beng (eee) third year electives and internships · beng (eee) third year electives and internships....
TRANSCRIPT
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Tan Yap PengAssociate Chair (Academic), EEE
20 Feb 2018
BEng (EEE) Third Year Electives and Internships
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MAJOR COMPONENTS
2 or 3 Year-3 Core Courses + 2 Prescribed Elective Courses
4 Core Experiments (2 for each Core) + 2 Elective Experiments associated with the 2 Prescribed Elective courses
Design & Innovation Project
Professional Internship (PI) – 20 Weeks
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THIRD YEAR COURSESYear 1 Intake Poly Direct-Entry Intake
Semester 1 / 2
EE3001 Engineering ElectromagneticsEE3002 MicroprocessorsEE3080 Design & Innovation Project EE3xxx Prescribed Elective 1 EE3xxx Prescribed Elective 2 ET0001 Enterprise and Innovation (Sem 1)ML0002 Career Power-UpXXxxxx Unrestricted Elective
EE3001 Engineering ElectromagneticsEE3080 Design & Innovation Project EE2003 Semiconductor Fundamentals EE2007 Engineering Mathematics IIEE3xxx Prescribed Elective 1 EE3xxx Prescribed Elective 2 EE0002 Engineers and Society *
Semester 1 / 2
EE3179 Professional Internship+
ML0002 Career Power-Up
* Mandatory for Poly Direct Year 3 Students
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PRESCRIBED ELECTIVE COURSESChoose two (2)
* EE3018 is only offered in Semester 1.
PRESCRIBED ELECTIVE COURSES PRE-REQUISITE LAB. CODE
EE3010 ELECTRICAL DEVICES AND MACHINES EE2001 E3010L
EE3011 MODELLING & CONTROL EE2006 E3011L
EE3012 COMMUNICATION PRINCIPLES EE2010 E3012L
EE3013 SEMICONDUCTOR DEVICES AND PROCESSING EE2003 E3013L
EE3014 DIGITAL SIGNAL PROCESSING EE2010 E3014L
EE3015 POWER SYSTEMS AND PROTECTION EE2001 E3015L
EE3017 COMPUTER COMMUNICATIONS - E3017L
EE3018 INTRODUCTION TO PHOTONICS - E3018L
EE3019 INTEGRATED ELECTRONICS EE2002 E3019L
* EE3018 is only offered in Semester 1
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CHOICE OF PRESCRIBED ELECTIVES
Select two Prescribed Electives.
Third Year Electives are pre-requisites for some Final Year Design & Technical Electives.
Your choice should be guided by your intended Final Year Option.
Additional Third Year Elective courses can be taken as Unrestricted Electives (UE), subjected to availability of vacancies.
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FINAL YEAR CURRICULUM
3 OptionsELECTRICAL & SYSTEMS ENGINEERING
ELECTRONIC ENGINEERING
INFOCOMMUNICATIONSENGINEERING
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FINAL YEAR CURRICULUM
8 Specialisations:ELECTRICAL &
SYSTEMS ENGINEERING
• Intelligent Systems and Control Engineering
• Biomedical Electronics
• Electrical Power and Energy
ELECTRONIC ENGINEERING
• Integrated Circuits Design
• Microelectronics & Photonics
INFO-COMMUNICATIONS
ENGINEERING• Communication
Engineering
• Computer Engineering
• Digital Media Processing
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ELECTRICAL & SYSTEMS ENGINEERING
Intelligent Systems & Control Engineering
EE3011 Modelling & Control
Any other EE30xx
Biomedical Electronics
EE3011 Modelling & Control
Any other EE30xx
Electrical Power and Energy
EE3010 Electrical Devices & Machines
EE3015 Power Systems & Protection
PRE-REQUISITES FOR FINAL YEAR OPTION
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ELECTRONIC ENGINEERING
Integrated Circuits Design
EE3013 Semiconductor Devices & Processing
EE3019 Integrated Electronics
Microelectronics
EE3013 Semiconductor Devices & Processing
EE3018 Introduction to Photonics
PRE-REQUISITES FOR FINAL YEAR OPTION
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INFOCOMMUNICATIONS ENGINEERING
Communication Engineering
EE3012 Communication Principles
EE3017 Computer Communications
Computer Engineering
EE3014 Digital Signal Processing
EE3017 Computer Communications
Digital Media Processing
