180 likes | 374 Views
Computer. State University of New York Institute of Technology. Engineering. Technology. Electrical. Department of Engineering Technology. ELECTRICAL and COMPUTER ENGINEERING TECHNOLOGY. SUNYIT Academic Departments. Academics. Engineering Technology. ESM. Nursing. Humanities.
E N D
Computer State University of New York Institute of Technology Engineering Technology Electrical Department of Engineering Technology ELECTRICAL and COMPUTER ENGINEERING TECHNOLOGY
SUNYITAcademic Departments Academics Engineering Technology ESM Nursing Humanities Business Communications Computer Science Civil Engineering Technology Computer Engineering Technology Electrical Engineering Technology Mechanical Engineering Technology
Science/Engineering/Technology • A scientist conducts basic research to explore and develop fundamental theories • Science is about discovering the natural • An engineer uses these theories to design and develop products and systems. • Engineering is creating the artificial • A technologist is then given the design and has the responsibility for transforming that concept into a prototype or product. • Technology makes it real
The Faculty and StaffElectrical and Computer Engineering Technology • Faculty • Dr. Mohamed Rezk • Dr. Mohammed Abdallah • Dr. Daniel Benincasa • Dr. Michael Medley • Mr. Michael Mazzatti – Part-time Faculty • Staff • Mr. Tim Converse – Lead Technician • Ms. Laurie Steele - Secretary
Technical Curriculum • Concentrations in Computer Engineering Technology • Combination of Electrical Technology and Computer Science • Core Computer Science Courses • Concentrations in Electrical Engineering Technology • Communications • Control Systems • Microprocessors • Minors • Math • Computer Science • Dual Major – both CET and EET
Program of StudyElectrical (128 credits) SUNY General Education Requirements: Mathematics (MAT 121 or equivalent) Basic Communication (ENG 101 or equivalent) Natural Science (PHY 101 or equivalent) At least 4 out of the following 7 categories: Social science, American history, Western civilization, Other western civilization, Humanities, Arts, Foreign language SUNYIT Degree Requirements: Upper Division Writing (COM or ENG) Liberal Arts/Science Requirements: Math 122-Calc II Math 230-Dif Eq Additional 8 credits [to complete the balance of 24 credits of Math/Science electives] Computer Programming electives (min 2 credits such as CS 108, CSC 317) Liberal Arts/Math/Science/Computer Science Electives [to complete the balance of 60 credits] Technical Core courses: ETC 299-Quality Control ETC 316-Comm or ETC 331-Control ETC 265-Digital or ETC 342-Microprocessor 8 credits of 4xx ETC courses 4 credits of capstone [ETC 445 or ETC 423] Technical Electives [32 credits] Unrestricted Electives [min. of 14 credits to balance the 128 credits]
Program of StudyComputer(128 credits) SUNY General Education Requirements: Mathematics (MAT 121 or equivalent) Basic Communication (ENG 101 or equivalent) Natural Science (PHY 101 or equivalent) At least 4 out of the following 7 categories: Social science, American history, Western civilization, Other western civilization, Humanities, Arts, Foreign language SUNYIT Degree Requirements: Upper Division Writing (COM or ENG) Liberal Arts/Science Requirements: Math 122-Calc II Math 230-Dif Eq or Math 115-Finite Additional 8 credits [to complete the balance of 24 credits of Math/Science electives] Computer Science Core courses: CS 108 + CS 249 + CS 240 + Computer Programming Language Liberal Arts/Math/Science/Computer Science Electives [to complete the balance of 60 credits] Technical Core courses: CET 299-Quality Control CET 342-Microprocessor CET 416-Networks CET 429-Computer Architecture CET 431-PC Maintenance 4 credits of capstone [CET 445 or CET 423] Technical Electives [24 credits] Unrestricted Electives [min. of 10 credits to balance the 128 credits]
Electrical and ComputerCommunications Courses: • Analog and Digital Communications • Data Communications • Wireless Communication • Optical Communications Nokia’s flexible cellphone – Nokia.com
Electrical and ComputerControls Courses: • Control Systems • Automatic Control Sys • Digital Robotics • Computer Control and Instrumentation • Servo Mech and Design
Electrical and ComputerMicroprocessors Courses: • Microprocessors • Micro Interfacing • Microcontrollers • Computer Architecture • Programmable Logic Devices (FPGAs) • VHDL Programming • PC Maint. & Integr.
