ELECTENG 1020 1 credit Electrical Engineering Projects and Tools
Hands-on electrical-engineering laboratory projects such as audio amplifiers, LEDs, digital logic, and electric-motor measurements. (Fall, Spring)
Components: Laboratory
ELECTENG 1210 3 credits Circuit Modeling I
Voltage, current, resistance, and impedance. Opamps. Phasors. Ohm's law, Kirchhoff's laws, superposition, and Thevenin's and Norton's theorems applied to the modeling of zero-order networks. Complex numbers and algebra. (Fall, Spring)
Components: Laboratory, Lecture
Prereqs/Coreqs: P: MATH 2640
ELECTENG 2210 4 credits Circuit Modeling II
Phasors and sinusoidal steady-state analysis and power. Resonant circuits. Mutual inductance. Transient response of linear networks with Laplace transform. (Fall, Spring)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 1210 and MATH 2740
ELECTENG 2220 4 credits Signals and Systems
Linear system modeling with differential equations, Laplace transforms, and convolution. Transfer functions, frequency response, and Bode plots. (Fall, Spring)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 2210 and MATH 2840. C: MATH 3630
ELECTENG 3020 4 credits Analog Electronics
Diode circuits. Biasing of semiconductor devices. Analysis and design of linear amplifiers. Use of opamps. (Fall, Spring)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 2210
ELECTENG 3130 4 credits Solid State Electronic Devices
Physics of semiconductor devices. Energy band diagrams, Fermi levels, and Fermi-Dirac statistics. Metal-semiconductor and p-n junctions. Functioning of diodes, BJT's, FET's, and thyristors. Small signal equivalent circuits. Nonlinear modeling using computers. (Fall)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 2210, PHYSICS 3140 and MATH 3630
ELECTENG 3140 4 credits Electric and Magnetic Fields
Electrostatics, magnetostatics, Maxwell's equations, plane waves, and transmission lines. (Fall, Spring)
Components: Discussion, Lecture
Cross Offerings: ENGRPHYS 3640
Prereqs/Coreqs: ELECTENG 2220, MATH 2840, MATH 3630 and PHYSICS 2640 or PHYSICS 2340
ELECTENG 3320 4 credits Automatic Controls
Analysis and synthesis of single-input, single output linear time-invariant systems are considered through classical Laplace transform methods such as root-locus and frequency-domain techniques. The computer simulations demonstrate practical application of the concepts. (Fall, Spring)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 2220
ELECTENG 3410 4 credits Electric Power Engineering
Introduction to electromechanics, generators, transformers, transmission lines, motors and network analysis. (Fall, Spring)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 2210 with a "C" or better or GENENG 2930 with a "B" or better
ELECTENG 3770 4 credits Logic and Digital Design
Introduction to digital logic. Boolean algebra. MSI and LSI. Combinational and sequential network design, prototyping, and testing. State machine design and implementation. Introduction to HDL and programmable logic devices. (Fall, Spring)
Components: Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 1210
ELECTENG 3780 4 credits Introduction to Microprocessors
Introduction to microprocessor assembly language programming. Fundamentals of microprocessor architecture, data representation, and arithmetic. System debugging. Interfacing and interrupts. Microprocessor- and microcontroller-based system design, testing, and implementation. (Fall, Spring)
Components: Laboratory, Lecture
Prereqs/Coreqs: P: COMPUTER 1430 and ELECTENG 3770
ELECTENG 3950 4 credits Electrical Engineering Cooperative Education
Work experience in industry under the direction of the College of Engineering, Mathematics and Science Cooperative Education and Internship Program. During co-op the student is expected to be away from his/her studies at UW-Platteville and work for an industry for a semester and summer. Credits do not fulfill graduation requirements. Minimum cumulative GPA of 2.50 is recommended for participation. (Fall, Spring)
Components: Field Studies
Prereqs/Coreqs: P: junior standing
ELECTENG 3970 1 credit Electrical Engineering Internship
Work experience in industry under the direction of the department chair and College of Engineering, Mathematics and Science Cooperative Education and Internship Program. NOTE: This program is separate and distinct from the cooperative education program and is principally designed to cover the summer work experience. Internship is designed to provide experiential learning experience to the student during the summer period. Credits do not fulfill graduation requirements. (Summer)
Components: Field Studies
Prereqs/Coreqs: junior standing
ELECTENG 4010 1 credit UHF Amplifier Design
Scattering parameters, the Smith Chart, lumped-element impedance matching, transistor characterization, device stability, UHF CAD techniques, and transistor bias techniques.
