DC circuit analysis, including voltage, current, energy, power, resistance, loop and nodal network analysis. Thevenin's and Norton's theorems, superposition theorem, capacitance, inductance, and basic transient circuit analysis.
Corequisite: MATH 131. (F,S) 

AC circuit analysis, phasors, impedance, admittance, loop and nodal analysis, network theorems, frequency response, filters, resonance, transformers, polyphase systems, and power.
Prerequisite: EET 121.
Corequisite: MATH 132. (F,S) 

Principles and basic applications of semiconductor diodes and transistors. Unfiltered and filtered rectifier circuits. Clippers, clampers, and other diode circuits. Detailed dc and ac analysis of transistor circuits, including transistor dc biasing, the use of transistor ac models and equivalent circuits, and the ac analysis of small signal transistor amplifiers.
Corequisites: EET 122 and MATH 132. (F) 

Frequency response of BJT and FET amplifier circuits. Multi-stage transistor amplifier analysis and design considerations. Differential and operational amplifiers, and their basic circuit applications. Negative feedback principles and circuit analysis. Low frequency and high frequency oscillator circuits. Voltage regulators and regulated power supplies.
Prerequisites: EET 211
Corequisite: MATH 231. (S) 

Concepts of electronics applied to computers, including semiconductor physics, diodes, transistors, field effect transistors, amplifier design and operational amplifiers.
Prerequisite: EN 231 or EET 122. (S) 

DC and AC circuit analysis, circuit theorems, power, resonance, filters, transformers, polyphase circuits, and transient-analysis. (NON-MAJORS).
Corequisite: MATH 132. (S) 

Digital circuits, including binary and hexadecimal codes, Boolean algebra, Karnaugh Maps, logic gates, flip-flops, counters, shift registers, and arithmetic and logic operations.
Prerequisite: EET 121, or permission of instructor.
Corequisite: EET 211. (F) 

Semiconductor devices, transistor amplifiers, op amps, op amp applications, power amplifiers, digital electronics, digital control, PLCs, microprocessors, microcontrollers, interfacing, control systems, motors. (NON-MAJORS).
Prerequisite: EET 250. (F) 

Theory and applications of operational amplifiers and linear circuits, including non-inverting and inverting voltage amplifiers, I-V and V-I converters, the effects of negative feedback on input and output impedance, DC offset considerations, high frequency limitations of op amps, differential and instrumentation amplifiers, differentiators, integrators, and other selected topics.
Prerequisite: EET 212. (F) 

Continuation of Electronics III. Additional applications of operational amplifiers and analog circuits, including voltage comparators, oscillators and waveform generators, active filters, rectifiers and voltage regulators, D-A and A-D conversion, phase locked loops, and other selected topics.
Prerequisite: EET 351. (S)

Basic principles of electronic communications. Time-domain and frequency-domain representations of signals. Amplitude Modulation, Single-Sideband, Frequency Modulation, and Phase Modulation communication systems and circuit analysis. Principles of fiber optic communications. Prerequisites: EET 351 and MATH 232. (S)

Introduction to the senior project course in which the students formulate their project proposals and make both written and oral presentations of the proposal.
Prerequisite: ET 300 or Senior standing. (F)

Practical, realistic projects relating to Engineering Technology disciplines are selected for design, analysis, and execution. Students build prototypes or models, prepare reports and make oral presentations.
Prerequisite: EET 356 or permission of instructor. (S)

Topics in electronics not now included in other courses.
Prerequisite: permission of department chair. (*) 

Industrial cooperative education work experience under direction of field supervisor and faculty member.
Prerequisite: junior or senior standing. (F,S,SS)