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B GIO DC V O TO

TRNG I HC BCH KHOA H NI

CHNG TRNH TIN TINGIO DC I HCUNDERGRADUATE ADVANCED PROGRAM

NGNH

K THUT IN-IN T

Electr ical and Electronic Engineering

XY DNG T CHNG TRNH CA TRNG I HCBASED ON THE CURRICULUM OF THE

San Jos State University, USA

H NI - 2008


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MC LCContents

1 MC TIU O TO Educational Objectives ............................................ 4

2 THI GIAN O TO THEO THIT K - Program Duration ..................... 53 KHI LNG KIN THC TON KHA Required Total Credits .......... 54 I TNG TUYN SINH - Enrollment ....................................................... 55 QUY TRNH O TO, IU KIN TT NGHIP- Educational Process

and Graduation Requirements ........................................................................... 5

6 THANG IM Grading System .................................................................... 67 NI DUNG CHNG TRNH Curriculum ................................................ 7

7.1 Cu trc chng trnh o to (Curriculum structure) ............................... 7

7.2 Danh mc cc hc phn trong chng trnh List of Courses ................... 87.2.1 KIN THC GIO DC I CNG BASIC KNOWLEDGE .... 87.2.2 KIN THC GIO DC CHUYN NGHIP...................................... 9

8. K HOCH HC TP CHUN RECOMMENDED STUDY PLAN ........... 129. M T VN TT NI DUNG CC HC PHN Course Descriptions ....... 16

Cc hc phn ting Vit bt buc ......................................................................... 16SSH1110 Nhng NL c bn ca CN Mc-Lnin I .......................................... 16

SSH1120 Nhng NL c bn ca CN Mc-Lnin II ........................................ 16SSH1050 T tng HCM ................................................................................ 16SSH1130 ng li cch mng ca ng CSVN.......................................... 16PE1010-PE2020: Gio dc th chtA-E ......................................................... 16MIL1010-MIL1130: Gio dc quc phng..................................................... 16

Cc hc phn ting Anh bt buc ......................................................................... 16FL1016 Ting Anh c bn1 (Essential English 1) ......................................... 16FL1026 Ting Anh c bn II(Essential English 2) ......................................... 17FL2016: Ting Anh k thut(ENGR 100 Engineering Reports) .................... 17MI1016: Gii tch I (MATH 120: Analytic Geometry and Calculus 1) .......... 17MI1026: Gii tch II (MATH 121: Analytic Geometry and Calculus 2)......... 17MI1036: i s (MATH 031: Algebra) ........................................................... 17MI1046: Phng trnh vi phn v chui (MATH 260: Elementary Differential

Equations) ............................................................................................. 17

PH1016: Vt l i cng I (PHYS 204A: Physics for Students of Science andEngineering: Mechanics) ...................................................................... 18

PH1026: Vt l i cng II (PHYS 204B: Physics for Students of Science

and Engineering: Electricity and Magnetism) ...................................... 18

IT1016: Tin hc i cng (Introduction to Computer Science) .................... 18


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MI2036 Xc sut v phn tch tn hiu ngu nhin......................................... 19ET2000ENhp mn k thutin-in t.................................................... 19EE3023E Th nghim mch tuyn tnh I......................................................... 19EE3010E Mch tuyn tnh I............................................................................ 20EE3020E Mch tuyn tnh II ........................................................................... 20

EE2000E Tn hiu v h thng ........................................................................ 21ET3220E Thit k h thng s I ...................................................................... 22ET3300E Thit k h thng s II ..................................................................... 22ET3230E Thit k in t I............................................................................. 23ET3240E Thit k in t II ............................................................................ 24ET2040E Linh kin in t bn dn ................................................................ 24EE3280E L thuyt iu khin t ng I........................................................ 25EE3110E K thut o lng ............................................................................ 26

EE3033E Nguyn l trng in t................................................................ 26EE3490E Lp trnh C/C++ trong k thut ...................................................... 27ET3250E C s h thng truyn thng........................................................... 28EE3500E H thng iu khin cng nghip................................................... 28ET3290E Xy dng ti thit k................................................................... 29EE4910E/ET4010E n thit k .................................................................. 29ET5080E Thit k s s dng VHDL............................................................. 29ET4040E Kin trc my tnh ........................................................................... 30

ET4080E C s k thut mng ........................................................................ 30

ET4070E Thng tin s I................................................................................... 31ET4020E X l s tn hiu ............................................................................. 32EE3510E Truyn ng in ............................................................................. 32EE3410E in t cng sut ............................................................................. 33EE4220E iu khin Logic v PLC ................................................................ 34EE3140E My in .......................................................................................... 35EE3420E H thng cung cp in ................................................................... 35ET4340E Phn tch v thit k vi mch tng t............................................ 36ET5310E Thit k khuch i thut ton........................................................ 36ET5010E Thit k vi mch s......................................................................... 37ET4360E Thit k h thng nhng .................................................................. 37ET5320E Thit k kim tra in t................................................................. 37ET4310E Thng tin si quang ......................................................................... 38ET3280E Anten - truyn sng ......................................................................... 38ET4280E Thng tin s II ................................................................................. 39ET4240E Truyn thng v tuyn.................................................................... 40

ET4090E C s k thut siu cao tn .............................................................. 41EE4435E H thng iu khin s .................................................................... 41


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EE3550E iu khin qu trnh ........................................................................ 42EE4230E L thuyt iu khin t ng II ....................................................... 43EE4319E iu khin m v mng nron........................................................ 43EE4401E Thit k h iu khin nhng.......................................................... 43EE4124E Phn tch h thng in.................................................................. 44

EE4123E iu khin v vn hnh h thng in............................................ 45EE4114E o v h thng in ....................................................................... 45EE4124E n nh h thng in..................................................................... 46EE4118E K thut in cao p v vt liu in.............................................. 47EE5052E/ET5010E Thc tp tt nghip........................................................ 47EE5012E/ET5110E n tt nghip .............................................................. 47


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GIO DC V O TO CNG HAX HI CH NGHA VIT NAMTRNG HBK H NI c lp - T do - Hnh phc

CHNG TRNH GIO DC I HCUNDERGRADUATE PROGRAM

Tn chng trnh: Chng trnh tin tin K thut in- in tAdvanced Program in Electrical and Electronic Engineering

Trnh o to: i hcUndergraduate

Ngnh o to: K thut in-in tElectrical and Electronic Engineering

Loi hnh o to: Chnh quy tp trungFull-time

1 MC TIU O TOEducational Objectives

Mc tiu ca Chng trnh tin tin K thut in- in t l trang b cho ngi ttnghip:

(1) Kin thc c s chuyn mn vng chc thch ng tt vi nhng cng vic khc nhautrong lnh vc rng ca ngnh in in t.

(2) K nng chuyn nghip v phm cht c nhn cn thit thnh cng trong nghnghip

(3) K nng x hi cn thit v c trnh ting Anh thnh tho lm vic hiu qu trongnhm a ngnh v trong mi trng quc t.

(4) Nng lc tham gia xy dng v pht trin h thng in, in t, vin thng, thit kch to cc sn phm in, in t trong bi cnh pht trin rt nhanh ca ngnh in ,in t Vin trong nc cng nh trn th gii.

(5) Phm cht chnh tr, o c, c thc phc v nhn dn, c sc kho, p ng yu cu

xy dng v bo v T quc.

Understanding of the Fundamentals: Graduates will demonstrate an understanding of

the fundamentals of Electrical Engineering, including its mathematical and

scientific principles, analysis and design.

Understanding the Practical Applications of Engineering: Graduates will demonstrate

the ability to apply the practice of Engineering to real-world problems.

Teamwork and Communication: Graduates will demonstrate effective oral and written

communication in English, teamwork and leadership.

Professional: Graduates demonstrate a professional and ethical attitude with continued

intellectual flexibility and capacity for advancement.


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2 THI GIAN O TO THEO THIT K- Program Duration

4 nm cho bng C nhn k thut v 5 nmcho bngK s

4 years for B.Eng degree and 5 years for Engineer degree

3 KHI LNG KIN THC TON KHARequired Total Credits

134 tn chcho bccnhn kthutv 155 tn chcho bcks

134 credits for B.Eng degree and 155credits for Engieer degree

4 I TNG TUYN SINH- Enrollment

Hc sinh tt nghip THPT, trng tuyn khi A k thi tuyn sinh i hc (din ctuyn thng hoc im trn mt mc do nh trng quy nh tng nm), t im kimtra ting Anh u vo hoc

TOEFL paper 450, TOEFL CT 140, TOEFL CT 50

IELTS 4.5

People who meet the following requirements can be admitted to this program:

1. Passed the high school graduation exam.

2. Passed the undergraduate entry examination in Group A with higher score than a

certain level determined by HUT each year, or received special admission to HUT

undergraduate carreer.

3. Having English test score of

TOEFL paper 450, TOEFL CBT 140, TOEFL CBT 50IELTS 4.5or passed the entry English test organized by HUST.

5 QUY TRNH O TO, IU KIN TT NGHIP- Educational Processand Graduation Requirements

Sinh vin c hc trong iu kin hc tp tt nht bng ting Anh, chng trnh oto c xy dng trn c s tham kho chng trnh o to ngnh K thut in-in tca trng i hc San Jos State University (SJSU), mt trong cc trng c

uy tn hng u ca Hoa K v o to i hc ngnh in-in t. Ging vin l nhnggio s ca trng HKHN v mt s trng, vin nghin cu khc c kinh nghimging dy, tng dy v hc ti cc nc ni ting Anh; mt s mn hc s do gio sca trng i hc SJSU trc tip ging dy.

Quy trnh o to c t chc theo hc ch tn ch. iu kin ttnghip tun theo Quych o to theo hc ch tn ch ca trng i hc ch khoa H Ni. Sinh vin phihon thnh tt c cc hc phn bt buc cng nh s hc phn t chn theo yu cu cachng trnh o to.

Tng lng kin thc ti thiu cho tt nghip bng C nhn k thut l 134 TC viim trung bnh tt nghip 5,0 theo thang im 10.


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Tng lng kin thc ti thiu cho tt nghip bng K s l 155 TC vi im trung

bnh tt nghip 5,0 theo thang im 10. Thc tp tt nghip v n tt nghip cng

l nhng hc phn bt buc, phi t im t 5,0 tr ln.

Students are educated and trained in the best academic environment. Allmost all

courses are taught in English. The curriculum and syllabi were built based on theundergraduate program in Electrical Engineering of the San Jos State University

(SJSU). Lecturers will be selected from HUST and some other universities and research

institutes, who have distinguished teaching experience in higher education, already

taught technical subjects in English, or graduated from countries using English as first

language. Some courses will be taught by the professors from SJSU .

The educational process is designed in accordance with the credit-based system. The

graduation conditions obey the Regulation of Credit-based Academic System of HUST.