Components: Lecture
Prereqs/Coreqs: P: ELECTENG 3020
ELECTENG 4020 1 credit UHF Oscillator Design
Scattering parameters, the Smith Chart, transistor characterization, device destabilization, lumped-element impedance matching, UHF CAD techniques, output power prediction, and transistor bias techniques.
Components: Lecture
Prereqs/Coreqs: P: ELECTENG 3020
ELECTENG 4040 4 credits Analog IC Design
Design of integrated electronic circuits such as operational amplifiers, oscillators, modulators, and A/D converters. (Spring, even-numbered years)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 2220 and ELECTENG 3020 and ELECTENG 3130
ELECTENG 4050 4 credits Advanced Analog Electronic Circuits
Design of discrete and integrated electronic circuits used in communication systems, such as oscillators, modulators, low-noise amplifiers, and class AB, B, and C power amplifiers. (Spring, odd-numbered years)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 2220 and ELECTENG 3020 and ELECTENG 3130
ELECTENG 4310 4 credits Modern Control Systems
State space modeling of systems, solution of state equations, controllability and observability, Lyapunov stability, minimum realization, and state feedback design. (Spring Odd Years)
Components: Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 3310 or MECHNCHL 4330
ELECTENG 4320 4 credits Digital Signal Processing
Discrete time systems, frequency response of linear time invariant systems, Z transforms, discrete Fourier transform, FFT. Design of FIR and IIR digital filters. (Spring Even Years)
Components: Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 2220 and COMPUTER 1430
ELECTENG 4350 4 credits Discrete Time Control Systems
Z-transforms, sampling theory, analysis and design of digital control systems. (Fall)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 3310
ELECTENG 4430 4 credits Power Electronics and Electrical Machines
DC machines and DC machine control; power electronic switches, converter systems: AC-to-AC, AC-to-DC, DC-to-DC, and DC-to-AC; harmonics, real and complex power in power electronic systems. (Fall Odd Years)
Components: Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 3020 and ELECTENG 3410
ELECTENG 4440 4 credits Electric Motor Drives
Theory and operation of modern AC electric motor drives, multiple reference frame theory for three-phase AC system, dynamic modeling of induction machines, operation of the fully controlled three-phase power converters, speed and torque control of induction motors, Voltage/Hertz control, permanent magnet synchronous motor drives, DC motor drives. (Fall Even Years)
Components: Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 3020 and ELECTENG 3310 and ELECTENG 3410
ELECTENG 4450 4 credits Power Systems Analysis and Design
Power systems modeling, load flow, economic dispatch, stability, fault analysis, computer simulation and systems analysis. (Spring)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 3410
ELECTENG 4610 4 credits Communication Systems
Analysis and design of amplitude, angle, and pulse code modulation systems. (Fall)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 2220 and ELECTENG 3020 and ELECTENG 3770
ELECTENG 4620 4 credits Optical Systems
Geometric and physical optics, lasers, light emitting diodes, optical detectors, optical signal processing, holography, nonlinear optics, integrated optics, optical fibers, optical communications systems. (Spring)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 3140, ELECTENG 3610 or ELECTENG 4610 and PHYSICS 3140 or consent of instructor
ELECTENG 4630 4 credits Advanced Communication Systems
Probability theory, random signals, performance and design of CW and pulse modulation systems, information and coding theory. (Fall by demand)
Components: Discussion, Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 4610
ELECTENG 4720 4 credits Microcomputer Architecture and Interfacing
Computer architecture including processor design, microprogrammed control, memory organization, interconnection structures, input/output, interfacitechniques, and parallel processing. (Spring)
Components: Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 3780
ELECTENG 4750 4 credits Advanced Digital Design
Introduction to semi-custom integrated circuit design; design methodology (design entry, simulation, cell placement, and macro libraries); optimization of designs based on macro libraries; design for testability; logic simulation; placement and routing algorithms for gate arrays and standard cells; PLA-based programmable logic devices; programmable gate arrays; design projects using CAD systems. (Fall)
Components: Laboratory, Lecture
Prereqs/Coreqs: P: ELECTENG 3140 and ELECTENG 3780; C: ELECTENG 3130
ELECTENG 4980 1 - 4 credits Current Topics in Engineering
In depth study of a current topic of interest to the engineering profession. The topic to be covered will be identified in the course title.
Components: Lecture
ELECTENG 4990 1 - 3 credits Independent Study
Advanced study in area of specialization selected by student and approved by faculty member.
Components: Independent Study