EE3012 Communication Principles
EE3014 Digital Signal Processing
PRE-REQUISITES FOR FINAL YEAR OPTION
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FINAL YEAR COURSES
ELECTRICAL & SYSTEMS ENGINEERING
ELECTRONIC ENGINEERING
INFOCOMMUNICATION ENGINEERING
EE0040Engineers &
Society
HW0288 Engineering
CommunicationII
EE4080 Final Year
Project
Two Design
Electives
ThreeTechnicalElectives
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Design Electives (Choose 2)
EE4207 Control Engineering DesignEE4208 Intelligent System DesignEE4503 Power Engineering DesignEE4504 Design of Clean Energy
SystemsEE4901 Biomedical Control System
DesignEE4902 Design of Medical Information
Processing Systems
Technical Electives (Choose 3)
EE4001 Software EngineeringEE4265 Process Control SystemsEE4266 Computer VisionEE4268 Robotics and AutomationEE4273 Digital Control SystemsEE4285 Computational IntelligenceEE4530 Power System Analysis & ControlEE4532 Power Electronics & DrivesEE4534 Modern Distribution Systems with
Renewable ResourcesEE4903 Physiological Systems AnalysisEE4904 Biomedical InstrumentationEE4840 Biophotonics
ELECTRICAL & SYSTEMS ENGINEERING
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Design Electives (Choose 2)
EE4303 Mixed-Signal IC DesignEE4304 Radio Frequency Integrated
System DesignEE4305 Digital Design with HDLEE4613 CMOS Process & Device
SimulationEE4614 Device Parameter Extraction
& Layout Implementation
Technical Electives (Choose 3)
EE4001 Software EngineeringEE4340 VLSI SystemsEE4341 Advanced Analog CircuitsEE4343 Radio Frequency CircuitsEE4344 Analysis & Design of Integrated CircuitsEE4645 Microfabrication EngineeringEE4646 VLSI TechnologyEE4647 Microelectronic DevicesEE4694 IC Reliability and Failure AnalysisEE4838 Laser Engineering and ApplicationsEE4840 Biophotonics
ELECTRONIC ENGINEERING
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Design Electives (Choose 2)
EE4105 Cellular Communication System Design
EE4109 Microwave Circuit and System Design
EE4110 Optical Communication System Design
EE4413 DSP System DesignEE4717 Web Application DesignEE4718 Enterprise Network Design
Technical Electives (Choose 3)
EE4001 Software EngineeringEE4152 Digital CommunicationsEE4153 Telecommunication SystemsEE4188 Wireless CommunicationsEE4190 Introduction to Modern RadarEE4455 Embedded SystemsEE4475 Audio Signal ProcessingEE4476 Image ProcessingEE4478 Digital Video ProcessingEE4483 Artificial Intelligence & Data MiningEE4490 Multimedia SystemsEE4756 Computer ArchitectureEE4758 Information SecurityEE4761 Computer NetworkingEE4791 Database Systems
INFOCOMMUNICATIONS ENGINEERING
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PROFESSIONAL INTERNSHIP
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PRE-REQUISITES FOR INTERNSHIP
Important Note:
• A PASS mark in Internship is necessary for the award of the degree (except forstudents who are exempted).
• Internship is ungraded, i.e. PASS/FAIL.
Engineering Year-1 Intake: Year-3 standing & likely to complete 4 semesters ofstudy
Poly Direct-Entry: Year-3 standing & likely to complete 2 semesters of study
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PROFESSIONAL INTERNSHIP (EE3279)
PERIOD 20 WEEKS [SEM 1 / SEM 2]
ACADEMIC UNIT (CORE) 10
GRADING PASS / FAIL
ASSESSMENTS TWICE
SUBMISSION OFFINAL REPORT YES
ESTIMATED APPLICATION PERIOD
MAR (for Sem 1 Applications)SEP (for Sem 2 Applications)
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THIRD YEAR ELECTIVES’ SELECTION
Online Selection Period:
System opens on 20 Feb ( 5:00 pm)System closes on 28 Feb (11:59 pm)
http://www.ntu.edu.sg/studentlink
> Year 3 Prescribed Electives Selection
This selection exercise is compulsory to all 2nd year students. Students, who do not participate in the exercise, may not be able to get placements of their
choices in AY2018/19 registration.