Students have to pass all the required courses and to complete the necessary amount of

elective courses.

The Total Course Requirements for B.Eng and Engineer degree are 134 and 155

credits, respectively. The CPA (Cummulated Grade-point Average) must be 5.0 (10-

level system). For the Engineer degree, the graduation practice and thesis are required

courses, which also required a minimum grade point of 5.0.

6 THANG IMGrading System

Thang im 10 c th quy i sang thang im 4 (im s v im ch) theo quy cho to theo hc ch tn ch ca trng HK H Ni.

The 10-scale grading system, which can be converted into 4-scale system (letter or

number grade), is to be used in accordance with the Regulation of Credit-based

Academic System of HUST.

10-scale 4-scaleLetter Number

Pass*

from 9,5 to 10 A+ 4,0

from 8,5 to 9,4 A 4,0

from 8,0 to 8,4 B+ 3,5

from 7,0 to 7,9 B 3,0

from 6,5 to 6,9 C+ 2,5

from 5,5 to 6,4 C 2,0

from 5,0 to 5,4 D+ 1,5

from 4,0 to 4,9 D 1.0

Not pass below 4,0 F 0

* To pass Graduation Practice and Graduation Thesisstudents are required to get C or

above.


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7 NI DUNG CHNG TRNH Curriculum

7.1 Cu trc chng trnh o to(Curriculum structure)

KHI KIN THCKnowledge ModulesS TCCredits

Gio dc i cngGE, Math and Basic

Science

(49 credits)

Social Sciences and Humanities 10

Mathematics 15

Physics 8

English 16

Physical Eduction & Militaty Education -

C s k thut chungEng. Common Area

(9 credits)

Introduction to Engineering (3) 3

Introduction to Computer Science (3),

Technical Writing (3),6

C s ngnhMajor Core Courses

Circuits, Signals, Systems, Field and Waves,

Electronics, Digital System, Control,

Communication

55

T chn chuyn suUpperDivision Electives

- Microelectronics

- Telecommunications

- Control and Automation

- Power Systems

15

n tt nghip c nhn 6

Total Requirement for B.Eng degree 134

Kin thc chuyn ngnh

cho bc k sArea Concentration

Cc hc phn chuyn ngnh 15

Thc tp & n tt nghip 12

Total Requirement for Engineer degree 155


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7.2 Danh mc cc hc phntrong chng trnhList of Courses

7.2.1 KINTHCGIO DCICNGBASIC KNOWLEDGE

STT Hc phn HKHN Hc phn gc (SJSU) Khi lng

1 SSH1110Nhng NL cbn ca CN Mc-Lnin I

2(2-1-0-4)

2 SSH1120Nhng NL cbn ca CN Mc-Lnin II

3(3-0-0-6)

3 SSH1050 T tng HCM 2(2-0-1-4)

4 SSH1130 ng li cchmng ca ng CSVN

3(2-1-0-4)

5 FL1016 Ting Anh c bnI

8(8-8-0-24)

6 FL1026 Ting Anh c bnII

8(8-8-0-24)

7 MI1016 Gii tch I MATH 030 Calculus IMATH 031 Calculus II

MATH 032 Calculus III

4(3-2-0-8)

8 MI1026 Gii tch II 4(3-2-0-8)

9 MI1036 i s MATH129A Linear AlgebraI

4(3-2-0-8)

10 MI1046 PT vi phn v

chui

MATH 260 Ordinary Diff.

Equations

3(2-2-0-6)

11 PH1016 Vt l i cng I PHYS 070 Physics IMechanics

4(2-2-1-8)

12 PH1026 Vt l i cngII

PHYS 071 Physics IIElec.& Mag.

4(2-2-1-8)

13 PE1010 Gio dc th chtA

1(0-0-2-0)

14 PE1020 Gio dc th cht

B

1(0-0-2-0)

15 PE1030 Gio dc th chtC

1(0-0-2-0)

16 PE2010 Gio dc th chtD

1(0-0-2-0)

17 PE2020 Gio dc th chtE

1(0-0-2-0)

18 MIL1110 ng li qun

s ca ng

3(3-0-0-6)

19 MIL1120 Cng tc quc 3(3-0-0-6)


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phng an ninh

20 MIL1130 QS chung v

KCT bn sng AK4(3-1-1-8)

Tng cng: 49 TC

7.2.2 KINTHCGIO DCCHUYN NGHIPSTT Hc phn HKHN Hc phn gc (SJSU) Khi lng

Kin thc c s k thut chung 9

1ET2000ENhp mn kthutin-in t

ENGR 010 Intro to EE

Engineering3(2-0-2-6)

2 FL2016 Ting Anh k thutENGR 100 Engineering

Reports3(2-2-0-6)

3 IT1016 Tin hc i cngCMPE 046 Computer

Engineering I3(2-0-2-6)

Kin thc c s ngnh bt buc 55

1EE3023E Th nghim mchtuyn tnh I

EE97. Introductory

Electrical Engineering

Laboratory (1)

1(0-0-2-2)

2 EE3010E Mch tuyn tnh I

EE98. Introduction to

Circuit Analysis (3)3(3-1-0-6)

EE101. Circuit Concepts

and Problem Solving (1)

3 EE3020E Mch tuyn tnh IIEE110. Network Analysis

(3)3(3-1-0-6)

4MI2036 Xc sut v phntch tn hiu ngu nhin

EE102. Probability and

Statistical Signal Analysis

(3)3(3-1-0-6)

5EE2000E Tn hiu v hthng

EE112. Linear Systems 4(3-1-1-6)

6 ET3220E Thit k h thngs I

EE118. Digital Design I 4(3-1-1-8)

7ET3300E Thit k h thngs II

EE120. Digital Design II 4(4-1-0-8)

8 ET3230E Thit k in tI EE122. Electronic Design I 4(3-1-1-8)

9 ET3240E Thit k int II EE124. Electronic Design II 4(3-1-1-8)

10ET2040E Linh kin in t

bn dnEE128. Physical Electronics 4(3-1-1-8)

11 EE3280E L thuyt iukhin t ng IEE132. Theory ofAutomatic Control

3(3-1-0-6)

12 EE3110E K thut o lng Sensors and Instrumentation 3(3-0-1-6)


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13EE3033ENguyn l trngin t

EE140. Principles of

Electromagnetic Fields3(3-1-0-6)

14EE3490E Lp trnhC/C++trong k thut

C/C++ Programming for

engineering3(2-2-0-6)

15

ET3250E C s h thng

truyn thngEE160. Digital and Analog

Communications Systems 3(3-1-0-6)

16EE3500E H thng iukhin cng nghip

Industrial Control Systems 2(2-0-1-4)

17ET3290E Xy dng tithit k

EE198A. Senior Design

Project I1(0-0-2-4)

18EE4910E/ET4010E nthit k

EE198B. Senior Design

Project II3(0-0-6-12)

Kin thc t chn chuyn su 15

Electronics and Telecommunications

1ET5080E Thit k s sdng VHDL

EE179. Digital Design

Using VHDL3(3-1-0-6)

2 ET4040E Kin trc my tnhEE176. Computer

Organization3(3-0-1-6)

3ET4080E C s k thutmng

EE181. Fundamentals of

Networking3(3-1-0-6)

4 ET4070E Thng tin s I

EE161. Principles of

CommunicationEngineering

3(3-0-1-6)

5 ET4020E X l s tn hiuEE153. Introduction to

Digital Signal Processing3(3-0-1-6)

Control and Automation + Power Systems

1 EE3510E Truyn ngin EE130. Electromechanics 3(3-0-1-6)

2 EE3410E in t cng sut EE136. Power Electronics I 3(3-0-1-6)

3EE4220E iu khin Logicv PLC

Logic Control and PLC 2(2-0-1-4)

4 EE3140E My inEE130. Electromechanics

EE136. Power Electronics I3(3-0-1-6)

5EE3420E H thng cungcpin

EE 455 Intro to Energy

Distribution Systems

(IOWA SU Course)

4(3-1-1-6)

n tt nghiph C nhn k thut 6 TC

1ET4900E/ EE 4910E

n tt nghip c nhn6(0-0-12-

12)


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Kin thc chuyn ngnh cho bc k s 15 TC

Microelectronics

1ET4340E Phn tch v thitk vi mch tng t

EE125. Analog CMOS

Integrated Circuits3(3-1-0-6)

2

ET5310E Thit k khuchi thut ton

EE174. Operational

Amplifier 3(3-1-0-6)

3ET5010E Thit k vi mchs

EE166. Digital CMOS IC

design3(3-1-0-6)

4ET4360E Thit k h thngnhng

EE138. Embedded Systems

Design3(3-1-0-6)

5ET5320E Thit k kim train t

EE182. Electronic Test

Design Engineering3(3-0-1-6)

Telecommunications

1ET4310E Thng tin siquang

EE164. Fiber Optic

Communication3(3-0-1-6)

2ET3280E Anten - truynsng

EE142. Antennas and

Propagation for Wireless

Systems

3(3-1-0-6)

3 ET4280E Thng tin s IIEE252. Digital Data

Communication II3(3-0-1-6)

4ET4240E Truyn thng v

tuyn

EE255. Mobile/Wireless

communications3(3-1-0-6)

5ET4090E C s k thutsiu cao tn

EE172.Microwaves

Engineering3(3-1-0-6)

Control and Automation

1EE4435E H thng iukhin s

EE234. Direct Digital

Control3(3-1-0-6)

2EE3550E iu khin qutrnh

Process Control 3(3-1-0-6)

3 EE4230E L thuyt iukhin t ng II

EE231. Automatic ControlTheory

3(3-1-0-6)

4EE4319E iu khin m vmng nron

Introduction to Fuzzy

Control and Neural

Networks

3(3-0-0-6)

5EE4401E Thit k h iukhin nhng (TL)

EE138. Introduction to

Embedded Control System

Design

3(2-2-0-6)

Power Systems

1EE4124E Phn tch h thngin

Introduction to Power

Systems4(4-0-0-8)


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2EE4123E o v h thngin

Power Systems Protection 4(3-1-1-8)

3EE4124E n nh h thng

inPower System Stability 2(2-0-0-4)

4

EE4118E iu khin v vn

hnh h thng inPower System Operation

and Control 3(3-1-0-6)

5EE4114E K thut in caopv vt liu in

High Voltage Techniques

and elelectric materials3(3-1-0-6)

Thc tp v n tt nghip 12 TC

1EE5052E/ET5010E

Thc tp tt nghip

EE298I Electrical

Engineering Internship

Experience

3(0-0-6-12)

2

EE5012E/ET5110E

n tt nghip

9(0-0-18-

36)

8. KHOCH HCTPCHUNRECOMMENDED STUDY PLANHC K I 14TC HC K II 22TC

FL1016-

FL1019

Ting Anh c bn I 8(8-8-0-24)

FL1026-

FL1029

Ting Anh c bn II 8(8-8-0-24)

SSH1110 Nhng NLC ca CN

McLnin I

2(2-1-0-4) SSH1120 Nhng NLC ca

CN McLnin II

3(3-0-0-6)

PE1010 Gio dc th cht A 1(0-0-2-0) IT1016 Tin hc i cngIntro to Computer

Science.

