Developing the skills and knowledge to support today's complex technology
requires ... simulation, automation, robotics, electronics, digital systems,
networking, ...
ENGINEERING AND TECHNOLOGY 92
CNC Manufacturing Concentration (ETCT) Electrical Concentration (ETET) Energy Utility Concentration (ETPT) Mechanical Concentration (ETMT) Associate in Science in Engineering Systems Technology (AS_ETST)
2 017 – 18 P R O G R A M S O F S T U DY
Knight Campus, Warwick only Developing the skills and knowledge to support today’s complex technology requires a shift to a systems engineering approach. Systems engineering is an interdisciplinary view of complex systems that considers customer needs, product functionality, operation, performance, testing and manufacturing. This program incorporates system modeling, simulation, automation, robotics, electronics, digital systems, networking, machine design and electrical power. Emphasis is placed upon understanding the principles of electromechanical systems, automation, system control, machine design and energy systems. Students will develop skills in creative problem solving, design principles, machine programming, computer networking and system troubleshooting. Throughout the program, students will be required to produce written reports, verbal presentations and portfolio entries; function in teams and complete a capstone project. The program is structured around a set of core technology courses and four concentration areas – electrical, mechanical, energy or manufacturing technology. The program will prepare students to be employed in a variety of technical support positions in the fields of electronics, electromechanical systems, automation, manufacturing, facility maintenance, renewable energy technologies and the energy utility industry. Three certificates and four concentration tracks can lead to the Engineering Systems Technology Associate Degree. All certificate courses map to the degree concentration track with no credit loss. This gives students the opportunity to start at the certificate level, increase employment opportunities while attending classes, and work toward the associate degree on a full- or part-time basis. Note: Many courses require prerequisites, corequisites and/or testing. See course descriptions at the back of the catalog for details.
General Education Requirements COURSE NO.
COURSE TITLE
CREDITS
—
MATH 1750
Applied Technical Mathematics I
3
—
MATH 1760
Applied Technical Mathematics II
3
—
ENGL 1010
Composition 1
3
—
PHYS 1050
Physics for Technology
4
—
PHYS 1070
Introduction to Renewable Energy
3
Social Science Electives
See page 22 for complete listing of courses that meet this requirement.
6
Total General Education Credits
22
—
Core Requirements COURSE NO.
COURSE TITLE
CREDITS
—
ETEE 1050
Introduction to Electromechanical Systems
3
—
ETEE 1800
Introduction to Digital Systems
3
—
ETME 1010
Robotics and Control
3
—
ETME 1020
Introduction to Manufacturing Process
3
—
ETME 2310
Automation Systems
3
Total ETST Core Credits
15
Total ETST Concentration Credits – See next page. 27–28 Total Program Credits 64–65
ENGINEERING AND TECHNOLOGY Associate in Science in Engineering Systems Technology (AS_ETST) (continued)
93
CONCENTRATION OPTIONS – Choose one to complete concentration requirements. CNC Manufacturing Technology (ETCT) COURSE NO.
COURSE TITLE
Energy Utility Technology (ETPT) CREDITS
COURSE NO.
COURSE TITLE
CREDITS
—
ENGR 1030
Engineering Graphics
3
—
INST 1010
Introduction to Instrumentation
3
—
ETCN 1100*
Blueprint Reading and the Machinery’s Handbook
3
—
ETUT 1060
Energy Industry Safety
3
—
ETCN 1200*
Precision Measurement and Geometric Dimensioning 3
—
ETUT 1160
Introduction to Energy Utility Industry
3
— ENGT 2090
Advanced Solid Modeling
3
—
ETEE 1500
Electrical Systems I
3
— ETCN 1300
CNC Machining 1
3
— ETEE 1120
Electronic Devices and Circuits
3
—
ETCN 2100*
Computer-Aided Manufacturing (MasterCam)
3
—
ETEE 2390
Electrical Power Systems
3
—
ETCN 2200*
CNC Machining II
3
—
CNVT 1810
Networking Technology
3
—
ETCN 2300
3D-Modeling and Prototyping
3
—
CNVT 1200
Introduction to Wireless Networks
3
—
ETCN 2500
Computer Numerical Control (Capstone)
4
—
ETUT 2500
Energy Industry Practicum
3
Total CNC Manufacturing Technology Concentration Credits
28
Total Energy Utility Technology Concentration Credits
27
Total Program Credits
65
Total Program Credits
64
*Seven-and-a-half week courses
COURSE NO.
COURSE NO. COURSE TITLE
CREDITS
—
ENGR 1020
Introduction to Engineering and Technology
3
—
INST 1010
Introduction to Instrumentation
3
—
ETEE 1500
Electrical Systems I
3
—
ETEE 2390
Electrical Power Systems
3
—
ETEE 1120
Electronic Devices and Circuits
3
—
CNVT 1200
Introduction to Wireless Networks
3
—
CNVT 1810
Networking Technology
3
—
ETEE 1100
Engineering Applications of Computers
3
—
ETEE 2500
Electrical Systems II (Capstone)
3
Total Electrical Concentration Credits
27
Total Program Credits
64
COURSE TITLE
CREDITS
—
ENGR 1020
Introduction to Engineering and Technology
3
—
ENGR 1030
Engineering Graphics
3
—
INST 1010
Introduction to Instrumentation
3
— ETME 1500
Mechanical Systems I
3
— ETME 1510
Engineering Mechanics Technology
3
— ETME 2930
Industrial Materials
3
— ETME 2500
Mechanical Systems II (Capstone)
3
— ENGT 2090
Advanced Solid Modeling
3
ETCN 2300
3D-Modeling and Prototyping
3
Total Mechanical Concentration Credits
27
Total Program Credits
64
—
2 017 – 18 P R O G R A M S O F S T U DY
Mechanical (ETMT)
Electrical (ETET)