160

Year 4 Semester 7 UI Year 4 Semester 8 UI

CODE Subject Credit CODE Subject Credit

ENEE610029 Seminar 2 ENEE610030 Final Project 4

ENCE611023 Engineering Entrepre- neurship

2 ENEE610305 Fundamental of Nano Electronics

3 ENEE610303 Photonic Devices and

Optional Laboratory 3 ENEE610105 Optical Communications 3 ENEE610102 Communication Net-

works 3 ENEE610405 Modelling and System

Identification 3

ENEE610402 Process Control Sys- tems

3 ENEE610206 Electric Power Trans-

mission and Distribu- tion

3

Subtotal 16 Subtotal 13

PROGRAM SARJANA

Year 3 Semester 5 (QUT) July Year 3 Semester 6 (QUT) Feb

Code Course Title Credit Code Course Title Credit

ENB340 ENB342 MAB233

Power Systems and Machines Signals, Systems and Trans- forms

Engineering Mathematics 3 Electives / Minor

1212

12 12

ENB244 ENB245 ENB343

Microprocessors and Digital Systems

Introduction To Design and Professional Practice Fields, Transmission and Propagation

Electives / Minor

12 12 12 12

Subtotal 48 Subtotal 48

Year 4 Semester 7 (QUT) July Year 4 Semester 8 (QUT)

Code Course Title Credit Code Course Title Credit

ENB241 ENB301 ENB346

Software Systems Design Instrumentation and Control Digital Communications

1212 12

BEB801 ENB344 ENB345

Project 1

Industrial Electronics Advanced Design and Professional Practice Electives / Minor

1212 12 12

Subtotal 36 Subtotal 48

For July Intake Course Structure of Electrical Engineering at QUT

Course Structure of Electrical Engineering at University of Queensland

Year 3 Semester 5 (UQ) July Year 3 Semester 6 (UQ) March

Code Course Title Credit Code Course Title Credit

MATH2010 STAT2201

Analysis of Ordinary Differential Equation Analysis of Engineering and Scientific Data

Part B1 Introductory Elective Part B1 Introductory Elective General Elective

1 1 22 2

ENGG2800

ELEC3002 Team Project 1

Computational Techniques in Electrical Engineering Part B1 Introductory Elective

General Elective

22

2 2

Subtotal 8 Subtotal 8

Year 4 Semester 7 (UQ) July Year 4 Semester 8 (UQ)

Code Course Title Credit Code Course Title Credit

For July Intake

162

PROGRAM SARJANA

List of Electives at UQ (is called Part B Electives) B1 - Introductory Electives

Code Course Title Credit

COMS3100 CSSE3000 ELEC3100 ELEC3300 ELEC3400 ELEC3600 METR3200

Introduction to Communications Digital System Design

Fundamentals of Electromagnetic Fields & Waves Electrical Energy Conversion & Utilisation Electronic Circuits

Signal & Image Processing I Introduction to Control Systems

2 2 2 2 2 2 2 B2 - Advanced Electives

Code Course Title Credit

COMS4100 COMS4103 COMS4104 CSSE4001 ELEC4300 ELEC4400 ELEC4600 METR4202

Digital Communications Photonics

Microwave Subsystems & Antennas Computer System Design Project Power Systems Analysis

Advanced Electronic & Power Electronics Design Signal & Image Processing II

Advanced Control & Robotics

2 2 2 2 2 2 2 2

B3 - Coverage Electives

Code Course Title Credit

COMP2303 COMP2304 COMP4702 COMS3200 CSSE2002 ELEC3401 ELEC3601 ELEC4302 ELEC4320 ELEC4601 ENGG4000 ENGG4800

Network & Operating Systems Principles Programming for Engineering Systems Machine Learning

Computer Networks I Programming in the Large

Medical & Industrial Instrumentation Introduction to Image Formation Power System Protection

Modern Asset Management and Condition Monitoring in Power System Medical Imaging

Introduction to Systems Engineering Project Management

2 22 2 22 22 22 22 B4 - Other Electives

Code Course Title Credit

MATH1050 Mathematical Foundations 2

PROGRAM SARJANA

Year 3 Semester 5 (Curtin) July Year 3 Semester 6 (Curtin) Feb

Code Course Title Credit Code Course Title Credit

308784 11500 12835 307667 307664

Power Systems Protection Electrical Machines Power Electronics

Engineering Project Manage- ment

Engineering Law

25 25 12.525

12.5

12831 300786 308798 12855

Power Systems Analysis Renewable Energy Principles Control Systems Embedded Systems Engineering