3(2-0-2-6)

MIL1110 ng li qun s cang

3(3-0-0-6) MI1016 Gii tch IAnal. Geom. &

Calculus I

4(3-2-0-8)

FL1030 K nng ting Anhtng hp II

0(2-2-0-4) PE1020 Gio dc th cht 1(0-0-2-0)

FL1031 K nng ting Anhtng hp II

0(2-2-0-4)

MIL1120 Cng tc quc phngan ninh

3(3-0-0-6)

HC K III 19TC HC K IV 21TC

MI1026 Gii tch IIAnal. Geom. &

Calculus II

4(3-2-0-8) FL2016 Ting Anh K thutTechnical Writing

3(2-2-0-6)


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MI1036 i sAlgebra

4(3-2-0-8) MI1046 PT vi phn v chuiElem. Diff.

Equations

3(2-2-0-6)

PH1016 Vt l i cng IPhysics I

4(2-2-1-8) PH1026 Vt l i cng IIPhysics II

4(2-2-1-8)

PE1030 Gio dc th cht C 1(0-0-2-0) ET2040E Linh kin in t bndnElectronic Devices

4(3-1-1-8)

MIL1130 QS chung v KCT bnsng AK

4(3-1-1-8) EE1010E/

ET2000E

Nhp mn k thutIntro to Engineering 3(2-0-2-6)

SSH1050 T tng H Ch Minh 2(2-0-1-4) PE2010 Gio dc th cht D 1(0-0-2-0)

SSH1130 ng li CM cang CSVN

3(2-1-0-4)

HC K V 18 TC HC K VI 17 TCMI2036 Xc xut thng k v

tn hiu ngu nhinProb.& Statistical

Signal

3(3-1-0-6) EE3033E Nguyn l trngin tPrinciple. of

Electrical Fields

3(3-1-0-6)

EE3010E Mch tuyn tnh ICircuit Concepts and

Problem Solving

3(3-1-0-6) ET3300E Thit k h thng sII

Digital Design II

4(4-1-0-8)

EE3490E Lp trnh C/C++ trongkthutC/C++ Programming

in Engineering

3(2-2-0-6) ET3230E Thit kmch tngt IElectronic Design I

4(3-1-1-8)

ET3220E Thit k h thng s IDigital Design I

4(3-1-1-8) EE3020E Mch tuyn tnh IINetwork Analysis

3(3-1-0-6)

EE2000E Tn hiu v h thng

Signals & Systems

4(3-1-1-6) EE3110E K thut o lng

Measurement andInstrumentations

3(3-0-1-6)

PE2020 Gio dc th cht E 1(0-0-2-0)

HC K VII 14 TC HC K VIII 18 TC

EE3280E L thuyt iu khin tng ITheory of Automatic

Controls

3(3-1-0-6) EE4910E/

ET4010E

n thit kSenior Design Proj.

II

3(0-0-6-12)


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ET3240E Thit k mch tngt IIElectronic Design II

4(3-1-1-8) Nm mn chuynsu tchn theo nhhng chuyn ngnh5 Technical Elective

Courses

(Xem bng di)

15

EE3250E C s h thng truynthng

Digital and Analog

Communications

Systems

3(3-1-0-6)

ET3290E Xy dng ti thitk

Senior Design Project I

1(0-0-2-4)

EE3500E H thng iu khincng nghipIndustrial Control

Systems

3(3-0-1-4)

HC K VIII B 6TC

ET4900E/

EE 4910E

n tt nghip cnhn

6(0-0-12-

12)

Hon thnh chng trnh c nhn k thut (h 4 nm)

Thm hai hc k cho chng trnh k s (h 5 nm)

HC K IX 15 TC HC K X 12 TC

Nm mn chuyn su

tchn theo nhhng chuyn ngnh5 Technical Elective

Courses

EE5052E/

ET5010E

Thc tp tt nghip

ElectricalEngineering

Intership Experience

3(0-0-6-12)

EE5012E/

ET5110E

n tt nghip9(0-0-18-

36)

HC K VIII 15 TCControl & Automation + Power Systems


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EE3510E Truyn ngin 3(3-0-1-6)

EE3410E in t cng sut 3(3-0-1-6)

EE4220E iu khin Logic v PLC 2(2-0-1-4)

EE3140E My in 3(3-0-1-6)

EE3420E H thng cung cp in 4(3-1-1-6)

Microelectronics + Telecommunications

ET5080E Thit k s s dng VHDL 3(3-1-0-6)

ET4040E Kin trc my tnh 3(3-0-1-6)

ET4080E C s k thut mng 3(3-1-0-6)

ET4070E Thng tin s I 3(3-0-1-6)

ET4020E X l s tn hiu 3(3-0-1-6)


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9. M T VN TT NI DUNG CC HC PHN Course Descriptions

Cc hc phn ting Vit bt buc

SSH1110 Nhng NL c bn ca CN Mc-Lnin I

2(2-1-0-4)

Ni dung ban hnh theo Quyt nh s 45/2002/Q-GD&T, ngy 29/10/2002 ca trng Gio dc v o to.

SSH1120 Nhng NL c bn ca CN Mc-Lnin II

3(3-0-0-6)

Ni dung ban hnh theo Quyt nh s 45/2002/Q-GD&T ngy 29/10/2002 ca trng Gio dc v o to.

SSH1050 T tng HCM

2(2-0-1-4)


SSH1130 ng li cch mng ca ng CSVN

3(2-1-0-4)


PE1010-PE2020: Gio dc th chtA-E

Ni dung ban hnh theo Quyt nh s 3244/GD-T ngy 12/9/1995 v Quyt nh s1262/GD-T ngy 12/4/1997 ca trng Gio dc v o to.

MIL1010-MIL1130: Gio dcquc phng


Cc hc phn ting Anh bt buc

FL1016 Ting Anh c bn1 (Essential English 1)

8(8-8-0-24)

Cung cp nhng kin thc v k nng Ting Anh c bn lm nn tng vng chc gip sinhvin c th tip thu thun li nhng bi hc cp cao hn bng ting Anh.


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FL1026 Ting Anh c bn II(Essential English 2)

8(8-8-0-24)

FL2016: Ting Anh k thut(ENGR 100 Engineering Reports)

3(2-2-0-6)

Cung cp cho sinh vin nhng kin thc v k nng trnh by ting Anh trong k thut, tptrung vo k nng vit.

Instruction and practice in writing university-level expository prose.

MI1016: Gii tch I (MATH 120: Analytic Geometry and Calculus 1)

4(3-2-0-8)

Gii hn v s lin tc. php tnh o hm v ng dng vo vn tc, cc tr, v th. Hm

siu vit. Nhp mn tch phn xc nh v tnh din tch.

Limits and continuity. The derivative and applications to related rates, maxma and minima,

and curve sketching. Transcendental functions. An introduction to the definite integral and

area.

MI1026: Gii tch II (MATH 121: Analytic Geometry and Calculus 2)

4(3-2-0-8)

Hc phn hc trc: MI1016 Gii tch I

Tch phn xc nh v ng dng tnh din tch, th tch, cng, phng trnh vi phn, hnhthang cong. Chui, vc t, hnh gii tch khng gian 2, 3 chiu. To cc, phng trnhtham s.

The definite integral and applications to area, volume, work, differential equations, etc.

Sequences and series, vectors and analytic geometry in 2 and 3-space, polar coordinates,

and parametric equations.

MI1036: i s (MATH 031: Algebra)

4(3-2-0-8)

Gii thiu chung v s thc, bin, phng trnh, biu thc i s, hm v th, gii hphng trnh v bt phng trnhtuyn tnh.

Introduction to the basic properties of real numbers, variables, equations, algebraic

expressions, functions and their graphs. This includes evaluation of expressions and

formulas; translation from words to symbols; solutions of linear equations and inequalities.

MI1046: Phng trnh vi phn v chui (MATH 260: Elementary DifferentialEquations)

3(2-2-0-6)


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Hc phn hc trc: MI1026 Gii tch II

Phng trnh sai phn tuyn tnh bc nht; phng trnh tuyn tnh bc hai, bin iLaplace, khai trin chui im tm thng, h phng trnh tuyn tnh bc nht v ccng dng.

First order separable, linear, and exact equations; second order linear equations, Laplacetransforms, series solutions at an ordinary point, systems of first order linear equations, and

applications.

PH1016: Vt l i cng I (PHYS 204A: Physics for Students of Science andEngineering: Mechanics)

4(2-2-1-8)

Hc phn hc trc: MI1026 Gii tch IIng hc v ng lc hc cht im - C nng v trng th nng - ng lc hc vt rn -Dao ng v sng c - Thuyt tng i Einstein.

Kinetics and dynamics of material point - Mechanical energy and field of potential energy -

Dynamics of rigid - Vibration and machanical waves -Einsteins Relative Theory.

PH1026: Vt l i cng II (PHYS 204B: Physics for Students of Science andEngineering: Electricity and Magnetism)

4(2-2-1-8)

Hc phn hc trc: PH1016Vt l i cng Iin trng tnh - in mi - Vt dn v t in - T trng - Cm ng in t - Cc vtliu t - Dao ng v sng in t - Trng in t.Statistic electrical field - Insulator - Conducting object and capacitor - Magnetic field -

Electromagnetic induction - Magnetic material - Electromagnetic oscillations and waves -

Electromagnetic field.

IT1016: Tin hc i cng (Introduction to Computer Science)

3(2-0-2-6)Cc nguyn tc, khi nim c bn, ph-ng php tnh, trng tm l ng dng vo khoa hc v

k thut vt l. Gii cc bi ton c bn v k thut lp trnh; cc thut ton c bn v cu

trc d liu; s dng my tnh gii cc bi ton khoa hc v k thut.

Fundamental principles, concepts, and methods of computing, with emphasis on

applications in the physical sciences and engineering. Basic problem solving and

programming techniques; fundamental algorithms and data structures; use of computers in

solving engineering and scientific problems.


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MI2036 Xc sut v phn tch tn hiu ngu nhin

3(3-1-0-6)

Ni dung:Tng quan d liu s, xc sut s cp, phn phi v nhp mn l thuyt thngk.

Overview: Summary of numerical data, elementary probability, distributions, and

introduction to statistical inference.

ET2000E Nhp mn k thutin-in t

Introduction to Electrical-Electronic Engieering

3(2-0-2-6)

Mc tiu:Nhp mn k thut in in t l hc phn bt buc u tin thuc khikin thc gio dc chuyn nghip nhm:

To mi trng thc hnh v iu kin hc tri nghim sinh vin nhn thcsu hn v c im ca ngnh ngh v yu cu cng vic sau ny, t khm phkin thc thng qua thc hnh, ng thi rn luyn mt s k nng tay ngh tithiu

Gip sinh vin nhn thc r s cn thit v milin h gia cc mn ton, khoahc c bn v cc mn k thut, t to cho sinh vin hng th hc tp cc mnton v khoa hc c bn.