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Thank You
Slide 1
EE3080 EEE Design & Innovation Project
EEE Design & Innovation Project (DIP)EE3080
Coordinators: Perry ShumMuhammad Faeyz Karim
School of EEE,Nanyang Technological University,Singapore 639798
Slide 2
EE3080 EEE Design & Innovation Project
The EEE DIP/EE3080 is a compulsory program for all full-time third year EEE students (2 AU).
Currently, the program requires each student to undertake a project in a group environment.
Each project group is supervised by up to two staff.
Through DIP, students will design and implement their creative project ideas.
Slide 3
EE3080 EEE Design & Innovation Project
Students are required to work on DIP for 6 hours per week over the 13 weeks
A timeslot of 1.30pm - 4.30pm on every Wednesday is allocated to DIP. The other 3 hours of DIP are flexible and can be determined by project supervisor after discussing with students.
Deadline for peer reviews:Friday of Week 13 in each semester
Deadline for Report Submission:Friday of Week 13 in each semester
Official Date of DIP Competition: The first Monday after the final exam of each semester
Slide 4
EE3080 EEE Design & Innovation Project
Thematic Programs• TP01: Smart and Micro Grids for Integration of Renewable
Energy SourcesCoordinator: Wang Peng
• TP02: Smart Electronics Coordinator: Gwee Bah Hwee
• TP03: Electromedical and Mobile ComputingTechnologies
Coordinator: Justin Dauwels
• TP04: UAVIONICSCoordinator: Lim Meng Hiot
Slide 5
EE3080 EEE Design & Innovation Project
Thematic Programs
• TP05: Photonics, Radar and Satellite SystemsCoordinators: Ng Boon Poh & Wang Qijie TP06:
• Robotics Coordinator: Wang Han
• TP07: Machine LearningCoordinator: Tay Wee Peng
• TP08: Escape Game DesignCoordinators: Perry Shum & Muhammad Faeyz Karim
Slide 7
EE3080 EEE Design & Innovation Project
Interim ReportSubmit individual interim report (via ntulearn.ntu.edu.sg)by 5pm Monday of week 8 (the week after recess week)
5 pages (excluding Appendix)Free FormatInclude brief discussion of results (essential), difficultiesencountered, sources of errors, comparison with theory,etc.
Slide 8
EE3080 EEE Design & Innovation Project
Final Report• Submit final group report by 5pm Friday of week 13• Each student needs to contribute in the final group report.• The group report of 40 to 50 pages (excluding
appendices) pages must be submitted online as assignment from NTULearn under your DIP project group Course ID by group leader.
• The report need to be cohesive, instead of compilation of individual reports. In the report, students can address issues such as “teamwork and project management”. Final group report template and submission guidelines are available as follows:
Final report template can be downloaded HEREFinal report submission guidelines can be downloaded HERE*There is no need to submit again by email or hardcopy unless it is requested by supervisor or moderator
Reference: http://www.eee.ntu.edu.sg/Programmes/CurrentStudents/undergraduate/undergraduatefull-time/DIP2017/Pages/Assessment.aspx
Slide 9
EE3080 EEE Design & Innovation Project
Peer Review
It is compulsory for all students to provide their review input. In case a student does not give his/her input, the system will show to the supervisor and moderator that `The student did not provide a peer review’.Reference: http://www.eee.ntu.edu.sg/Programmes/CurrentStudents/undergraduate/undergraduatefull-time/DIP2017/Pages/Assessment.aspx
Slide 10
EE3080 EEE Design & Innovation Project
Presentation / Demo
Every student needs to explain his/her contributions to the project to supervisor and moderator. Group leader can invite supervisor and moderator (in one session or separate session) to meet every project member after the final group report was submitted.
