|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
3.00 Credits
Introduction to electronics, ideal OP-AMPS, BJTs, FETs, DC biasing, VI characteristics, single stage amplifiers, low frequency small signal models, power supplies and voltage regulation. PSPICE required. Prerequisite: EEE 117. Corequisite: EEE 108L. Graded: Graded Student. Units: 3.0
-
1.00 Credits
Characteristics and applications of OP-AMPS, rectifiers, BJTs and FETs. Introduction to GPIB, PSPICE and LabVIEW. Laboratory three hours. Prerequisite: EEE 117, EEE 117L. Corequisite: EEE 108. Graded: Graded Student. Units: 1.0
-
4.00 Credits
Differential and multistage amplifiers, high frequency models (BJTs and FETs), feedback and sensitivity, power amplifiers, oscillators and waveform shaping circuits. Advanced use of PSPICE. Lecture three hours; laboratory three hours. Prerequisite: EEE 108, EEE 108L, EEE 117, EEE 117L; and )GWAR Certification before Fall 09, or WPJ score of 70+, or at least a C- in ENGL 109M/W). Graded: Graded Student. Units: 4.0
-
3.00 Credits
The use of operational amplifiers in circuit designs for applications such as filtering, switched capacitor design, sample and hold design, instrumentation amplifiers, and voltage reference circuitry will be explored, as well as topics in Feedback Theory. Prerequisite: EEE 109 or consent of instructor. Graded: Graded Student. Units: 3.0
-
1.00 Credits
Circuit design, mask design, and simulation of integrated circuitry. Use of CAD software to prepare design for fabrication. Individual and group design projects. Laboratory three hours. Prerequisite: EEE 109; either EEE 110 or EEE 230. EEE 110 or EEE 230 may be taken concurrently. Graded: Graded Student. Units: 1.0
-
3.00 Credits
Review of Sinusoidal steady state, phasors, complex power, three phase power, mutual inductance, series and parallel resonance. Introduction to application of Laplace transforms in network analysis, transfer functions, Bode plots, Fourier series, two-port circuits. Prerequisite: ENGR 17, EEE 64; EEE 64 may be taken concurrently. Corequisite: EEE 117L. Graded: Graded Student. Units: 3.0
-
1.00 Credits
Introduces fundamental laboratory techniques while demonstrating the concepts introduced in the EEE 117 lecture. The computer simulation language PSPICE is introduced and applied. Laboratory three hours. Corequisite: EEE 117. Graded: Graded Student. Units: 1.0
-
3.00 Credits
Magnetic circuits and principles of electromechanical energy conversion, 3-Phase, DC machines, state equations, terminal characteristics, transformers, AC machines, terminal characteristics of synchronous machines, stability considerations. Induction machine theory. Introduction to energy sources including conventional and nuclear power plants. Prerequisite: EEE 117; may be taken concurrently. Graded: Graded Student. Units: 3.0
-
1.00 Credits
Direct current motor and generator characteristics, three phase synchronous motor and synchronous generator characteristics, single phase power transformer short circuit and no-load tests, frequency changer tests and tests on DC and AC machine models, potential and current transformers. Prerequisite: EEE 117, EEE 130 (EEE 130 may be taken concurrently), and (GWAR Certification before Fall 09, or WPJ score of 70+, or at least a C- in ENGL 109M/W). Graded: Graded Student. Units: 1.0
-
3.00 Credits
Characteristics of power system components; power system planning; transmission line parameters and the steady-state performance of transmission lines; disturbance of the normal operating conditions, symmetrical components and sequence impedances; analysis of balanced and imbalanced faults; and a brief review of protection systems. Prerequisite: EEE 130; may be taken concurrently. Graded: Graded Student. Units: 3.0
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|