25 25 25 25

Subtotal 100 Subtotal 100

Year 4 Semester 7 (Curtin) July Year 4 Semester 8 (Curtin)

Code Course Title Credit Code Course Title Credit

12844 308787 301302

Engineering Project Instrumentation and Control Electric Power Transmission

& Distribution Elective from List II

2525 25 25

12838 308785 307675 307660

Engineering Project Power Electronic and Drives Engineering Economics Engineering Sustainable Development

Elective from List I

2525 12.5 12.5 25

Subtotal 100 Subtotal 100

Curtin provides 3 streams to choose: (i) Electrical Power Engineering, (ii) Electronics and Communication Engineering, (iii) Computer Engineering. There will be slight change in the structure of curriculum of the first 2 years at UI for students who are interested to continue to Curtin.

308711 Electrical Power Engineering Stream

Elective List II (Curtin, Electrical Power Engineering) Elective List I (Curtin, Electrical Power Engineering) Year 4 Semester 7 (Curtin) July Year 4 Semester 8 (Curtin) Feb

Code Course Title Credit Code Course Title Credit

12861

12834 Renewable Energy Systems Digital Signal Processing 25

25 302915

12856 Electric Utility Engineering

Microprocessors 25

25 Course Structure of Electrical Engineering at Curtin University

Year 3 Semester 5 (Curtin) July Year 3 Semester 6 (Curtin) Feb

Code Course Title Credit Code Course Title Credit

12845 9415 12834 307667 307664

Communications Engineering Electronic Design Digital Signal Processing Engineering Project Manage- ment

Engineering Law

25 25 25 12.5 12.5

10165 9414 308798

12855

Communications Engineering Electronic Design Control Systems Embedded Systems Engineering

25 25 25 25

Subtotal 100 Subtotal 100

Year 4 Semester 7 (Curtin) July Year 4 Semester 8 (Curtin)

Code Course Title Credit Code Course Title Credit

12844 12847 12849

Engineering Project Data Communication and Computer Networks Mobile Radio Communica- tions

Elective from List II

25 25 25 25

12838 308795 307660 307675

Engineering Project Communication Signal Processing

Engineering Sustainable Development Engineering Economics Elective from List I

25 25 12.5 12.5 25

Subtotal 100 Subtotal 75

308710 Electronic and Communications Engineering Stream

164

PROGRAM SARJANA

Elective List II

(Curtin, Electronic and Communications Eng.) Elective List I

(Curtin, Electronic and Communications Eng.) Year 4 Semester 7 (Curtin) July Year 4 Semester 8 (Curtin) Feb

Code Course Title Credit Code Course Title Credit

308797 308787 308791

Information Theory and Er- ror Control Coding Instrumentation and Control Computer Systems Engineer- ing

25 25 25

308785 308796 12856

Power Electronics and Drives

Electromagnetic Propagation Microprocessors

25 25 25

Year 3 Semester 5 (Curtin) July Year 3 Semester 6 (Curtin) Feb

Code Course Title Credit Code Course Title Credit

308791 12847 308794

12834

Computer Systems Engineer- ing

Data Communication and Computer Networks Embedded Software Engi- neering

Digital Signal Processing

25 25 25 25

308790 308792 308798 12855

Foundations of Computer Engineering

Real Time Operating Systems

Control Systems Embedded Systems Engineering

25 25 25 25

Subtotal 100 Subtotal 100

Year 4 Semester 7 (Curtin) July Year 4 Semester 8 (Curtin)

Code Course Title Credit Code Course Title Credit

12844 307667

12859 307664

Engineering Project Engineering Project Manage- ment 301

Computer Structures Engineering Law Elective

12.5 25 25 12.5

25

12838 308793

12856 307660 307675

Engineering Project Theory of Computation Microprocessors Engineering Sustainable Development