Reference: http://www.eee.ntu.edu.sg/Programmes/CurrentStudents/undergraduate/undergraduatefull-time/DIP2017/Pages/Assessment.aspx
Slide 11
EE3080 EEE Design & Innovation Project
Useful Info
• Project videos @ youtube
Xperience@EEE https://youtu.be/fvz6SMwXCAY
• DIP website: http://www.eee.ntu.edu.sg/Programmes/CurrentStudents/undergraduate/undergraduatefull-
time/DIP2017/Pages/Home.aspx
• Project Info: supervisor, moderator, lab location: http://www.eee.ntu.edu.sg/Programmes/CurrentStudents/undergraduate/undergraduatefull-time/DIP2017/Documents/DIP%20Projects%20in%20Sem%202%20AY17%20%40%2022%20Jan%202018.pdf
• Interim Report Submission Deadline: 5pm Mon, Week 8• Formal Report Submission Deadline: 5pm Wed, Week 13 ( Word.doc
or Word.docx ONLY )• All reports are to be submitted online as Assignment from NTULearn
for plagiarism check ( do not submit to supervisor or moderator via email unless requested).
Slide 13
EE3080 EEE Design & Innovation Project
Internet-of-Things, photonics, infocomm, energy, electronics, circuit design, etcAR / VR (Unity3D, WebVR)Mobile Apps (iOS / Android)Image / Speech Recognition (e.g. Amazon Alexia)Wireless Communication / Positioning (Wi-Fi / Bluetooth)Distributed Systems 3D PrintingCreative Mechanical Design
Slide 14
EE3080 EEE Design & Innovation Project
Humidity Sensor: DHT11/DHT12
Temperature :DS18B20
Barometer (Air Pressure): BMP180
Moisture: MCP3008
Slide 15
EE3080 EEE Design & Innovation Project
Motion Sensors
PIR Motion sensorDistance Sensor :HC-SR04
Magnetic Switch Infrared Distance Sensor : GP2Y0A02YK
Servo Motors
RFID : RC522
Slide 16
EE3080 EEE Design & Innovation Project
433MHZ Radio Set 2.4GHz NRF24L01 Bluetooth Laser Module Infrared Diode
Slide 17
EE3080 EEE Design & Innovation Project
GPS: NEO-6M Module Gyroscope: MPU-6050 iBeacon
Slide 18
EE3080 EEE Design & Innovation Project
Weight Sensor Pulse / Heartbeat sensor Camera Touchscreen Display
Slide 19
EE3080 EEE Design & Innovation Project
Remove 5 Letters to find the TIME to select DIP
WEFESETEVREKLXI
Slide 20
EE3080 EEE Design & Innovation Project
Remove 5 Letters to find the TIMEto select DIP
FWEESETEVREKLXTIWEEK X (10)
Third Year Elective Talk20 Feb 2018
Electrical and Systems Engineering (ECAL)
byJohn Chan
Choose 2 pre-specialized Major Prescribed Electives courses in Third Year as follows:
EE3010 Electrical Devices and Machines 1
EE3015 Power Systems and Protection 3
1,3 - Pre-requisites for all final year power subjects: EE4503, EE4504, EE4530, EE4532, EE4534
2 - Pre-requisite for 2 final year control subjects: EE4265, EE4273
Final Year Technical Electives with Pre-requisites (PR)EE4503 Power Engineering Design (PR: EE3010, EE3015)EE4504 Design of Clean Energy Systems (PR: EE3010, EE3015)EE4530 Power System Analysis and Control (PR: EE3010 EE3015)EE4532 Power Electronics and Drives (PR: EE3010, EE3015)EE4534 Modern Distribution Systems with Renewable Resources (PR: EE3010, EE3015)
EE4265 Process Control Systems (PR: EE3011)EE4273 Digital Control Systems (PR: EE3011)
How to choose the 2 pre-specialized Major Prescribed Electives?
*If students do not intend to take any final year courses in power,then only EE3011 and EE3010^ are needed. (^ -recommended)
*If students intend to take at least 1 final year course in powerand no final year courses in control (with PR), then only EE3010and EE3015 are needed.
*If students intend to take final year courses in both power andcontrol (with PR), then they must take EE3010, EE3011 andEE3015 (one of these must be registered as a UE).
===================================================EE3010 Electrical Devices and Machines 1
EE3015 Power Systems and Protection 3
1,3 - Pre-requisites for all power subjects: EE4503, EE4504, EE4530, EE4532, EE45342 - Pre-requisite for 2 control subjects: EE4265, EE4273
The courses to be taken in the final year
• Students are required to take 2 DESIGN elective courses and 3 TECHNICAL elective courses.