Gip sinh vin bc u hc phng php gii quyt bi ton thc tin, pht trin

k nng chuyn nghip v k nng xhi, to iu kin cho sinh vin hc

phng php lp nhm v lm vic theo nhm Gip sinh vin c c s say m cng s t tin cn thit trong hc tp v trong

con ng ngh nghip sau ny.Ni dung: Cc chuyn : gii thiu ngnh ngh, gii thiu chng trnh o to, k nngvit bo co, trnh by, lm vic nhm. Thc hin ti theo nhm (3 SV/nhm). Thc tpnhn thc ti cc c s hot ng trong lnh vc in, in t Vin thng. o co vit v

bo v kt qu thc hin ti.

Overview:What are Electrial and Computer Engineering? ECE Specializations, Electrical

concepts and components, Ative components and intergrated circuits, Engineering tools for

ECE, Engineering problem Solving, Engineering design. Team project with 3 students per

team. Company visit.

EE3023E Th nghim mch tuyn tnh I

Linear circuit 1 labs

1(0-0-2-2)

Hc phn song hnh: EE3010E


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Cc th nghim cng c cc nguyn tc dy trong EE 3010E T hp ca hai mn hc EE3010E v EE 3020E tng ng 2.0 gi th nghim.

Experiments to reinforce the principles taught in EECE 211.

EE3010E Mch tuyn tnh ILinear circuit 1(Circuit concepts and Problem solving)

3(3-1-0-6)

Hc phn hc trc: MI1026; PH1026Mc tiu:Gip sinh vin nm c m hnh mch in ca cc thit b in, c kh nngs dngcc cng c gii cc bi ton c bn v mch in ch xc lp v ch qu . y l hc phn c bn trong lnh vc in v l nn tng cho mn hc l thuytmch 2, l thuyt in t trng, in t tng t v in t s, hoc truyn thng cng

nghipObjective:Help students understand the circuit model of the system electrical equipment,

capable of using tools to solve basic linear circuit steady mode and transient modes.

This is the basis course in Electrical Field, it is the basis of theoretical subjects such as

circuit 2, electromagnetic field theory, analog electronic, digital electronic, industrial

communications, and instrumentation technology

Ni dung: Phn tch mch mt chiu v mch hnh sin, bao gm cc phn t in tr, incm v mch dn in v cc ngun c lp. in th l tng. nh l mch Thevenin v

Norton v chng mch. Pha, tr khng, cng hng v ngun xoay chiu. Phn tch mchxoay chiu 3 pha.

Overview: DC and sinusoidal circuit analysis, including resistive, capacitive, and inductive

circuit elements and independent sources. Ideal transformer. Thevenin and Norton circuit

theorems and superposition. Phasors, impedance, resonance, and AC power. Three-phase

AC Circuit analysis.

EE3020E Mch tuyn tnh II

Linear Circuit 2

3(3-1-0-6)

Hc phnhc trc: EE 3010EMc tiu: Hng dn sinh vin nghin cu m hnh mch cha cc phn t phi tuyn cah thng thit b in v m hnh mch c thng s ri.Objective: Guide students to research model circuit containing nonlinear elements of the

system electrical equipment and circuit model parameters are sprayed.


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Ni dung: Ni dung K thut phn tch mch cho mng vi ngun c lp v ph thuc.Topo ca mng. Ngun gc v tc nghng ng ca mch RLC. H thng tn s, cc vim khng. Cc mch i t tnh v mang hai cng. C s i s tuyn tnh, m t mch sdng PSPICE v gii tch s dng MATLA.

Overview:Circuit analysis techniques for networks with both independent and dependent

sources. Network topology. Natural and forced responses for RLC circuits. Complex

frequency, poles, and zeros. Magnetically coupled circuits and two-port networks.

Introduction to linear algebra, circuit simulation using PSPICE, and mathematical analysis

using MATLAB.

EE2000E Tn hiu v h thng

Signals and Systems

4(3-1-1-6)

Hc phn hc trc: MI1026Mc tiu:Trang b cho sinh vin cc kin thc c bn v m t, phn tch v x l tn hiu,xy dng m hnh m t h tuyn tnh, to c s cho nhnghc phn khc trong chngtrnh otocc ngnh kthut, c bitcc ngnh Kthutin, iukhin v Tngho. Sinh vin c c phng php m t v gii quyt cc bi ton k thut da trn cchtip cn h thng, c lp v b sung cho cch tip cn vt l -ha hc.

Objectives:The course provides general knowledge about signal discription, analysis, andprocessing as well as modeling of a linear system which are basic in engineering training

(i.e. in electrical engineering and automatic control training). After the course, the students

have capbility to deal with the technical problems based on engineering viewpoint.

Ni dung: Khi nimtn hiuv h thng, c trng v phn loi tn hiu, cc dng tn hiutiu biu, c trng v phn loi h thng.M t v phn tch tn hiu trn min thi gian vtrn min tn s: hm thc, hm phc, chui Fourier, php bin i Fourier, php bin i

Laplace, trch mu v khi phc tn hiu, php bin i Z.M t v tnh ton p ng htuyn tnhtrn min thi gian: phng trnh vi phn/sai phn, p ng xung, m hnh trngthi; M t v phn tch h tuyn tnh trn min tn s: p ng tn s, hm truyn. Thchnh giiquytbi ton bngcng cphnmmMatlab.

Overview: Definitions of signal and system, characteristics and classification of signals and

systems. Signal discription and analyis in the time and frequency domain: real function,

complex function, Fourier series, Fourier transformation, Laplace transformation, sampling

and reconstruction signal, Z transformation.Signal discription and response determine in

the time domain: differential equation, pulse response, state space model.System discription


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and analysis in the frequency domain: frequency response, transfer function.Solving

problems by using Matlab softwave.

ET3220E Thit k h thng s I

Digital system design 1

4(3-1-1-8)

Mc tiu:Sau khi hc xong mn hc, sinh vin s c kh nng thit k cc mch logic thp mc cngnh bm ha, b gii m, b cng, b phn knh, b ghp knhv ccmach logic dy nh cc loi b m, thanh ghi dch. n cnh sinh vin cn c trang

b kin thc thit kcc mch s phc tp hn t cc mch logic t hp v mch logicdy c bn.Ngoi ra sinh vin cn c gii thiu v cng c thit k CAD v cc loi vimchlp trnh c.

Objective: To provide a thorough background, at the introductory level, of the logical

(mathematical) and electrical basis for digital system design. Major building blocks for

designing digital systems will be examined and used which include gates, MUXes,

DEMUXes, decoders, encoders, comparators, various arithmetic blocks, flip-flops,

counters, registers, RAMs/ROMs, PLDs and FPGAs. Students will also learn to design

digital circuits using schematic and Hardware Description Language (HDL), particularly,

Verilog. This course is the gateway to all other digital system courses in the curriculum.

Ni dung: Khi nim chung: cc h m v biu din d liu, i s oole, cc cng logic

c bn, cng ngh ch to (TTL, CMOS, ). Thit k mch logic t hp: a Karnaugh,Quine McClusky, cc mch c bn (encoder, decoder, ALU, MUX, DEMUX, Adder ).Thit k mch logic dy: Cc loi flip-flop, FSM (s trng thi Moore, Mealy), thc hinFSM bng FF, cc mch c bn (thanh ghi dch, b m, hng i). Gii thiu v thit kRTL: FSMD (cu trc x l d liu v iu khin). Thit k dng CAD: cc vi mch lptrnh c (PAL, PLA, CPLD, FPGA).

Overview:Boolean algebra and number systems - Combinational and sequential circuits -

Realization of logic blocks with standard integrated circuit packages - Design of counters,

dividers, registers, arithmetic logic units and algorithmic state machines.

ET3300E Thit k h thng s II

Digital system design 2 (microprocessors)

4(4-1-0-8)

Hc phn hc trc: ET3220E Thit k h thngs1

Mc tiu:Hc phn nytrang b cho sinh vin cc kin thc c bn vi x lbao gm cutrc chung ca mt h thng vi x l, phn loi vi x l, cu trc bn trong ca mt b vi xl, cc lnh c bn ca b vi x l. Sau khi hc xong mn hc, sinh vin s c kh nng la


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chn vi x l, ghp ni vi x l vi b nh v thit b ngoi vi xy dng nn mt h vix l cho mt ng dng c th. Sinh vin s bit lp trnh hp ng cho h vi x l 80x86ca Intel, h vi x l ph bin nht hin nay, t c th d dng t hc cch lp trnh hpng cho cc b vi x l khc.Ngoi ra sinh vin cn nm c cc h vi x l khc cs dng trn thc t nh cc h vi iu khin, DSP.

Objective: After completing this course, students will: Understand the architecutures and

working principles of microprocessors and microprocessor systems. Be able to program

microprocessors using assembly. Be able to select the appropriate microprocessor for a

specific application. Understand different microprocessors in real life. Be able to design a

micro-controller based system.

Ni dung:Gii thiu v vix l: chc nng, cu trc v hot ng ca b vi x l, tp lnh,

cc ch a ch, t chc b nh, cng vo ra. Lp trnh assembly cho h vi x l 80x86. Ghp ni vi x l vi b nh v thit b ngoi vi. Ngt v x l ngt. Truy cp b nh trctip DMA. Cc b vi x l trn thc t: dng vi xl a nng ca Intel, Motorola, dngDSP, dng vi iu khin (AVR, 8051, PIC)

Overview: Introduction to microprocessor systems. The Intel 8088/8086 microprocessors.

Assembly programming for 8086. Memory and I/O Interfacing. Interrupt. Didect memory

access (DMA). Real life microprocessors

ET3230E Thit k in t IElectronic Design I

4(3-1-1-8)

Mc tiu:Hc phn nycung cp cho sinh vin cc kin thc c bn v mch in ttng t, phn tch, tnh ton v thit k mch in t tng tnh cc mch khuych idng transistor, cc mch khuych i thut ton.

Objective: The student will analyze the various devices used to design electronic circuits

and systems (Op Amps, Diodes, BJTs, and FETs) and learn how to design circuits with

them. . The laboratory sessions help students to practice the skills at checking the work ofOp Amps, Diodes, BJTs, and FETs and measuring the basic properties of circuits.

Ni dung:Cc phn t tch cc chnh transistor lng cc v transistor trng: nguyn lhot ng, tnh cht. Cc cch mc mch, thin p c bn v tnh cht ca tng cchmc.p ng tn s. Cc cch ghp cc linh kin: trc tip, dng t, dng bin p. Cc mchghp c bn. Hi tip v n nh. Khuych i thut ton v cc mch ng dng.