Engineering Economics

25 25 25 12.5 12.5

Subtotal 100 Subtotal 100

308709 Computer Systems Engineering Stream

Elective List II

(Curtin, Computer Systems Engineering ) Year 4 Semester 7 (Curtin) July

Code Course Title Credit

302497

12845 Advanced Computer Engineering

Instrumentation and Control 25

25

PROGRAM SARJANA

Year 3 Semester 5

(Uni Sydney) July Credit Year 3 Semester 6

(Uni Sydney) Feb Credit

Code Course Title Code Course Title

Select from Adv Recommended Electives 24 Select from Adv Recommended Electives 24

Subtotal 24 Subtotal 24

Year 4 Semester 7 (Uni Sydney) July Credit Year 3 Semester 8 (Uni Sydney) Feb Credit

Code Course Title Code Course Title

ELEC4702 Practical Experience 0 ELEC4711 Engineering Project B 6

ELEC4710 Engineering Project A 6 Select from Adv Recommended Electives 18

Select from Adv Recommended Electives 18 Subtotal 24

Subtotal 24

Electrical Engineering

Course Structure of Electrical Engineering at Uni Sydney

Year 3 Semester 5

(Uni Sydney) July Credit Year 3 Semester 6 (Uni Sydney) Feb Credit

Code Course Title Code Course Title

ELEC3206 Electrical Energy Conversion Systems 6 ELEC3203 Electricity Networks 6

ELEC3304 Control 6 ELEC3204 Power Electronics and Applications 6

Select from Adv Recommended Electives 12 Select from Adv Recommended

Electives 12

Subtotal 24 Subtotal 24

Year 4 Semester 7 (Uni Sydney) July Credit Year 3 Semester 8 (Uni Sydney) Feb Credit

Code Course Title Code Course Title

ELEC4702 Practical Experience 0 ELEC4711 Engineering Project B 6

ELEC4710 Engineering Project A 6 ELEC5204 Power Systems Analysis and Protec-

tion 6

ELEC5205 High Voltage Engineering 6 Select from Adv Recommended

Electives 12

Select from Adv Recommended Electives 12 Subtotal 24

Subtotal 24

Electrical Engineering (Power)

Year 3 Semester 5 (Uni Sydney) July Credit Year 3 Semester 6 (Uni Sydney) Feb Credit

Code Course Title Code Course Title

ELEC3405 Communications Electronics and

Photonics 6 ELEC3305 Digital Signal Processing 6

ELEC3506 Data Communications and the

Internet 6 ELEC3505 Communications 6

Select from Adv Recommended

Electives 12 Select from Adv Recommended Electives 12

Subtotal 24 Subtotal 24

Year 4 Semester 7 (Uni Sydney) July Credit Year 3 Semester 8 (Uni Sydney) Feb Credit

Code Course Title Code Course Title

ELEC4702 Practical Experience 0 ELEC4711 Engineering Project B 6

ELEC4710 Engineering Project A 6 ELEC4505 Digital Communication Systems 6

Select from Adv Recommended

Electives 18 Select from Adv Recommended Electives 12

Subtotal 24 Subtotal 24

Electrical Engineering (Telecom)

Year 3 Semester 5 (Uni Sydney) July Credit Year 3 Semester 6 (Uni Sydney) Feb Credit

Code Course Title Code Course Title

ELEC3506 Data Communications and the

Internet 6 ELEC3607 Embedded Systems 6

ELEC3608 Computer Architecture 6 Select from Adv Recommended Electives 18

Select from Adv Recommended

Electives 12 Subtotal 24

Subtotal 24

Year 4 Semester 7 (Uni Sydney) July Credit Year 3 Semester 8 (Uni Sydney) Feb Credit

Code Course Title Code Course Title

ELEC4702 Practical Experience 0 ELEC4711 Engineering Project B 6

ELEC4710 Engineering Project A 6 Select from Adv Recommended Electives 18

Electrical Engineering (Computer)

166

PROGRAM SARJANA

List of Advanced Recommend Electives - July List of Advanced Recommend Electives - Feb

Code Course Title Credit

ELEC3405 Communications Electronics and

Photonics 6

ELEC3506 Data Communications and the

Internet 6

ELEC3608 Computer Architecture 6

ELEC3609 Internet Software Platforms 6 ELEC3702 Management for Engineers 6

ELEC3803 Bioelectronics 6

ELEC5101 Antennas and Propagation 6 ELEC5203 Topics in Power Engineering 6 ELEC5205 High Voltage Engineering 6 ELEC5206 Sustainable Energy Systems 6 ELEC5207 Advanced Power Conversion

