student

44. Some tips …. During lectures Ask questions during lectures, join the discussion Don’t rely on your memory, take some notes ! Be prepared before attending lectures Be an active listener Learn your lecturer’s style Your role: A university student See your academic advisors regularly Advisors familiar with university policies - ask for their opinions Advisors can offer assistance to almost all academic related matters Regular meeting – less stress and more control

45. Your role: A university student Source: National Training Laboratories Institute for Applied Behavioral Science Learning pyramid

46. YOUR GOAL: AN ELECTRICAL ENGINEER

47. Your goal: An electrical engineer Electrical Engineers: A profession that uses science, technology and problem-solving skills to design, maintain products, services and information system Attributes of a good engineer … Problem-solving skills Good Communication skills Team-working Technical knowledge (electrical engineering knowledge) Creative and imaginative To secure for a good job, CPA > 3.0 However, high CPA is NOT the only thing considered …

48. Our program (SEE) is designed to fulfill these requirements: Program Outcomes This is what you will gain when you leave UTM in 4 years time Ability to acquire and apply knowledge of mathematics, science and engineering Ability to analyze and interpret data Ability to identify, formulate and solve electrical engineering problems Ability to work with modern instrumentation, software and hardware Ability to design a system, component or process to fulfil certain specifications Ability to communicate effectively Ability to function and be productive in a team Ability to recognize the need for, and to engage in life-long learning Understand the impact of the work of engineers on society Understand ethical and professional responsibility Your goal: An electrical engineer

49. Our program (SEE) is designed to fulfill these requirements: Program Outcomes You should be AWARE of these outcomes You SHOULD gain these attributes when you graduated Your goal: An electrical engineer

51. Some job titles for an engineer: Design Engineer Project Engineer Engineering Specialist Chief Engineer Quality Control Engineer Software Engineer Development Engineer Research Engineer Systems Design Engineer Field Engineer Test Engineer Sales Engineer TNBTelekomMotorolaIntelAlteraToshibaPanasonic etc, etc. Your goal: An electrical engineer

52. HAPPY STUDYING !