Overview: The Design of circuits with: Operational Amplifier, Junction Diode, Bipolar

Junction Transistor, Field Effect Transistor


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ET3240E Thit k in t II

Electronic Design 2

4(3-1-1-8)

Hc phn hc trc: ET3230E Thit k int I

Mc tiu:Hc phn ny nhm cung cp cho sinh vin cc kin thc c bn v mch in ttng tbao gm cc mch to dao ng, mch bin i tn s, mch bin i tng t s,s tng t, mch ngun, mch cng sut v quy trnh tnh ton v thit k mch in ttng t.

Objective:The students should be able to Analyze and design simple building blocks of an

IC amplifier (both BJT and CMOS). Analyze and design amplifier frequency response (both

BJT and CMOS). Analyze and design feedback circuits (both BJT and CMOS).Analyze and

design output stages (both BJT and CMOS). analyze and design simple opamp circuits (both

BJT and CMOS)

Ni dung: Mch to dao ng: cch to, mch to dao ng s dng RC, LC, n nh bin Mch bini tn s: mch trn, mch iu ch, mch tch sng. Mch bin i A/D,D/A. Mch ngun: mch chnh lu v n p. Mch cng sut: cc ch hot ng v cck thut. Thit k mch in t: hng dn thit kv m phng mch in dng cng cthit k EDA.

Overview:Basic analog bipolar and CMOS IC circuit analysis and design. Topics include

current sources, differential amplifiers, active loads, frequency response, feedback

amplifiers, frequency compensation, output stages and op amps.

ET2040E Linh kin in t bn dn

Electronic devices

4(3-1-1-8)

Mc tiu:Hc phn ny nhmcung cp cho sinh vin cc kin thc c bn v cu to,tham s ca cc loi cu kin in t bao gm cc loi cu kin ri rc v IC s dng trongk thut tng t, k thut sv hin th. Sau khi nm vng c tnh nng ca cc cukin in t thng dng, sinh vin s d dng tip thu kin thc cc mn hc k thut cangnh in t vin thng.Objective: Students should be able to:Describe fundamental concepts of solid-state physics

applied to the semiconductor devices. Explain general electrical behavior of semiconductor

and construct appropriate physical models. Illustrate structural details and current-voltage

characteristics of diodes, BJT, and MOSFET. Apply the fundamental understandings of


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semiconductor devices with knowledge on the limitations of physical models. Aware of some

basic concepts of nanotechnology and nanoelectronic.

Ni dung: Cc loi vt liu: in mi, bn dn, t; linh kin th ng: in tr, t in,cun cm; cu trc v hot ng cc loi it bn dn, transistor lng cc, transistor

trng, cc thit b bn dn khc, IC tng t, IC s, quang in t, thitb hin th.

Overview:Review of quantum mechanics applied to solid-state physics, energy band theory,

carrier generation and transport. Review of semiconductor process technology.

Nanotechnology and related basic physics concepts. PN junction diode; diode fabrication,

nanofabrication and characterization, pn junction at equilibrium, steady state, and transient

behavior. Metal semiconductor junction, Schottky barrier, and Ohmic behavior. Metal-

Oxide-Semiconductor (MOS) Field-Effect-Transistor: MOS capacitor, field effect, NMOS,

PMOS, CMOS, current-voltage characteristics, and switching. Nanoelectronic devices,

single electron device. Bipolar junction transistor: carrier transport in pnp/npn structure,

amplification, current-voltage characteristics, and switching.

EE3280E L thuyt iu khin t ng I

Control theory I

3(3-1-0-6)

Hc phn hc trc: EE2000.Mc tiu:Trang b cho sinh vin cc kin thc c bn v phn tch cht lng h thng;

cc nguyn tc iu khin c bn (truyn thng, phn hi); cc phng php thit k b iukhin lin tc tuyn tnh trong min tn s v trong min thi gian.

Objective:The course provides general knowledge about system quality analysis, the basic

principles of control (feedforward, feedback), and controller design methods in the

frequency and time domain.

Ni dung: iu khin h lin tc trong min tn s: m t cc h tuyn tnh, hm truyn,

phn tch cht lng h thng trn c s hm truyn, hm c tnh tn. Nhng ch tiu nhgi cht lng h thng. iu khin h lin tc trong min thi gian: Cu trc m hnhtrng thi. Xc nh qu o trng thi t do v qu o trng thi cng bc. Phn tchcht lng ng hc Thit k b iu khin phn hi trng thi.

Overview:Control of continuous systems in the frequency domain: description of a linear

system, the transfer function, system quality analysis based on the transfer function and

frequency characteristic functions. The criterias to evaluate the system quality. Control of

continuous systems in the time domain: state space model. Determination of the free state

trajectory and force state trajectory. Dynamic quality analysis. State feedback controller

design.


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EE3110E K thut o lng

Measurement & Instrumentation

3(3-0-1-6)

Mc tiu: Cung cp cho sinh vin cc kin thc c bn ca k thut o (sai s, khong oca k thut o lng, gia cng kt qu o, nguyn l hot ng ca thit b, cc phn tcu thnh). Gip sinh vin hiu cch s dng cc thit b o lng trong h thng sn xutcng nh cc thit b lm vic c lp trong cc phng th nghim. Hc phn cn cung cpcho sinh vin kin thc tip cn cc hc phn nh iu khin qu trnh, o v iu khincng nghip.Objective:Give students basic knowledge of measures technique like: Calibration process,

precision, error, true value, estemate the uncertainty . The basic concept of measurementprocess. After this course student can using measurement equipment in production systems

and autonomous equipment in the laboratory: functions of each meter

Ni dung:Phn 1:C s l thuyt ca KT o lng: cc khi nim c bn trong k thuto nh sai s, php o, thit b o v gia cng s kt qu o (tnh tan khng m boo, cc bc thit hnh nh gi mt thit b o).Phn 2:Phng php v o cc i lngin thng dng: dng in, in p, in tch, in tr, in cm, in dung, tn s, gclch pha, cng sut v nng lng in. Phn 3:Cc phng php v thit b o cc ilng khng in. Khi nim cm bin v cu thnh cc thit b o cc i lng khngin thng gp trong cng nghip: o nhit , o lc, p sut, trng lng, lu lng, vntc ng c, di chuyn, mc

Overview: Content of modules divided into three parts

Part 1: Establishment of the theory of measurement: the basic concept of measuring the

accuracy, measurement, measuring device and measurement process (estimate the

uncertainty, the operated evaluation a measuring device)

Part 2: Methods of measuring the electrical quantity, including the basic stages of the

measuring device (structural indicator, conveter/transducer, comparator, communication),

the universal electric quantities: current, voltage, charge current, resistance, electric feel,

capacitance, frequency, phase angle difference, power and electric power.

Part 3: The methods and equipment that the nonelectric quantity. The concept of sensors

and devices that constitute the great common of no electricity in industry: measuring

temperature, measuring force, pressure, weight, flow, speed of the engine, move,

EE3033E Nguyn l trng in tPrinciple of Electromagnetic Field

3(3-1-0-6)


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Hc phn hc trc: MI 1026; PH1026Mc tiu: Trang b cc kin thc k thut c s quan trng nht v m hnh v cc phng

php nghin cu, tnh ton trng in t.Objectives: Armed with the technical knowledge base of the most important models and

research methods, calculate the electromagnetic field.

Ni dung: Nhng khi nim c bn v trng in t. in trng tnh. in trng dngtrong vt dn. T trng dng. Trng in t bin thin.

Overview:This course will cover concepts of electrostatics and static magnetic fields. In the

beginning, vector algebra and calculus together with orthogonal coordinate systems will be

discussed. Next, the time-varying electromagnetic fields described by Maxwells Equationsin their complete forms are studied. Electromagnetic wave propagation will be covered.

EE3490E Lp trnh C/C++ trong k thut

C/C++ Programming in Engineering

3(2-2-0-6)

Mc tiu: Sinh vin nm c cc k thut lp trnh c bn, th hin c cc k thut thng qua mt ngn ng lp trnh bc cao tiu biu (C/C++) gii quyt cc bi ton tronglnh vc khoa hc k thut ni chung v trong cc ngnh K thut in v K thut iukhin v t ng ha ni ring; Tp trung rn luyn t duy lp trnh v phng php giiquyt bi ton nhm t 4 yu cu c bn: hiu qu, hiu sut, tin cy v gi tr s dngli.

Objective:Students understand the basic programming techniques apply these knownledge

into a high-level programming language (C / C + +) to solve problems. After the course, the

students have ability to solve problems satisfying the following requirements: efficiency,

reliability and re-using.

Ni dung :Quy trnh cng ngh phn mm v yu cu cht lngphn mm trong khoahc v k thut; Lp trnh c cu trc: cc thnh t c bn ca chng trnh, thit k thut

ton, thit k hm v th vin, cu trc d liu, ngn ng lp trnh C; Lp trnh hng itng v lp trnh tng qut: tru tng ha, nggi d liu, cu trc d liu v thut ton(tng qut), ngn ng C++).

Overview:The process of software technique and software quality requirements in science

and engineering; structured programming: the basic elements of the program, algorithm

design, function and libraries design, data structures, C programming languages ; object-

oriented programming and general programming: abstraction, packaging data, data

structures and algorithms (general) and C + + Language.


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ET3250E C s h thng truyn thng

Analog and digital communication systems

3(3-1-0-6)

Objective:The goals of this part of the course are to provide students with the knowledge of

the basic concepts of digital communication systems and the processing of the signal in

these systems analogue-to-digital conversion, channel coding, signal transmission in base-

band and in band-pass, influence of transmission channels on the received signal quality,

reconstruction of the transmitted signal at the receiver, digital modulation techniques, and

multiplexing techniques.

Overview:This course gives an introduction to the principles; analysis and applications of

communication systems, with focus on digital transmission techniques. The first part of the

course is a review of Fourier analysis of signals and systems, including power and energy

spectral densities, and band-pass signal analysis. Low-pass and band-pass samplingtheorem are also covered. This is followed by a detailed treatment of digital data

transmission techniques over channels subject to additive white Gaussian noise (AWGN).

This includes base-band pulses for binary signals, orthogonal signals and signal-space

vector representation of signals, digital transmission over band-limited AWGN channels

(inter-symbol interference, eye diagrams and raised-cosine spectrum) and performance

analysis of digital communications systems. The basic tradeoffs between bandwidth, error

performance and signal-to-noise ratio are discussed. The last part is an overview of modern

techniques for wireless communication systems, including multi-carrier (OFDM) andspread-spectrum modulation techniques.