Technologies 6

ELEC5508 Wireless Engineering 6

ELEC5510 Satellite Communications Systems 6

ELEC5512 Optical Networks 6

ELEC5514 Networked Embedded Systems 6 ELEC5617 Topics in Software Engineering 6 ELEC5619 Object Oriented Application

Frameworks 6

ELEC5620 Model Based Software Engineering 6 ELEC5621 Digital Systems Design 6 ELEC5701 Technology Venture Creation 6

Code Course Title Credit

ELEC3104 Engineering Electromagnetics 6 ELEC3204 Power Electronics and Applications 6 ELEC3305 Digital Signal Processing 6 ELEC3404 Electronic Circuit Design 6

ELEC3505 Communications 6

ELEC3607 Embedded Systems 6

ELEC3610 E-Business Analysis and Design 6 ELEC3802 Fundamentals of Biomedical Engi-

neering 6

ELEC4505 Digital Communication Systems 6

ELEC4706 Project Management 6

ELEC5204 Power Systems Analysis and Protec-

tion 6

ELEC5208 Intelligent Electricity Networks 6 ELEC5303 Computer Control System Design 6 ELEC5402 Digital Integrated Circuit Design 6 ELEC5403 Radio Frequency Engineering 6

ELEC5507 Error Control Coding 6

ELEC5509 Mobile Networks 6

ELEC5511 Optical Communication Systems 6

ELEC5614 Real Time Computing 6

ELEC5615 Advanced Computer Architecture 6 ELEC5616 Computer and Network Security 6 ELEC5618 Software Quality Engineering 6

Deskripsi Mata Kuliah ENEE600001

PENGANTAR SISTEM DIJITAL 2 SKS

Tujuan Pembelajaran: Kuliah ini bertujuan agar mahasiswa mampu mengerti berbagai tingkatan perancangan dan implementasi sistem dijital baik menggunakan gerbang logika sederhana hingga menggunakan Programmable Logic Devices.

Kuliah ini meliputi beberapa praktikum dalam perancangan, implementasi, dan verifikasi rangkaian logika dijital. Alat semacam Xilinx dan simulasi rangkaian dijital lain akan digunakan.

Silabus: Pengantar gerbang logika AND, OR dan NOT; Multiple combinational switches, Combina- tional Logics dengan Multiplekser dan Dekoder:

Full Adder, binary memory unit: SR latch, D dan JK flip-flops: Ripple Counter, Register dan Counter:

Universal Shift register, Ring counter dan BCD counter, VHDL, design, simulation dan imple- mentasi IC dijital menggunakan programmable logic devices.

Prasyarat: Tidak ada.

Buku Ajar:

M. Morris Mano, “Digital Design,” 4

1. ^th Edi-

tion (International Edition), Prentice-Hall, 2007.

Robert Dueck, ”Digital Design with CPLD 2.

Applications and VHDL,” Delmar Cengage Learning; Second Edition, 2004, ISBN-10:

1401840302, ISBN-13: 978-1401840303.

M.M. Mano and

3. C.R. Kime,” Logic and Computer Design Fundamentals,” Third Edi- tion (International Edition), Prentice-Hall, 2004.

ENEE600002

PRAKTIKUM PENGANTAR SISTEM DIJITAL 1 SKS

Tujuan Pembelajaran: Setelah mengikuti mata ajar ini, mahasiswa diharapkan mampu merancang finite state machine dan mengimplementasikan rancangan rangkaian dijital sederhana.

Silabus: Boolean algebra and logic gates. Decoder, Encoder, Multiplexer, and Demultiplexer. Digital Arithmetic (Half Adder, Full Adder, and Compara- tor. Flip-Flop and Counter. Register and Serial/

Parallel Operations.

Prasyarat: Tidak ada.

Buku Ajar:

Modul Praktikum Pengantar Sistem Dijital – 1.

Laboratorium Dijital

ENEE600003

DASAR TEKNIK ELEKTRO 3 SKS

Tujuan Pembelajaran: Kuliah ini bertujuan untuk memperkenalkan kepada mahasiswa mengenai dasar teknik elektro. Setelah mengikuti mata ajar ini, mahasiswa diharapkan dapat merancang dan menganalisa rangkaian AC dan DC yang menjadi komponen dasar dalam teknik elektro.