Typical CurriculumComputer Engineering Technology Freshman Year Fall Year One MAT 110 – College Algebra 4 CET 101 – Fund. Of ECE Tech. 4 ENG 101 – Freshman Comp 4 IDS 101 – Persp on Knowledge 1 FIT 101 – Athletic Conditioning 1 17 Fall Year Two PHY 101 – Physics I 4 MAT 121 – Calculus I 4 CET 103 – Electronics I 4 CET 210 – Digital Systems 4 16 Sophomore Year Spring Year One MAT 120 – Pre-Calculus 4 CET 102 – Electrical Circuits 4 IDS 102 – Nature and Culture 4 IDS 103 – Science/Tech/Human 4 FIT 102 - Concepts of Aerobic 1 17 Spring Year Two MAT 122 – Calculus II 4 CS 108 – Comp Fund 4 CET203 – Electronics II 4 CET 342 – Microprocessors 4 HLT 200 – Peer Health Ed 2 18
Typical CurriculumComputer Engineering Technology Junior Year Fall Year Three MAT 230 – Diff Equations 4 CS 240 – Data Structures 4 COM 300 – Oral Comm 4 CET 429 – Comp Architecture 4 16 Fall Year Four ETC 423/445 - Capstone 4 CET 431 – PC Integr. & Maint. 4 Electrical or CS Elective 4 CET 299 – QC and WP Issues 2 14 Senior Year Spring Year Three PHY 102 – Physics II 4 COM 306 – Upper Div Writing 4 CS 249 – Object Oriented Programming 4 ETC 416 – Data Communications 4 16 Spring Year Four Unrestricted Elective 4 Unrestricted Elective 4 Electrical or CS Elective 4 ETC 300 – Tools and Technology 2 14
Typical CurriculumElectrical Engineering Technology Freshman Year Fall Year One MAT 110 – College Algebra 4 ETC 101 – Fund. Of ECE Tech. 4 ENG 101 – Freshman Comp 4 IDS 101 – Persp on Knowledge 1 FIT 101 – Athletic Conditioning 1 17 Fall Year Two PHY 101 – Physics I 4 MAT 121 – Calculus I 4 ETC 103 – Electronics I 4 ETC 210 – Digital Systems 4 16 Sophomore Year Spring Year One MAT 120 – Pre-Calculus 4 ETC 102 – Electrical Circuits 4 IDS 102 – Nature and Culture 4 IDS 103 – Science/Tech/Human 4 FIT 102 - Concepts of Aerobic 1 17 Spring Year Two MAT 122 – Calculus II 4 CS 108 – Comp Fund 4 ETC 203 – Electronics II 4 ETC 216 – Elec Comm I 4 HLT 200 – Peer Health Ed 2 18
Typical CurriculumElectrical Engineering Technology Junior Year Fall Year Three MAT 230 – Diff Equations 4 ETC 311 – Control Systems 4 COM 300 – Oral Comm 4 ETC 316 – Elect Comm II 4 16 Fall Year Four ETC Capstone 4 ETC 4xx – Senior level elective 4 ETC 299 – QC. WP Issues 2 ECO 110 – Micro Economics 4 or other Social Science Elective 14 Senior Year Spring Year Three PHY 102 – Physics II 4 COM 306 – Upper Div Writing 4 ETC 342 – Microprocessor. 4 ETC 416 – Data Communications 4 16 Spring Year Four ETC 3xx or higher elective 4 ETC 300 – Tools and Technology 2 Open Elective** 4 Open Elective** 4 14
CET/ETC 101Fundamentals of CET/EET Introduces fundamental concepts of EET/CET Project-based course Lab is spent building the Mark III Robot
Example of Jobs • Electrical Engineer/Designer • Field Service Technician • Supplier Development Engineer • Design Representative • Test Engineer • Manufacturing Process Engineer I • Engineering Technician • Service Engineer • Graduate Student – CS or EE or CE • Design Engineer • IT Administrator
Some of the Employers • Air Force Research Laboratory/Local Contractors • Global Foundries • ConMed • Eversan • ESPN • General Electric • Lockheed Martin • National Grid • Northern Safety • Verizon
Some things to remember… • Small, safe campus life • Modest class sizes • Professors teach both courses and lab sections • Academic Referral for Freshman • Instructor identifies students with academic difficulty to Provost by mid-semester • Hands-on approach to learning • Most technical classes have lab components • Clubs offers opportunity for branching out • Ability to adapt to emergingtechnologies