EE3500E H thng iu khin cng nghip

Industrial Control Systems

2(2-0-1-6)

Mc tiu:Sinh vin c trang b cc kin thc c bn v cu trc, chc nng v nguyn llm vic ca cc thnh phn tiu biu trong mt h thng t ng ho cng nghip hin i.Sinh vin c kh nng t nghin cu tm hiu, vn hnh v bo tr mt h thng lp t,

tham gia thit k v a vo vn hnh mt h thng mi.Sau khi hon thnh hc phn ny,yu cu sinh vin c kh nng:Nm c nguyn l v cch vn hnh cc thit b cptrng (thit b o v chp hnh).Nm c cc chun truyn tin c bn. Nguyn tc chungv tch hp h thng o v iu khin cng nghipObjective: This is the orientation of the specialized techniques of measurement and

Informatics. Module Provides the knowledge base of information systems industry in

general and the media industry in particular, understanding the fundamentals of options

and design solutions in media measurement system, control and automation systems as well

as other information in the industry.


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This module provides knowledge support for modules: process control and automation

production process

Ni dung: M hnh phn cp chc nng, cu trc v cc thnh phn c bn ca h thng tng ho cng nghip. Thit b o v chuyn i tn hiu, thit b o thng minh. C cuchp hnh: in, kh nn, thu lc; Van iu khin v bng ti. Thit b iu khin chuyn

dng (PID) v kh trnh (PLC, CNC, PC-based, PAC...). H thng truyn thng: cu trcmng v cc k thut thc hin, chun HART, cc chun bus trng v mng truyn thngcp trn. Giao din ngi my (HMI). H thng an ton v bo v. Nghin cu cc lnh vcng dng. Sinh vin c gii thiu v thc hnh trn cc h thng o lng, iu khin vt ng ho hin i.Overview: Hierarchical model function, structure and basic components of the system in

industrial automation. Instrumentation and signal transducer, intelligent instrumentation.

Actuators: electric, pneumatic, hydraulic, control valves and conveyors. Equipment

dedicated controller (PID) and programmable logic (PLC, CNC, PC-based, PAC ...).Communication system: network architecture and implementation techniques, standard

HART, fieldbus standards and superior communications network. Human Machine

Interface (HMI). System safety and protection. Look at the application area. Students are

introduced and practiced in the measurement systems, automation control and modern.

ET3290E Xy dng ti thit k

1(0-0-2-4)

Ni dung: Sinh vin lm vic theo nhm 3-5 sinh vin hnh thnh tng ti, phn tchyu cu v lp k hoch.

EE4910E/ET4010E n thit k

3(0-0-6-12)

Ni dung: Sinh vin lm vic theo nhm 3-5 sinh vin, da trn bn phn tch yu cu lm hc phnXy dng ti thit k, sinh vintinhnh thit k, kim tra v thc hin

trin khai ti.

ET5080E Thit k s s dng VHDL

Digital design using VHDL

3(3-1-0-6)

Mc tiu:Hc phn trnh by cc phng php thit k mch s s dng VHDL. Sinh vins dng c cc cu trc lp trnh c bn vi VHDL, bit m phng v tng hp mch.

Objective: This course presents a comprehensive approach to HDL-based digital designmethodology using VHDL. Students will learn the basic structures of VHDL, VHDL

simulation and synthesis. Selected topics on performance level simulation and synthesis will


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also be discussed. The students are required to do exercises and a design project in the

accompanied Laboratory. The course is intended for senior students with background in

logic design and computer organization.

Ni dung: Phn tch v thit k mch tch hp CMOS, ngn ng VHDL, thit k mch dyng b.Overview:Analysis and design of digital CMOS integrated circuits. VHDL, synchronous

and sequential design.

ET4040E Kin trc my tnh

Computer organization

3(3-0-1-6)

Mc tiu:Sau khi hc xong hc phnsinh vin s nm c lch s pht trin, nhng

nguyn l c bn trong hot ng v t chc ca cc h thng my tnht thit k cvi x l v h thng my tnh.Objective: The students should be able to: Understand principle of digital computer

systems. Has ability to design microprocessor components.

Ni dung:Gii thiu nguyn tc thit k ca cc h thng my tnh hin i. Mi quan hgia phn cng, phn mm trong qu trnh thit k cc thnh phn ca vi x l nh ALU,Datapath, khi iu khin, piplining, b nh v cc m un vo ra. Tp trung vo cu trcRISC v hp ng ca MIPS.Overview: The course covers design principles of modern digital computer systems. It

examines various trade-offs between hardware-software interfaces relevant to the design

process of microprocessor building components such as, ALU, Datapath, control,

pipelining, memory, and input-output modules. Emphasis is given to the RISC architecture

and MIPS assembly language.

ET4080E C s k thut mng

Fundamentals of Networking3(3-1-0-6)

Mc tiu: Gip sinh vin hiu c c s ca mng thng tin, mng my tnh, mngchuyn mach, cc thnh phn ca mng, k thut chuyn mch gi, cc giao thc mng.Sinh vin c kh nng s dng cc giao thc mng nh TCP/IP v thc hnh ci t ccthng s mng.

Objective: An understanding of fundamentals of modern telecommunication, digital

telephony and computer communication networks, switching network architectures,transmission facilities, and data network components, packet routing. The ability to

simulate telecommunication networks with software tools and to determine network


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performance on delay, throughput and traffic loss, to use basic Internet Protocols in a

simple network set up in networking.

Ni dung:Cc khi nim v truyn d liu, giao thc, thut ton; m hnh tham chiu OSI7 lp, trin khai m hnh OSI, lp vt l; kin trc v thnh phn mng LAN, Ethernet,

FDDI, TCP/IP v cc chun lin quan.

Overview: Data communication concepts, protocols, algorithms; 7-layer OSI reference

model, implementations of the OSI model; physical media (fiber, wire); LAN architectures

and components, Ethernet, FDDI, TCP/IP, and related standards.

ET4070E Thng tin s I

Principle of communication engineering

3(3-0-1-6)

Mc tiu:Hc phnny nhm trang b cho sinh vin cc kin thc c bn nht v h thngthng tin s v cc qu trnh bin i tn hiu din ra trong h thng thng tin s: qu trnh

bin i tng t - s; m ho knh; cc nh hng ca knh truyn khng l tng ln chtlng tn hiu; qu trnh khi phc tn hiu u thu; vic truyn tn hiu trn bng tn cs v m ng truyn; truyn tn hiu trn bng tn thng di v cc phng php iu chs; cc phng php ghp knh.

Objective: Student learning objectives for the course are: Communication channel link

analysis; The optimal modulation method for various channels; Component comparison

for analog systems; Understand the interplay between modulation formats and coding;

Perform laboratory based operational and measurement criteria for analog communication

systems; The ability to perform a technical and ethical assessment of technical literature;

The ability to critically assess the predicted performance of wired and wireless analog

communications systems; Understand the complexity interplay in communications systems

in terms of circuit and component requirements; Perform computer-based performancepredictions for AM, FM and PM analog communication channels; Noise analysis in

communication system performance; Evaluate test and measurement techniques applicable

to international communications standards.

Ni dung:Qu trnh bin i A/D, D/A, l thuyt ly mu, truyn tn hiu qua ngtruyn s, tnh cht knh truyn dn s, nh l Nyquist, b lc cos nng, matched filter, mng truyn, cc kthut iu ch bng tn c s AM, FM, PM. iu ch s: QPSK,QAM, b iu ch bng tn thng di I/Q.


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Overview: Transmission of signals through linear systems; time-bandwidth requirements.

Analog communications; amplitude modulation and demodulation; angle modulation and

demodulation. Digital communication. Phase-locked loops.

ET4020E X l s tn hiu

3(3-0-1-6)

Mc tiu:Trang b cho sinh vin cc kin thc c bn v x l s tn hiu, trn c s sinh vin c th t mnh s dng c cc chng trnh MATLAB m phng cc ngdng x l tn hiu s v s dng c cc h DSP nh: TMS320C6000X thit k cch thng x l tn hiu s.

Objective:Understand how analog signals are represented by their discrete-time samples,

and in what ways digital filtering is equivalent to analog filtering. Master the representation

of discrete-time signals in the frequency domain, using the notions of z-transform, discrete-

time Fourier transform and discrete Fourier transform (DFT). Learn the basic forms of FIR

and IIR filters, and how to design filters with desired frequency responses. Understand the

implementation of the DFT in terms of the FFT, as well as some of its applications

(computation of convolution sums, spectral analysis).

Ni dung: L thuyt h ri rc, tch chp, phn tch ph, thit k b lc FIR, IIR, hiu nglng t ha. ng dng trong x l hnh nh v m thanh.

Overview: Discrete system theory, convoluti on, spectral analysis; F IR and I I R f il ter

design; quanti zation ef fects. Applications to music and speech analysis.

EE3510E Truyn ng in

Transformation of power

3(3-0-1-6)

Mc tiu: Cung cp cho ngi hc cc kin thc c bn v qu trnh bin i in nngthnh c nng xy ra trong mch lc ca h thng bin i-ng c in. Ngi hcsnm vng c nguyn l sinh m men in t, cch xy dng cc c tnh v cc phng

php thng dng iu chnh m men v tc ca ng c in trong cc ch lm

vic khc nhau, ty thuc vo yu cu ca c cu my.Objective:Provide students with the knowledge base about the process of transformation of

power into the power circuit occur in the system of variable power - electric motors.

Students will grasp firmly the principles of generating electromagnetic momentum, how to

build the characteristics and methods used to adjust the scale and speed of the engine

power (the system) in different working modes, depending on the requirements of the

structure of the machine. After the subjects of this study can calculate, select, integrate the

information the transmission power requirements suitable for the structure of computer

technology.


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Ni dung: Nhng vn chung v h truyn ng in. Truyn ng in mt chiu.Truyn ng in xoay chiu khng ng b. Truyn ng in mt chiu. Truyn ngin xoay chiu khng ng b. Truyn ng in xoay chiu ng b. Tnh chn s bmch lc ca h truyn ngOverview: The issues on power dynamics Transmission. Characteristics and problems

adjusting the speed of the system: Rectification control - engine size from one-way

independent. Characteristics and problems adjusting the speed of the system: Inverter

voltage source - Engine asynchronous. Characteristics and problems adjusting the speed of

the system: Inverter voltage source - engine synchronization. Overview choose the capacity

of the engine

EE3410E in t cng sut

Power Electronic3(3-0-1-6)

Mc tiu: Cung cp cho sinh vin kin thc c bn v qu trnh bin i nng lng indng cc b bin i bn dn cng sut cng nh nhng lnh vc ng dng tiu biu cain t cng sut. Ngi hc s c hiu bit chc chn v nhng c tnh ca cc phn t

bn dn cng sut ln, cc qu trnh v thit b bin i xoay chiu mt chiu (AC DC),xoay chiu xoay chiu (AC AC), mt chiu mt chiu (DC DC), mt chiu xoaychiu (DC AC) v cc b bin tn. Mn hc yu cu ngi hc bit s dng mt s phnmm m phng nh MATLA, PLEC, nghin cu cc ch lm vic ca cc b

bin i. Sau mn hc ny ngi hc c kh nng tnh ton,thit k nhng b bin i bndn trong nhng ng dng tiu biu.Objective: Give students basic knowledge about the process alter electric energy converterusing semiconductor capacity as well as typical application areas of power conversion.