• The design elective courses for students choosing a particular option group must be those under that option group.
• Students must choose all design and technical elective courses from their chosen option group.
• For specialization, students must choose the design and technical elective courses from the respective areas of specialization
For Electrical and Systems Engineering Option
Design Elective Courses
EE4207 Control Engineering Design (PR: Nil)
EE4208 Intelligent System Design (PR: Nil)
EE4503 Power Engineering Design (PR: EE3010, EE3015)
EE4504 Design of Clean Energy Systems (PR: EE3010, EE3015)
EE4901 Biomedical Control System Design (PR: Nil)
EE4902 Design of Medical Information Processing Systems (PR: Nil)
Technical Elective Courses
EE4001 Software Engineering (PR: Nil)
EE4265 Process Control Systems (PR: EE3011)
EE4266 Computer Vision (PR: Nil)
EE4268 Robotics and Automation (PR: Nil)
EE4273 Digital Control Systems (PR: EE3011)
EE4285 Computational Intelligence (PR: Nil)
EE4530 Power Systems Analysis and Control (PR: EE3010, EE3015)
EE4532 Power Electronics and Drives (PR: EE3010, EE3015)
EE4534 Modern Distribution Systems with Renewable Resources
(PR: EE3010, EE3015)
EE4903 Physiological Systems Analysis (PR: Nil)
EE4904 Biomedical Instrumentation (PR: Nil)
EE4840 Biophotonics (PR: Nil)
Final Year Specialization Biomedical Electronics Power and Clean Energy Intelligent Systems and Control Engineering
Biomedical Electronics [1]What is Biomedical Engineering? Biomedical Engineering is a multiple disciplines
and high technology area It is to provide solutions for health care industries and
services Electrical engineers play a key role in health care
industries and services (circuits and electronics, measurement and instrumentation, information and signal processing, medical imaging and image processing, modelling and control, telemedicine)
Biomedical Engineering is exciting It is important: Health caring and life saving It is profound and challenging (Nobel prizes in medicine
in 1979, for the development of computed tomography (CT) and in 2003 for the development of magnetic resonance Imaging (MRI))
It is high tech Health care industry is robust and resilient in the
economic crisis
Where do biomedical engineers work ? Research institutions Hospitals Academic institutions/government boards Companies Sale and marketing of medical instruments and
products
Biomedical ElectronicsDesign coursesEE4901 Biomedical Control System Design (PR: Nil)
EE4902 Design of Medical Information Processing Systems (PR: Nil)
Technical Elective CoursesEE4903 Physiological Systems Analysis (PR: Nil)
EE4904 Biomedical Instrumentation (PR: Nil)
EE4840 Biophotonics (PR: Nil)
EE4265 Process Control Systems (PR: EE3011)
EE4266 Computer Vision (PR: NIL)
Power and Clean Energy [2] Power is a basic necessity….Can you think of anything
in life without ELECTRICITY (POWER) ? Importance of power engineers What do they do? Power system control, building services & electrical
consulting, energy traders/brokers, power electronics, energy alternatives & renewable energy, intelligent energy system, oil refineries and related companies
Registered as a professional engineer (PEng) with PEB
Career Opportunities Oil refineries Building services Electrical consulting companies Power equipment sales Engineering firms Hospitals Shipyards Singapore Power, MINDEF, SMRT, PSA, JTC, CAAS, LTA
Power and Clean EnergyDesign coursesEE4503 Power Engineering Design (PR: EE3010, EE3015)
EE4504 Design of Clean Energy Systems (PR: EE3010, EE3015)
Technical Elective CoursesEE4530 Power Systems Analysis and Control (PR: EE3010, EE3015)
EE4532 Power Electronics and Drives (PR: EE3010, EE3015)
EE4534 Modern Distribution Systems with Renewable Resources
(PR: EE3010, EE3015)
EE4265 Process Control Systems (PR: EE3011)
EE4273 Digital Control Systems (PR: EE3011)
Intelligent Systems and Control Engineering [3] CONTROL is the heart of many engineering systems
and it synergistically integrates the plants (electro-mechanical, chemical, etc), with sensors, actuators, computers, communication, and software to yield optimal responses
Control systems enables integrations of mechanics, electronics, and computer hardware and software to revolutionize technology in the new economy
Control engineers have multi-disciplinary engineering system perspectives to take advantage of exciting career opportunities in
• Robotics and automated manufacturing• Aerospace and automotive industries• Precision engineering and manufacturing• Process industries (petrochemical processes,
pharmaceuticals and biotechnology processes, energy (including alternative energy) systems, environment and water treatment processes, food production processes)
• Building automation
Intelligent Systems and Control EngineeringDesign coursesEE4207 Control Engineering Design (PR: Nil)
EE4208 Intelligent System Design (PR: Nil)
Technical Elective CoursesEE4265 Process Control Systems (PR: EE3011)
EE4266 Computer Vision (PR: Nil)
EE4268 Robotics and Automation (PR: Nil)
EE4273 Digital Control Systems (PR: EE3011)
EE4285 Computational Intelligence (PR: Nil)
Thank You!