Silabus: Rangkaian resistive, dependent sources dan op. amps, metode analisa, elemen penyimpan energi, rangkaian orde satu, rangkaian orde dua, sumber fasor dan sinusoidal, analisis AC steady- state, daya AC steady–state.

Prasyarat: Kalkulus.

Buku Ajar:

David E. Johnson, Johnny R. Johnson, John 1.

L. Hilburry, Peter D. Scott, “Electric Circuit Analysis,” Third Edition, Prentice Hall Inter- national, Inc., 1997 (Chapter 1-9).

James W. Nilsson, Susan A. Riedel, “Electric 2.

Circuits,” 6th Edition, Prentice Hall Interna- tional Inc., 2000 (Chapter 1-10).

ENEE600004 RANGKAIAN LISTRIK 3 SKS

Tujuan Pembelajaran: Setelah mengikuti mata ajar, mahasiswa diharapkan mampu menggunakan rangkaian bintang dan segitiga, menghitung arus phasa, hantaran, daya sistem tiga phasa, frekuensi kompleks pada suatu rangkaian listrik, dan meng- gunakan Teorema Laplace dan Teorema Fourier beserta inverse-nya pada rangkaian listrik.

Silabus: Rangkaian sistem tiga fasa seimbang, frekuensi kompleks, rangkaian gandeng magnetik;

Transformasi Lapcace, rangkaian dengan trans- formasi Laplace, pengantar pemilihan frekuensi, rangkaian filter aktif, rangkaian empat kutub;

Review Deret Fourier, rangkaian dengan transfor- masi fourier, rangkaian resistif, sumber dependen dan op amp, metode analisis, elemen penyimpan energi, rangkaian orde pertama, rangkaian orde kedua, sumber sinusoidal dan fasor, analisis keadaan tunak AC, daya keadaan tunak AC.

Prasyarat: Dasar Teknik Elektro.

Buku Ajar:

James W. Nilsson, Susan A. Riedel, “Electric 1.

Circuits,” 6^th Edition, Prentice Hall Interna- tional Inc., 2000 (Chapter 11-18).

David E. Johnson, Johnny R. Johnson, John 2.

L. Hilburry, Peter D. Scott, “Electric Circuit Analysis,” Third Edition, Prentice Hall Inter-

PROGRAM SARJANA

168

ENEE600005

PRAKTIKUM RANGKAIAN LISTRIK 3 SKS

Tujuan Pembelajaran: Setelah mengikuti mata ajar, mahasiswa diharapkan mampu memperke- nalkan rangkaian dasar dan konsep logika dari teknik listrik dan elektronika.

Silabus: Analisis dan perancangan rangkaian den- gan tegangan DC dan sumber arus menggunakan:

teknik reduksi jaringan superposisi, rangkaian ekvalen Thevenin dan Norton. Persamaan lop dan node digunakan pada persamaan sumber sinusoidal.

Prasyarat: Dasar Teknik Elektro.

Buku Ajar: Modul Praktikum Rangkaian Listrik – Laboratorium Tegangan Tinggi dan Pengukuran Listrik.

ENEE600006

MATEMATIKA TEKNIK 1 3 SKS

Tujuan Pembelajaran: Setelah mengikuti mata ajar, mahasiswa diharapkan mampu menggunakan fungsi kompleks pada rangkaian listrik, mampu menerapkan metoda Cauchy Riemann pada persa- maan Laplace dan Poisson, mampu menggunakan metoda Integral Chaucy pada Integral dengan koordinat Kartesian dan Polar.

Silabus: Bilangan dan fungsi komplek dan bentuk polar, Teorema deMoiv’re, perkalian titik dan sil- ang, limit fungsi kompleks, Derivative, del, gradi- ent, divergence, curl fungsi komplek, fungsi anali- tik dan harmonik, Persamaan Cauchy-Riemann, Laplace dan Poisson, Integral komplek, Integral Cauchy dan integral residu, Integral riel dengan menggunakan fungsi komplek, Vektor dalam 2 dan 3 dimensi, operasi vektor, dot dan cross.

Prasyarat: Kalkulus.

Buku Ajar:

Erwin Kreyszig, “Advanced Engineering 1.

Mathematics,” 9th Edition, Wiley Publisher 2006.

Glyn James, “Advanced Modern Engineering 2.

Mathematics,” Second Edition, Prentice Hall Publisher 1999.