Learners will have knowledge about certain characteristics of semiconductor elements with

large capacity, the process variable AC - one-way (AC - DC), AC - alternating current (AC

- AC), a way - one way (DC - DC), a current - alternating current (DC - AC) and the

inverter. Subjects that require the use of a simulation software such as MATLAB, PLEC, ...

to study the working regime of the converter. After these subjects learners capable

calculation and design of the converter in semiconductor applications simple.

Ni dung: c tnh ca nhng phn t bn dn: i-t, tiristo, GTO, BJT, MOSFET,IGBT;Chnh lu v nghch lu ph thuc; Cc b bin i xung p: xoay chiu, mt chiu,

b chuyn i ngun mt chiu; Nghch lu c lp: nghch lu ngun dng, nghch lungun p, nghch lu cng hng; Khi nim v cc b bin tn: bin tn tn s thp ckhu trung gian mt chiu, bin tn trc tip; Phng php xy dng h thng iu khin

pht xung cho cc b bin i.


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Overview: Characteristics of the semiconductor elements: diods, transitor, GTO, BJT,

MOSFET, IGBT. Rectification and dependent inveter. The pulse voltage converter: AC,

one way, the source of one-way conversion. Heard up independent: save against power

lines, power up against pressure. The concept of the frequency inverter: low frequency

inverter stage intermediate one-way, inverter directly. Variable frequency resonance:

inverter with current, voltage to the sin, for the high frequency induction heating process.

Method of building control system has the impulse for transformation.

EE4220E iu khin Logic v PLC

Logic Control and PLC

2(2-0-1-4)

Mc tiu: Mn hc trang b kin thc v iu khin cc qu trnh theo chng trnh nhtrc, bao gm trnh t hot ng v theo di trng thi, m bo an ton cho h thng.

Phn ln cc chc nng iu khin c thc hin bi b iu khin lp trnh c (PLC).Ngi hc c cng c kin thc v lgic ton, nm c cc phng php phn tch,thit k h iu khin lgic, la chn cu hnh, ghp ni, cc phng php lp trnh viPLC.

Objective: The course provides general knowledge about logic control i.e. sequential

control, supervisory control and safety assuarance for industrial processes. The PLC

(programmable logic controller) comply with IEC 61131-3 is used to solve the practical

problems. After the course, the students have the capability of PLC programming, system

analysis, system modeling and simulation.

Ni dung: Gii thiu v v tr, vai tr ca my tnh cng nghip, di dng b iu khinlp trnh c PLC, trong iu khin cc qu trnh. C s ton hc v i s logic, tng hpmch logic t hp v mch logic tun t. Gii thiu v PLC, cu to, hot ng, cc chcnng. Cc ngn ng lp trnh ca PLC: LD, STL, F, SFC, chun IEC 61131. Phng

php tip cn mt cch h thng trong qu trnh thit k h t ng ha dng PLC. Cc thitb trong h thng iu khin logic, tnh ton, la chn v ghp ni PLC vi cc thit b khctrong h thng t ng ha. Cc k thut xy dng chng trnh iu khin, cc phng

php lp trnh cho PLC. Mt s h thng iu khin tiu biu dng PLC.

Overview:The position and role of programmable logic controllers (PLC) in the process

control. Introduce about logic algebra, combinational logic circuit synthesis and sequential

logic diagram. Introduce about PLC (structure, operation, and functions). The PLC

programming languages: LD, STL, FB, SFC, IEC 61131. Briefly guide about automatic

system design using PLC. Determine requirements to connect a PLC with a automatic

system. Design a program for control system.


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EE3140E My in

Electrical Machines

3(3-0-1-6)

Hc phn hc trc: EE2030EMc tiu: Cung cp cho sinh vin kin thc c bn v my in. Sau khi hc xong hc

phn ny sinh vin phi hiu r cu to v nguyn l lm vic ca cc loi my in, mhnh ton m t cc qu trnh vt l trong my in v cc c tnh ch yu ca cc loi myin.Objective: Gives students basic knowledge about Electrical Machine. After completion of

this course students should understand the structuring and working principles of electric

machines, model describes the process in the machine of physics and characteristics of

major types of electric machine.

Ni dung: Nghin cu v: my bin p, my in khng ng b, my in ng b, myin mt chiu. Ni dung bao gm cu to v nguyn l lm vic ca cc loi my in,cc m hnh m t qu trnh bin i nng lng, cc phng php xc nh cc thng s vc tnh ch yu ca cc loi my in.Overview:Research: transformers, power asynchronous, synchronous electrical machines,

power one-way. Content includes structuring and working principle of electric machines,

the model describes the process of transformation of energy, the method of determining the

parameters and characteristics of major types of power.

EE3420E H thng cung cp in

Introduction to Energy Distribution Systems

4(3-1-1-6)

Mc tiu: Cung cp cho ngi hc cc kin thc chung v h thng sn xut, truyn ti vphn phi in nng, cc vn c bn trong phn tch, tnh ton thit k v vn hnh liin trung v h p. Sau mn hc ny ngi hc s bit cch tnh ton quy hoch, thit kv vn hnh cc h thng cung cp in.C th: H thng sn xut, truyn ti v phn phiin nng. Nhng c trng c bn ca ph ti in v cch phn loi ph ti in. Cc

phng php xc nh ph ti tnh ton v phm vi ng dng. La chn s cung cpin. Tnh ton, la chn v kim tra cc thit b in: my bin p, ng dy, my ct,aptomatTnh ton h thng ni t an ton, ni t chng st, h thng bo v r le.Cc bin php nng cao cht lng in nng. Tnh ton, thit k h thng chiu sng cngnghip.Objective: Provide a generality of the electric power generation, transmission anddistribution systems, basic principles for distribution system analysis, designing and

operation. By finishing this course, the students can perform basically calculations on

planning, designing and operation of the electric power delivery systems including: General


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analysis of the system of generating, transmitting and distributing electric energy,

Calculation and forecast of the load characteristics and demand growth, Proposing power

distribution network topologies. Sizing conductors, transformers and selecting electric

equipment and facilities (switching devices, instruments and other distribution facilities)in a power distribution system. Principal calculations on earthing systems, surge protection

and relay protection systems. Improving the quality of power distribution system operation,

Principal calculations for industrial lighting system designing.

Ni dung:Tng quan v h thng in. Ph ti in, S cung cp in, Tnh ton cc chtiu kinh t - k thut khi thit k v vn hnh h thng cung cp in. Tnh ton ngn mchtrong h thng cung cp in, La chn cc thit b in. Phn tch an ton in. o v vchng st trong cc h thng cung cp in. Nng cao cht lng in nng ca HTCC.Tnh ton chiu sng cng nghip.

Overview:Power system overview, electric demand, power delivery network topology,

techno-economic indices for power delivery system designing and operation, short-circuit

calculation, conductor sizing, electric device rating, electric safety, surge protection, relay

protection, power distribution operation quality, industrial lighting calculations

ET4340E Phn tch v thit k vi mch tng t

Analog CMOS IC

3(3-1-0-6)

Objective: This course introduces the principles of analog and mixed-signal IC design in

CMOS technologies. Design and analysis of fundamental building blocks and basic analog

circuits are covered to provide a foundation for more complicated and advanced designs,

some of which we will touch on. Both practical design and layout issues will be emphasized.

This will be a difficult and demanding course. One challenging project will be assigned to

be worked on in groups.

Overview:Analysis and design of analog CMOS integrated circuits. Voltage references,

noise analysis, amplifiers and comparators, sample-and-hold circuits, possibly switched-

capacitor circuits and converters.

ET5310E Thit k khuch i thut ton

Operational Amplifiers

3(3-1-0-6)

Objective:The students should have: The ability to analyze and design circuits using

operational amplifiers, either alone or in conjunction with diodes, BJTs, and FETs. The

ability to bring together prior knowledge acquired through various courses, using the op

amp as learning vehicle.


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Overview:This course covers primarily the analysis and, to a lesser extent, the design of a

wide range of basic electronic circuits involving the use of the general purpose operational

amplifier to meet given requirements and specifications. These circuits include various

types of linear amplifiers, math operators, converters, comparators, voltage regulators,

limiters, peak detectors, D-to-A converters, oscillators, filters, among other circuits,

treating the op amp as an ideal element. The last third of the course is devoted to the

coverage of key op amp practical limitations (gain, bandwidth, input and output resistance,

offset voltage, bias/offset currents, PSRR, CMRR, slew rate) and the way they affect the

performance of the basic inverting and noninverting amplifier configurations, in particular.

ET5010E Thit k vi mch s

Design of CMOS digial ICs

3(3-1-0-6)Objective:The students will be able to: Design test benches that can prove that a design

meet a specification; Derive basic analytical MOS circuit equations; Analyze circuits using

both analytical and CAD tools; Use a design flow to design a CMOS integrated circuit ;

Interpret a design specification

Overview: Analysis and design of MOS based combinational and sequential digital

integrated circuits. Industry standard CAD tools (Cadence) will be used extensively in

homework and a group final project.

ET4360E Thit k h thng nhng

Embedded system design

3(3-1-0-6)

Objective: The students will be able to: Understand embedded system and its basic

concepts; Able to design embedded systems

Overview: Topics covered include embedded system design challenge and metrics;

processor and IC technologies; software and hardware architectures for ESD; design flow

and tools; the design of standard peripherals, microcontrollers, single-purpose and

general-purpose processors; basic concepts of interfacing and communication protocols in

ESD

ET5320E Thit k kim tra in t

Electronic Test Design Engineering

3(3-0-1-6)

Objective: The students should be able to:1. Solder through-hole and surface mountscomponents on pre-made printed circuit board 2. Perform basic DC measurements on

components and integrated circuits 3. Apply techniques of calibration and correction to


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achieve a given measurement accuracy 4. Understand the advantages of DSP-based testing

5. Explain the issues involved in test economics and motivation for Design for Test (DfT) 6.

Test, measure, and analyze data from voltage regulators, op amps, DACs and ADCs. 7.

Design, solder, and measure an evaluation board for an current industry IC

Overview: Present the basics of test development engineering in a benchtop test

environment. The per-pin architecture of a manufacturing tester is modeled by a printed

circuit board designed especially for the class. Each section of that architecture is tested

separately and in total, including voltage regulators, operational amplifiers, digital-to-

analog converters, and analog-to-digital converters.