Third Year Prescribed electives – ELECTRONIC ENGINEERING
presented by
K Radha KrishnanAssociate Professor, [email protected] 20 Feb 2018
2
ELECTRONICS
Microelectronics
Microelectronics Courses
Photonics Courses
IC Design IC Design Courses
Specialization in Electronics Option
2 specializations
Micro-electronicsSpecialization
EE3013 Semiconductor Devices and ProcessingBasic concepts of engineering principles in semiconductor processing, wafer fabrication and physical principles underlying the operation of basic semiconductor devices.Lab module: 1 hour video on advanced wafer processing, and 2 hours of cleanroom visit. Pre-requisite for Yr 4 courses
EE3018 Introduction to PhotonicsIntroductory course on the fundamentals of photonics and their impacts on our daily life. Photonics contributes to the fundamental platform for nanotechnology, green energy, home entertainment, data storage, sensing, imaging, biomedical healthcare, and modern optical communications.
IC DesignSpecialization
EE3019 Integrated Analog ElectronicsProvides knowledge to pursue advanced topics in analog and digital integrated circuits.Includes the design of elements in bipolar‐ and CMOS‐based op amps, feedback, power supplies, linear and non‐linear applications circuits and transistor circuits for realising basic digital circuits. Pre-requisite for Yr 4 courses
Year 3 Elective Courses in Electronics
3
Courses in Microelectronics/Photonics Specialization
4
EE4613 CMOS Process and Device Simulation by Technology CAD • Workstation Based Design & Simulation Course• Virtual Wafer Fabrication & Device Characterization of a 2 µm
CMOS Process• Virtual Process Integration for MOS Technology Development &
Device Optimization
EE4614 Device Parameter Extraction & Layout Implementation• Workstation Based Design & Simulation Course• Virtual Device Characterization• Transistor Parameter Extraction• Circuit Simulation & Mask Layout
Pre-requisite: EE3013 Semiconductor Devices and Processing
Design Electives
Courses in Microelectronics/Photonics Specialization
5
1EE4645 Microfabrication Engineering
1EE4646 VLSI Technology
EE4647 Microelectronic Devices
1EE4694 IC Reliability and Failure Analysis
(Choose any 3)
1Pre-requisite: EE3013 Semiconductor Devices and Processing
Technical Electives (Microelectronics)
Courses in Microelectronics/Photonics Specialization
6
Technical Electives (Photonics)
EE4838 LASER ENGINEERING AND APPLICATIONS
EE4839 FIBRE OPTIC COMMUNICATIONS
EE4840 BIOPHOTONICS
No Pre-requisite required
(Choose all 3)
IC Design
1EE3019Integrated Analog Electronics(Pre-requisite)
Design Electives(Choose any 2)
1EE4303 Mixed-Signal IC Design1EE4304 Radio Frequency
Integrated System Design EE4305 Digital Design with HDL
Technical Electives(Choose any 3)
EE4340 VLSI Systems1EE4341 Advanced Analog Circuits1EE4343 Radio Frequency Circuits1EE4344 Analysis & Design of
Integrated CircuitsEE4694 IC Reliability & Failure
Analysis
Courses in IC Design Specialization
7
8
HeadquartersManufacturingR&D
Wide Range of Career Opportunities in Electronics Sector with Global Leaders
+
9
9 of the top 15 fabless semiconductor
companies
3 of the top wafer foundries
4 of the top 6 OSATs
Have focused on engaging top companies to build up a semiconductor ecosystem in Singapore
IC Design Wafer Fabrication Assembly and Test
Strong, comprehensive base of top companies Singapore’s Semiconductor Ecosystem
4
Outsourced Semiconductor Assembly and Test
10
11
12
13
