Center for Curriculum and Transfer Articulation
Major: 3224
First Term: 2012 Fall   
Award: AAS
Total Credits: 67
CIP Code: 15.0303

Occupational Area: Manufacturing
Instructional Council: Applied Technology (57)
GPA: 2.00
SOC Code: 17-3023 


Description: The Associate in Applied Science (AAS) in Electronic Engineering Technology program is designed to give students a foundation of experience important in engineering assistants, field engineers, prototype designers, specification writers, technical representatives, etc. The Electronic Engineering Technology program of study at Mesa Community College (MCC) is designed to provide the student with an AAS degree and at the same time allow for the maximum number of transfer credits to four year institution.



Required Courses
+ECE102 Engineering Analysis tools and Techniques 2
+ECE103 Engineering Program Solving and Design 2
+ELE111 Circuit Analysis I 4
+ELE112 Circuit Analysis II 4
+ELE121 Solid State Devices and Circuits I 4
+ELE131 Digital Logic and Circuits 3
ELE181 Computer Programming for Technology 3
+ELE222 Solid-State Devices and Circuits II 4
+ELE241 Microprocessor Concepts 4
+MAT220 Calculus with Analytic Geometry I 5
+MAT231 Calculus with Analytic Geometry II 4
+PHY111 General Physics I 4

+PHY112 General Physics II (4) OR
+CHM130 Fundamental Chemistry (3) AND
+CHM130LL Fundamental Chemistry Laboratory (1) 4
Credits: 47

Program Competencies
1. Utilize computer programs and modeling to analyze engineering problems that will result in a design. (ECE102)
2. Apply the fundamentals of the design process and problem solving skills in a team environment to solve problems. (ECE103)
3. Apply Ohms and Kirchoff`s laws to the solution of DC circuits and networks. (ELE111)
4. Apply Kirchoff`s Laws in conjunction with phasor concepts to solve AC circuits and networks. (ELE112)
5. Apply small signal linear analysis to bipolar and field-effect transistor circuits, and multistage amplifiers. (ELE121)
6. Apply the concept of Boolean algebra to the generation and reduction of logic circuits. (ELE131)
7. Use computer programs to solve technology related problems. (ELE181)
8. Use the operational amplifier as a linear functional block. (ELE222)
9. Use assembly language to program a microprocessor. (ELE241)
10. Perform the operation of differentiation and integration on functions of one variable. (MAT220)
11. Use elements of analytic geometry, sequences and series in performing the operation of differentiation and integration. (MAT231)
12. Apply physics concepts and principles to problems involving mechanics, fluid, sound and heat. (PHY111)
13. Apply fundamental physical science concepts of chemistry or electricity, magnetism and optics in the solution of associated problems. (PHY112, CHM130, CHM130LL)
Last Updated: June 26, 2012

All information published is subject to change without notice. Every effort has been made to ensure the accuracy of information presented, but based on the dynamic nature of the curricular process, course and program information is subject to change in order to reflect the most current information available.