ENEE600007 DIVAIS ELEKTRONIKA 3 SKS

Tujuan Pembelajaran: Setelah menghadiri kuliah ini, mahasiswa diharapkan dapat mengerti prinsip divais elektronika.

Silabus: Pemodelan divais mikroelektronika, analisis divais mikroelektronika dasar, elektronika fisika dari junction semikonduktor dan divais MOS, hubungan perilaku elektrik dengan proses fisika

internal, dan mengerti penggunaan dan limitasi berbagai model. Kuliah ini menggunakan teknik incremental dan large-signal guna menganalisis dan merancang bipolar dan field effect transis- tor. Fisika semikonduktor, divais semikonduktor, model berbasis fisik.

Prasyarat: Tidak ada.

Buku Ajar:

R.T. Howe and C.G. Sodini,

1. “Microelectron-

ics: An Integrated Approach,” Upper Saddle River, NJ: Prentice Hall, 1996.

C.G

2. . Fonstad, “Microelectronic Devices and Circuits,” New York, NY: McGraw-Hill, 1994.

ENEE600008 DASAR KOMPUTER 3 SKS

Tujuan Pembelajaran: Setelah mahasiswa mengi- kuti kegiatan mata ajar ini, maka diharapkan mahasiswa mampu menjelaskan komputer baik pemanfaatan, bahaya dalam penggunaan kom- puter, perangkat keras serta perangkat lunaknya serta manfaat dan penggunaan Jaringan komputer termasuk Internet, serta mampu merancang al- goritma sederhana dalam diagram alir dan dapat mengimplementasikan algoritma tersebut dalam program dengan menggunakan bahasa pemrogra- man tertentu.

Silabus: Pengenalan Komputer, Pengenalan Pe- rangkat Keras Komputer, Pengenalan Perangkat Lunak Komputer, Pengenalan Dasar Jaringan Komputer, Algoritma, Diagram Alir, Pengenalan bahasa C, Pengendalian program dalam bahasa C, Program terstruktur dalam bahasa C.

Prasyarat: Pengantar Sistem Dijital.

Buku Ajar:

Alan Evans, Kendall Martin, Mary Anne Poatsy, 1.

“Technology in Action (TiA),” Second Edition, Prentice-Hall, 2006.

Gary B. Shelly and Misty E. Vermaat, “Dis- 2.

covering Computers 2011: Living in a Digital World,” Course Technology, Cengage Learn- ing, 2011.

Deitel & Deitel, “C How to Program,” 5

3. ^th

Edition, Pearson Education, 2007.

ENEE600009

PRAKTIKUM DASAR KOMPUTER 1 SKS

Tujuan Pembelajaran: Setelah mengikuti mata ajar, mahasiswa diharapkan mampu mampu mengidentifikasi berbagai operasi dalam perang- kat komputer, mampu merancang sebuah program sederhana dengan menggunakan bahasa pemro- graman tingkat tinggi, serta mampu mengiden- tifikasi troubleshooting dalam sistem jaringan

PROGRAM SARJANA

komputer

Silabus: Pengenalan perangkat keras dan perang- kat lunak operasi komputer, pemrograman dasar, pengenalan troubleshooting jaringan komputer Prasyarat: Pengantar Sistem Dijital.

Buku Ajar:

Modul Praktikum Dasar Komputer – Laboratorium Dijital.

ENEE600010

PROBABILITAS DAN PROSES STOKASTIK 3 SKS

Tujuan Pembelajaran: Mampu menjabarkan konsep probabilitas dan proses acak (stokastik);

mampu menggunakan konsep probabilitas dan proses stokastik untuk menyelesaikan masalah- masalah keteknikan pada umumnya dan teknik elektro pada khususnya.

Silabus: Konsep probabilitas, random variabel dan distribusi probabilitas, arapan matematis, fungsi distribusi probabilitas, transformasi probabilitas, konsep random proses, random walk, spektral, estimasi mean square, entrophy, proses markov, teorema central Limit.

Prasyarat: Tidak ada.

Buku Ajar:

R. D. Yates and D. J. Goodman, “Probability 1.

and Stochastic Processes: A Friendly Introduc- tion for Electrical and Computer Engineers,”

Second Edition, Wiley, 2004.

J. A. Gubner, “Probability and Random 2.

Processes for Electrical and Computer Engi- neers,” Cambridge, 2006.

