2021-2022 Course List

The workshop format provides teachers and others opportunity to study a specific topic in a shortened, hands-on course.

This practicum provides students with an immersion experience in a supervised Science, Technology, Engineering, and Math (STEM) educational setting.

The basic elements of electricity and electronics are explored in an internet enabled, self-paced course. Laboratories make use of a Virtual Laboratory environment to provide experience with issues in wiring, power, circuits, and digital electronics.

Goal Areas:

GE-03

A study of DC electrical circuits, Kirchhoff's laws, series and parallel circuits, inductors, capacitors, circuit response to RL, RC and RLC circuits. Thevenin's equivalent circuit theorem, and other network analysis theorems. Use of dependent sources in DC circuits. MATH 112 or 115 may be taken concurrently.

Prerequisites:

MATH 112 or MATH 115

A study of AC circuits, power, phasors, series and parallel AC networks, and network analysis theorems. Ohm's Laws and Kirchhoff's Laws for AC circuits. Use of dependent sources in AC circuits. MATH 113 or 115 must be taken concurrently.

Prerequisites:

MATH 113 or MATH 115 may be taken concurrently.

<p>A self-paced, interactive, multi-media course, for non-engineering students, exploring the basics of computer hardware. The course will cover concepts behind computer design and operation, including issues such as the need for RAM, hard drive, memory, ROM, etc.</p>

Goal Areas:

GE-13

This is an introductory course in the use of technology for communication. During the semester students will study the evolution of communications technology from early days to the present. This course will cover wireless, analog, and digital techniques including telephony, the internet, and mobile formats. The student will study theory and principles involved in the different types of communications. Modern techniques in digital communications will be discussed and demonstrated through simulation. A consumer example of digital communication will be given.

Goal Areas:

GE-13

Hands-on experiences in the use of digital integrated circuits and logic families. Students will study logic gates, number systems, flip flops, latches, registers, computer arithmetic and memory. A self paced format with an open laboratory format.

This course covers the development and status of electrical power as a global resource. This includes usage, generation, and impact on societies throughout the world. Finally, the course will examine the many renewable generation options.

Goal Areas:

GE-03, GE-08

Historical, cultural, ethical, philosophical, developmental, and creative aspects of engineering and technology as a discipline are explored. The course also examines concepts and events leading to important innovations of recent times including: microwave ovens, FAX machines, personal computers, traffic signals, and video games.

Goal Areas:

GE-06, GE-08

Diverse Cultures:

Purple

<p>This course covers digital circuit and logic needed for electronic and computer engineering technology. Covers binary arithmetic, timing analysis, TTL, CMOS, logic gates, Boolean algebra, multiplexer, counter, adder, comparator, logic simulation, flip-flops, registers, and use of digital test equipment. Students design and build a complex architecture from small-scale logic components. Coreq: EET 113 Fall</p>

This course covers digital circuit and logic needed for electronic and computer engineering technology. Covers binary arithmetic, timing anlaysis, TTL, CMOS, logic gates, Boolean algebra, multiplexer, counter, adder, comparator, logic simulation, flip-flops, registers, and use of digital test equipment. Students design and build a complex architecture from small-scale logic components. Coreq: EET 113 Fall

Prerequisites:

EET 141 

<p>Sequential circuits, logic timing, clock distribution, counter, LED display, shift register, transceiver, 555 timer, 555 oscillator, D/A converter, RAM, ROM, mass memory, synchronous logic, asynchronous logic, microprocessor-interfacing, testability, and simulation.</p>

Prerequisites:

EE 107, EET 142

Drafting principles involving use of computer electronic CAD software in laying out block diagrams, schematic diagrams, production drawings, graphical presentation of data, and printed circuit board layout and construction.

Prerequisites:

EET 113

An introduction to semiconductor theory and circuits: includes characteristics curves, biasing techniques and small signal analysis of FETs and MOSFETs, feedback concept, BJT and FETs frequency response. Prereq: EET 114 or concurrent

Prerequisites:

EET 113 

An introduction to differential amplifier, linear and nonlinear operational amplifiers, power amplifiers, linear digital ICs, oscillators, power supplies, D/A, A/D conversion, four layered devices and their applications.

Prerequisites:

MATH 121, PHYS 211, EET 222

A study of microcomputer hardware and software fundamentals, the instruction set and the addressing modes of a microprocessor/microcontroller, assembly programming, basic I/O concepts, parallel I/O methods, asynchronous serial I/O methods, synchronous serial I/O methods, A/D conversion, timer applications, and introduction to Internet of Things (IoT) and its impact to society. Spring

Prerequisites:

EET 113

Varied topics in Electronic and Computer Engineering Technology. May be repeated as topics change. Prereq: to be determined by course topic

Prerequisites:

to be determined by course topic 

Several programming tools and their use in creating electronic hardware systems are covered in this course. Creating special-purpose hardware using numerical analysis programs written in C. Creating hardware utilizing Visual applications written in C. Use of scripting languages in hardware applications. Using Excel for input-output functions. Must be taken concurrently with MATH 180.

Prerequisites:

MATH 180

Instrumentation system design and integration with sensors, actuators and other electronic indicator components. Programming in a block diagram environment and with embedded C to interface different hardware components.

Prerequisites:

EE 234 and EE 235 OR EET 254

Create working programmable hardware using FPGA, GAL and other logic technology. Use industry standard tools such as Verilog, Xilinx, Orcad and Multisim along with development kits and extension boards to implement programmable systems. Interface LED displays, switches and I.O devices with programmable logic to create processing systems. Evolution of programming logic and analog circuits.

Prerequisites:

EE 234 and EE 235 or EET 254

An introduction to tools, equipment, materials, and techniques used in fabrication of electronic projects and printed circuit boards.

Prerequisites:

EET 221

Electrical power and magnetic circuit concepts, transformers, generators and motors (DC, synchronous, induction), special purpose motors, power-electronic motor drivers, prime movers/alternatives, generation, transmission/distribution, system stability/protection.

Prerequisites:

EET 114, MATH 127, PHYS 212

A study of a high performance microprocessor architecture. Applications of a microprocessor for monitoring and controlling systems will be studied. Optimal utilization of a microprocessors resources will be stressed. PC programming in assembly and a high level language.

Elective credit for approved experience in off-campus work related to EET major.

Prerequisites:

Permission required.