16 of top 20 global companies have R&D, manufacturing or HQ in Singapore
World #15Japan #5
World #17Europe #3
World #18USA #8
World #19Taiwan #1
World #17USA #7
World #1USA #1CPU #1
World #5Japan #2
World #7Europe #1
World #8USA #3
Memory #2
World #9USA #4
Comms #1
World #11USA #5
Comms #2
World #12USA #6CPU #2
World #13Europe #2
World #2Asia #1
World #4USA #2
World #20USA #9
Graphics #3Companies representing >50% of ww semicon revenue are in Singapore
14
9%
4.4%of Singapore’s GDP
Breakdown of Electronics Industry
S$90Bmanufacturing output
Singapore’s Electronics Industry in 2016
Semiconductors (53%)
Electronic Modules & Components (11%)
Infocomms & Consumer Electronics (14%)
Data Storage (11%)
Computer Peripherals & EMS (11%)
1 in 10 chips worldwide are made in Singapore
~66,000employment
3
A Key Pillar of our Economy
17% of total manufacturing jobs
singstat.gov.sg, 2016
Thank you!
Contact: A/P Radha [email protected], 6790 4549
Many graduates, who did not take the Electronics option, have also ended up in Electronics Sector for employment! -Recent survey
INFOCOMMUNICATION ENGINEERING
School of EEENanyang Technological University
Teh Kah ChanArea Lead (InfoCommunication), EEE
20 February 2018
Infocommunication Engineering
Three Specializations
Infocomm Engineering
Communication Engineering
Digital Media Processing
Computer Engineering
Communication Engineering
Satellite Communications
Optical CommunicationsMobile Communications
Network CommunicationsInternet
Infocomm Engineering
Computer
Video on-demand
Social Network
On-line Gaming
HDTV
Mobile Audio
Media Search Engine
Smart Phones
Digital Media Processing
Infocomm Engineering
Applications
Smart Phone as an Example
Infocomm Engineering
Prescribed Elective Courses in Infocomm – 3rd Year
Infocomm Engineering
Code Title
EE3012 Communication PrincipleEE3014 Digital Signal ProcessingEE3017 Computer Communications
Communication Engineering EE3012 + EE3017
Computer Engineering EE3014 + EE3017
Digital Media Processing EE3012 + EE3014
Select any two courses
Recommendation:
Elective Courses in Infocomm Engineering – 4th Year
Infocomm Engineering
Code Title
EE4105 Cellular communication system design
EE4109 Wireless system designEE4110 Optical communication
system designEE4413 DSP system designEE4717 Web application designEE4718 Enterprise network design
Code Title
EE4001 Software engineeringEE4152 Digital communicationsEE4153 Telecommunication systemsEE4188 Wireless communicationsEE4190 Introduction to modern radarEE4455 Embedded systems EE4475 Audio signal processingEE4476 Image processingEE4478 Digital video processingEE4483 Artificial intelligence and data
miningEE4490 Multimedia systems EE4756 Computer architectureEE4758 Information securityEE4761 Computer networkingEE4791 Database systems
Design elective courses Technical elective courses
Career Opportunities of EEE Graduates with Infocommunication Engineering
Research Centres
Consumer Electronics Industry
Communications & Broadcasting
Infocomm – Computers & Comms.
Government & Statutory Boards
Banking & Financial Institutions
Private Communication Networks
IME, I2R, DSTA, DSO, CSIT, DSI, MNC R&DSiemens, NEC, HP, Agilent,
OKI, Sony, Creative, Philips, Infineon
SingTel, StarHub, M1, Agilis, Ericsson
IBM, HP, Lucent, Siemens, NEC, Fujitsu, Phillips
IMDA, PSA, HDB, MRTC, Singapore Power
Banks, Stock Exchanges, Financial Institutions
Petrochemical Companies, Private MNC Networks
Infocomm Engineering
Industries that requires Infocomm
Infocomm Engineering