ENEE600011

MATEMATIKA TEKNIK 2 3 SKS

Tujuan Pembelajaran: Setelah mengikuti mata ajar, mahasiswa diharapkan mampu menerapkan teorema Green, divergen Gauss dan Stoke pada integral garis dan permukaan, menentukan kekon- vergenan suatu deret, mengubah suatu fungsi menjadi deret Taylor MacLaurint, dan Fourier serta menggunakan untuk linierisasi fungsi, meng- gunakan Transformasi Laplace, Fourier, dan Z.

Silabus: Penggunaan vektor dan operasinya, De- rivative, del, gradient, divergence dan curl dari vektor, Integral garis dan integral permukaan, to- erema Green, divergence Gauss, dan Stoke, Peng- gunaan dalam medan elektromagnit, Pengertian urutan, deret, dan jenis deret, Pengujian deret, ratio,integral,perbandingan, akar,Raabe dan Gauss, Deret Taylor, Maclaurin, Fourier dan deret

Buku Ajar:

Erwin Kreyszig, “Advanced Engineering Math- 1.

ematics” 9th Edition, Wiley Publisher 2006.

Glyn James, “Advanced Modern Engineering 2.

Mathematics,” Second Edition, Prentice Hall Publisher 1999.

ENEE600012

RANGKAIAN ELEKTRONIKA 3 SKS

Tujuan Pembelajaran: Mampu menjelaskan, mengkarakterisasi divais diode, FET, JFET, MOSFET, VMOS, CMOS dan MESFET, mampu men- ganalisa rancangan aplikasi BJT: sinyal kecil dan sinyal besar dalam suatu rangkaian elektronika dan mampu menganalisa rancangan aplikasi FET dalam suatu divais elektronika.

Silabus: Prinsip dasar dan rangkaian diode, trans- istor, FET, JFET, MOSFET, VMOS, CMOS, MESFET;

Rangkaian BJT common source, common base, common emitter, common collector, aplikasi BJT, model sinyal kecil dan sinyal besar BJT; Pengu- atan arus dan tegangan; Tipe MOSFET depletion, tipe MOSFET enhancement, aplikasi FET.

Prasyarat: Divais Elektronika, Rangkaian Listrik.

Buku Ajar: Boylestad R, Nashhelsky L, “Electronic Devices and Circuit Theory 9^th Edition,” Prentice Hall, New Jersey, USA, 2006.

ENEE600013

PRAKTIKUM RANGKAIAN ELEKTRONIKA 1 SKS

Tujuan Pembelajaran: Mampu merancang rang- kaian penguat satu tingkat, multi tingkat, multi vibrator, oscillator, serta rangkaian op amp.

Silabus: Eksperimen penentuan karakteristik di- vais, rangkaian diode, penguat satu tingkat, com- pound transistor stages, rangkaian muiltivibrator, rangkaian oscillator, rangkaian op amp.

Prasyarat: Divais Elektronika, Rangkaian Listrik.

Buku Ajar: Modul Praktikum Rangkaian Elektro- nika – Laboratorium Elektronika.

ENEE600014 ELEKTROMAGNETIKA 3 SKS

Tujuan Pembelajaran: Setelah mengikuti mata ajar, mahasiswa diharapkan mampu menerapkan hukum Maxwell 1, 2, 3, dan 4.

Silabus: Listrik statis, medan magnit, persa- maan Maxwell, gelombang elektromagnetik, perambatan gelombang, sifat gelombang pada media berbeda, transmisi gelombang, matching

PROGRAM SARJANA

170

Stuart M. Wentworth, ”Fundamentals of Elec- 1.

tromagnetics with Engineering Applications,”

John Wiley, 2005.

Fawwaz T Ulaby, “Fundamental of Applied 2.

Electromagnetics,” Prentice Hall Publica- tions, 2001.

ENEE600015 SINYAL DAN SISTEM 3 SKS

Tujuan Pembelajaran: Kuliah ini bertujuan untuk memperkenalkan kepada mahasiswa mengenai teknik menganalisa sinyal analog dan digital. Setelah mengikuti mata ajar ini, maha- siswa diharapkan mampu mengolah sinyal dan mentransformasi-nya dalam Fourier, Laplace, dan fungsi Hilbert, merancang filter sederhana, mensampling sinyal kedalam fungsi diskrit (trans- formasi Z), merancang disain filter IRR dan FIR dari sistem kontinyu.