ET4310E Thng tin si quang

Fiber Optic Communications3(3-0-1-6)

Ni dung:Thit b quang: Laser, receiver, Diod PIN, APD, DF, khuch i quang EDFA,cp quang, cc c tnh vt l, cc loi suy hao. Mng quang: Khi nim v mng ngdi (long-haul), Metro, Access (EPON, APON). Cc phn t trong kin trc mng quang:OLT, ONU, ADM, OXC, DCS .v.v. PDH, SONET v SDH. Chuyn mch quang, MEMS.Cng ngh WDM, IPoWDM, SDL. H thng quang: cc c cu bo v phng s c MSPRing. Thit k mng v h thng TTQ.

Overview: This course covers primarily aspects of photonic engineering including laserssources, detectors, optical fibers; optimal modulation and transmission methods for optical

fibers; overall system designs via link equations. The main topics on optical networks and

advanced technologies in optical fiber communications are also explained.

ET3280E Anten - truyn sng

Antennas and Propagation for Wireless Systems

3(3-1-0-6)

Mc tiu:Hc phn ny nhm mc ch em n cho sinh vin nhng kin thc c bnnht v l thuyt anten, nguyn l bc x ca cc ngun bc x nguyn t, mt s m hnhanten in hnh, cc k thut c bn iu khin thuc tnh bc x ca anten, cc phngthc truyn sng in t trong khng gian, phn cc sng in t.

Objective: Students finishing this course should have a firm background of the basic

principles underlying antenna performance, antenna design and propagation behaviour in

practical scenarios. They should be able to apply this knowledge to simple problems in a

quantitative manner and to do more advanced representative problems for which they have

been given a template, and be able to comprehend and understand the advanced analyses of


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others which they may meet in the literature and in their jobs. In addition, students will be

able to apply modern tools for computations, simulations, analysis, and design.

Ni dung:Nhc li cc ngun bc x nguyn t: lng cc in (t), vng in (t) nguynt, nguyn t kt hp, cp lng cc vung gc. Cc ngun bc x thng, l thuyt anten

chn t. nh hng tng h trong h thng anten phc tp. Cc h thng bc x: h thngthng, phng. L thuyt bc x mt. L thuyt tng hp anten. Phng php iu khin th phng hng, m rng di tn, thu nh kch thc, to trng phn cc quay, caanten. Tip in cho anten chn t i xng v khng i xng. Anten nhiu chn t. Antenkhe, gng, thu knh, vi di. Phn loi sng. Truyn sng trong mi trng ng nht dnin hu hn, phn cc ca sng, sng trong mi trng bt ng hng. Khc x v nhiux sng in t. Truyn sng trong tm nhn thng, phn x t, phn x tng in ly.Truyn sng c ly ln.

Overview: Retarded potential, radiation from current element and dipole, radiation

patterns, impedance, reciprocity. Various types of antennas, interferometers and

multielement arrays, Antenna Measurements. Ground wave propagation, terrain and earth

curvature effects. Tropospheric propagation; fading, diffraction and scattering; Ionospheric

Propagation - refractive index, critical frequencies, effects of magnetic field. It is intended

that this course will give a reasonably complete description of the antenna types and

propagation modelling techniques currently in use in mobile and satellite communications.

It is also hoped to convey some of the insights as to which parts of the very large body of

published knowledge on these subjects are of fundamental importance; and to start the

process by which students themselves may ultimately develop their own faculties in these

areas.

ET4280E Thng tin s II

Digital Data Transmission

3(3-0-1-6)

Objective: Student learning objectives for the course: Ability to understand basic and

advanced modulation techniques for communication channels. Ability to analyze the effect

of phase errors in binary modulated communication systems. Ability to understand and

analyze optimum quadratic receivers. Ability to understand and analyze spread-spectrum

modulation techniques in AWGN channels. Ability to understand basic concepts of

estimation of parameters (synchronization) in Gaussian noise, including carrier

phase/frequency estimation and symbol timing estimation. Ability to understand basic model

of multi-path fading channels, their statistical characterization and main parameters.

Ability to analyze the effects of fading and the concept of diversity.


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Overview: digital modulation for wireless channels, synchronization for communication

receivers and digital data transmission over multi-path channels. This course begins with a

study of digital modulation techniques for realistic communication systems, where

bandwidth and power are limited and receiver implementation cost becomes a design

parameter. The second part deals with maximum likelihood estimation of unknown

parameters in Gaussian noise (also known as synchronization). In the third part of the

course, attention is focussed on diversity techniques for digital transmission over multi-path

fading channels.

ET4240E Truyn thng v tuyn

Mobile/Wireless communications

3(3-1-0-6)Mc tiu: Hc phn ny nhm trang b cho sinh vin kin thc c bn v thng tin vtuyn. Hc phn tp trungvo cc vn lp vt l (physical layer)v lp iu kin atruy nhp (MAC layer) trong thng tin v tuyn, l c s cho cc mn hc: thng tin ding, thng tin v tinh, k thut truyn hnh, nh v dn ng.

Objective:The goals of this part of the course are to provide students with the knowledge of

the fundamental issues impacting all wireless networks and wireless standard and

technological development as well as to give students an in-depth understanding of the state

of the art in wireless technology-today's and tomorrow's including: The wireless

technologies: voice, data, cordless, paging, fixed and mobile broadband wireless systems,

and beyond; The wireless system design fundamentals: channel assignment, handoffs,

trunking efficiency, interference, frequency reuse, capacity planning, large-scale fading,

and more; The path loss, small-scale fading, multipath, reflection, diffraction, scattering,

shadowing, spatial-temporal channel modeling, and microcell/indoor propagation; The

modulation, equalization; te RF font-end architecture and design

Ni dung:L thuyt v knh v tuyn: M hnh truyn dn phn tp a ng, hiu ngDoppler, m hnh knh ph thuc tn s v thi gian, m hnh suy hao ca knh (pathlossmodel), cc m hnh ton hc ca knh v tuyn, cc phng php phng to knh vtuyn.Dung lng knh v tuyn. Cc loi nhiu trong thng tin v tuyn v cc phng

php lc nhiu. Cc phng php cn bng knh. Qun l ti nguyn v tuyn. Cc phngphp iu ch trong thng tin v tuyn bao gm OFDM, CDMA, MC-CDMA.

Overview : This course focuses mainly on the basic concepts of wireless systems with an

emphasis on the physical layer. Cellular mobile radio systems, propagation models, multipath propagation effects, diversity and combining, noise and interference are discussed.


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Analog and digital modulation techniques and their performance measures, multiple access

techniques such as FDMA, TDMA, and CDMA are discussed. Channel equalization, Radio

resource management, RF front-end architectures will be also covered.

This course requires a basic knowledge of communication theory (modulation and channel

coding) and some signal processing/system theory (Fourier theory, filters and samplingtheorem) and probability theory.

ET4090E C s k thut siu cao tn

Microwave engineering

3(3-1-0-6)

Hc phn hc trc: ET3280E Anten - truyn sng

Mc tiu:Hc phn nynhm gip cho sinh vinnm vng l thuyt v k thut ngtruyn siu cao tn v iu chnh phi hp tr khng ng truyn vi ngun v ti, ghp,cng, chia cng sut trong h thng thng tin.

Objective :For the students to: learn the principles of transmission lines and waveguides.

learn microwave network analysis and its application to impedance matching and tuning.

learn the principles and design of microwave resonators, passive components, and filters.

understand the concepts of active microwave circuits and their application to the design

and analysis of microwave amplifiers.

Ni dung:ng truyn nng lng siu cao tn, cc phng php iu chnh v phi hptr khng, phn tch mng siu cao tn, cc b phn ng nh hng, cc linh kin siucao tn v mch siu cao tn.

Overview: Transmission lines, microwave network analysis. Impedance matching and

turning, Design of simple microwave components such as resistors, dividers, couplers,

filters. CAD and computer simulations and as well as hands-on experiments will be

included.

EE4435E H thng iu khin sDigital Control Systems

3(3-0-1-6)

Mc tiu: Trang b cho sinh vin cc kin thc c s v h thng iu khin s (KS), lcc h c nhng vi iu khin. Ni dung phn KS trn khng gian trng thi ch gii thiuc mc . iu khin s trn khng gian trng thi vn rt phong ph v do l ni dungnng cao dnh cho Cao hc sau ny.

Objective:The course provides general knowledge about digital control system embededsystems in the state space. The advanced research will be consider in the future.


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Ni dung: Khi qut v h thng iu khin s. Kho st tnh n nh ca h thng iukhin s. iu khin c phn hi u ra. iu khin c phn hi trng thi. Trin khaihthng iu khin sOverview: Overview of the digital control system; Considering the stability of the digital

control systems; Output feedback control system; State feedback control system; Performing

a digital control systems.

EE3550E iu khin qu trnh

Process control systems

3(3-0-1-6)

Hc phn hc trc: EE3280E

Mc tiu: Sinh vin c trang b kin thc c s v cc nguyn l iu khin qu trnh,cu trc v c tnh cc thnh phn h thng iu khin qu trnh, c kh nng p dngton, vt l v l thuyt iu khin xy dng m hnh qu trnh cng ngh, phn tch vthit k h thng iu khin qu trnh ng dng rng ri trong lnh vc ho cht, ch bin,khai thc v nng lng.

Objective:The course provides general knowledge about process control, the structure, and

the characteristics of the process control system. After the couse, the studens have ability to

implement maths, physics, and control theory in modeling, analysing an industrial process,

then design the process control systems. There are well-known applications of industrial

process e.g chemical industry, food processing, energy industry.

Ni dung: t bi ton iu khin qu trnh. M t cc thnh phn v chc nng h thngiu khin qu trnh. Xy dng m hnh qu trnh cng ngh: phng php l thuyt v

phng php thc nghim; c tnh ng hc ca cc qu trnh c bn. Thit k cu trc vla chn sch lc iu khin: phn hi, truyn thng (b nhiu), iu khin tng, iukhin t l,... Phn tch v nh gi cht lng h thng iu khin qu trnh; Thit k v

chnh nh b iu khin PID; V d p dng iu khin mc, lu lng, p sut, nng/thnh phn trong cc qu trnh tiu biu: H thng dng chy-bnh cha, thit b trao inhit, thit b phn ng, thp chng, ni hi... Ngoi cc bi tp v nh thng xuyn (cgi tho lun), sinh vin s thc hin mt bi tp ln theo nhm.Overview:Describing the components and functions of process control systems. Modeling a

technical process: theoretical methods and experimental methods. Selecting control

strategies: feedback, feedforward, cascade control, ratio control, limit control, override

control, multivariable control... Analyzing and evaluating the quality of process control

systems. Design and tuning of PID controllers. Some typical processes: level control forliquid strorage tanks, heat-exchenge process, distillation column


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EE4230E L thuyt iu khin t ng II

Theory of Control System 2

3(3-1-0-6)

Mc tiu: Mn hc c nhim v trang b cho sinh vin nhng kin thc c bn nht giiquyt mt bi ton iu khin tuyn tnh lin tc, khng lin tc v phi tuyn.Objective: The course provides general knowledge to solve the linear control problems for

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