Catalog of Courses

Learning culture of engineering, engineering use of computer tools, and computer modeling as applied to engineering analysis and design.

Arizona Shared Unique Number SUN# EGR 1102 - In combination with: ECE103 Prerequisites: A grade of C or better in MAT15+ or higher-level mathematics course, or an appropriate District placement above MAT15+, or permission of Instructor or Division or Department Chair.

Fundamentals of the design process: engineering modeling, communication and problem-solving skills in a team environment. Emphasis on process-based improvements to the design process. Introduction to engineering as a profession.

Student may receive credit for only one of the following: ECE103 or ECE103EP. Prerequisites: A grade of C or better in ECE102 or permission of Instructor or Division or Department Chair.

Use MATLAB to solve engineering problems. An overview of programming, including matrices, structures, strings, functions, control flow, file management, data analysis, graphing capabilities, and mathematical calculations.

Prerequisites: C in [(MAT150 or MAT151 or MAT152 or MAT155 or MAT156) and MAT182] or MAT187 or higher level mathematics course or permission of Instructor or Division or Department Chair.

Modeling of static equilibrium in particles and rigid bodies through analysis of forces and mechanical properties.

Prerequisites: A grade of C or better in PHY115 or PHY121 or permission of Instructor or Division or Department Chair. Corequisites: MAT230 or MAT231 or permission of Instructor or Division or Department Chair.

Modeling of dynamic motion in particles and rigid bodies through kinetics and kinematics. Work and energy principles; impulse and momentum principles; planar kinematics; equations of motion; conservation of energy and momentum.

A grade of C or better required in all Prerequisites. Prerequisites: ECE211 and PHY115 or PHY121 or permission of Instructor or Division/Dept Chair. Prerequisites or Corequisites: MAT240 or MAT241 or permission of Instructor or Division/Dept Chair.

Number systems, conversion methods, binary and complement arithmetic, Boolean switching algebra and circuit minimization techniques. Analysis and design of combinational logic, flip-flops, simple counters, registers, Read Only Memory (ROMs), Programmable Logic Device (PLDs), synchronous and asynchronous sequential circuits, and state reduction techniques. Building physical circuits.

Prerequisites: None. Corequisites: CSC100 or (CSC110 or CSC110AB) or permission of Instructor or Division or Department Chair.

Note: This course has differences between current terms. Please see advisement for specific information.

Introduction to circuits and devices. Component models, transient analysis, steady state analysis, Laplace transform, and active and passive filter networks.

Prerequisites: A grade of C or better in PHY116 or PHY131 or permission of Instructor or Division or Department Chair. Corequisites: MAT276 or permission of Instructor or Division or Department Chair.

Introduction to procedural programming (C/C++) and hardware description language (VHDL).

Prerequisites: A grade of C or better in (CSC/EEE120 and CSC205), or permission of Instructor or Division or Department Chair.

Assembly language programming including input/output (I/O) programming and exception/interrupt handling. Register-level computer organization, I/O interfaces, assemblers, and linkers. Processor organization and design, data path, control, pipelining, and input/output. Memory organization with cache and virtual memory.

Prerequisites: A grade of C or better in [(CSC100 or CSC110 or CSC110AB) and CSC/EEE120], or permission of Instructor or Division or Department Chair.

Note: This course has differences between current terms. Please see advisement for specific information.