Silabus: Transformasi Fourier dan propertinya, Transformasi Fourier waktu diskrit dan properti- nya, Sistem waktu kontinyu, Transform Laplace dan propertinya, Fungsi sistem, windows, disain filter, Transformation Hilbert, Sinyal waktu diskrit, sampling, rekonstruksi teorema sistem waktu diskrit, Transformasi-z dan propertinya, Fungsi sistem, simulasi waktu diskrit dari sistem kontinyu, windows, disain filter IRR dan FIR.

Prasyarat: Matematika Teknik 1.

Buku Ajar:

Simon Haykin & Barry Van Veen, “Signals and 1.

System,” Second Edition John Wiley & Sons Publisher, 2003.

Alan V. Oppenheim, Ronald W. Schafer, and 2.

John R. Buck, “Discrete-Time Signal Process- ing,” Second Edition, Prentice Hall, 1998.

ENEE600016

MATERIAL TEKNIK LISTRIK 2 SKS

Tujuan Pembelajaran: Kuliah ini bertujuan agar mahasiswa mampu mengidentifikasi sifat-sifat dasar suatu material listrik dan menjabarkan konsep ikatan atom, serta mengidentifikasi ikatan atom dalam material solid, polarisasi dielektrik, rugi-rugi dielektrik, klasifikasi material listrik, material isolasi, kerusakan-kerusakan isolasi.

Silabus: Pengantar sifat material, conspectus of bonding, ataom dalam padatan, poasisai dielek- trik, rugi-rugi dielektrik, klasisfikasi material listrik: solid, keramik, dan polimer, material isoasi: gas dan cairan, kerusakan isolasi.

Prasyarat: Fisika Dasar 2.

Buku Ajar:

Rudy Setiabudy, “Material Teknik Listrik”, UI

Press, 2007 ENEE600017

TEKNIK TENAGA LISTRIK 3 SKS

Tujuan Pembelajaran: Kuliah ini bertujuan agar mahasiswa mampu mengidentifikasi konsep dasar sistem tenaga listrik, menggunakan komponen sistem tenaga pada analisis sistem tenaga listrik, serta mampu menerapkan konsep kontrol daya dan frekuensi, konsep kontrol tegangan dan daya reaktif, metode aliran daya, dan metode kesta- bilan pada sistem tenaga listrik.

Silabus: Fenomena masalah energi dan tenaga listrik, topik khusus dan terbaru masalah energi dan ketenagalistrikan, masalah elektronika daya, pengolahan data yang digunakan pada rancangan, sistem kontrol dalam energi dan ketenagalistri- kan.

Prasyarat: Rangkaian Listrik.

Buku Ajar:

S. J. Chapman, “Electric Machinery and Power System Fundamentals,” McGraw-Hill Science/

Engineering/Math, 2001.

ENEE600018

PRAKTIKUM TEKNIK TENAGA LISTRIK 1 SKS

Tujuan Pembelajaran: Praktiku ini bertujuan memberi pengantar konsep dasar tenaga listrik kepada mahasiswa teknik elektro: motor dan gen- eratormeliputi transformator DC maupun AC.

Silabus: Watt meter, volt meter, amp meter and transformer. Motor & generators DC. Pembacan daya rangkaian 3 fasa dengan beban seimbang maupun tak seimbang. Pengujian rangkaian satu dan tiga fasa untuk Y & Δ. Transformaer daya, pemecahan dengan pengujian rangkaian terbuka dan tertutup. Autotransformer.

Prasyarat: Rangkaian Listrik.

Buku Ajar:

Modul Praktikum Teknik Tenaga Listrik- Laborato- rium Konversi Energi Tenaga Listrik.

ENEE600019 SISTEM KENDALI 3 SKS

Tujuan Pembelajaran: Kuliah ini bertujuan agar mahasiswa mampu memberikan sketsa respon statis dan dinamis dari sistem orde 1, 2 dan orde tinggi, menentukan pole dan zero sistem, dan pole dominan sistem orde tinggi, menjelaskan Routh- Hurwitz, diagram Nyquist, TKA, dan membuat diagram Bode.

Silabus: Karakteristik sistem kontinu orde 1, 2, dan pendekatan untuk orde yang lebih tinggi,

PROGRAM SARJANA