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Electrical & Computer Engineering, Faculty of Applied Science

ELEC: Electrical Engineering

ELEC 201 (4) Circuit Analysis I
The fundamentals of analysis of lumped linear time-invariant circuits; network theorems; operational amplifiers; first order circuits; DC analysis of diodes, BJT, and FET circuits. This course is not eligible for Credit/D/Fail grading. [4-2*-2*]
Prerequisite: MATH 101 and one of PHYS 102, PHYS 153, PHYS 158.
Corequisite: One of MATH 255, MATH 256, MATH 265.
ELEC 202 (4) Circuit Analysis II
Phasor analysis and AC three phase systems power; transfer functions; Bode plots; filters and resonance; Laplace transforms; transformers; two-port networks. First and second order circuits. This course is not eligible for Credit/D/Fail grading. [4-0-1]
Prerequisite: All of PHYS 153, MATH 101 and one of EECE 251, EECE 263, ELEC 201, ELEC 203.
Corequisite: One of MATH 255, MATH 256, MATH 265.
ELEC 203 (3) Basic Circuit Analysis
Ideal passive elements and sources; Kirchhoff's Laws; DC circuits; natural and complete response of first order circuits; operational amplifiers; impedance; phasors; complex power. Not open to students in Electrical and Computer Engineering. This course is not eligible for Credit/D/Fail grading. [3-2*-1]
Corequisite: One of MATH 255, MATH 256.
ELEC 204 (4) Linear Circuits
Basic concepts and analysis techniques in the context of electric and electronic circuits including Bode plots and the Laplace transform. Treatment of RLC circuits, phasors, op-amps. Introduction to nonlinear circuit elements, diodes, BJT, FET circuits. This course is not eligible for Credit/D/Fail grading. [4-0-1]
Prerequisite: MATH 152 and one of PHYS 102, PHYS 158, PHYS 153.
Corequisite: One of MATH 256, MATH 255.
ELEC 205 (1) Electronics Laboratory
Experiments involving electronic devices and circuits. This course is not eligible for Credit/D/Fail grading. [0-1-0; 0-1-0]
Corequisite: One of EECE 252, ELEC 204.
ELEC 211 (2) Engineering Electromagnetics
Electrostatics, electric currents, dielectrics, capacitance, electrostatic potential, magnetostatics. This course is not eligible for Credit/D/Fail grading. [2-0-1]
Prerequisite: One of MATH 263, MATH 253 and one of PHYS 102, PHYS 153, PHYS 158.
Corequisite: MATH 264.
ELEC 221 (4) Signals and Systems
Complex numbers, LTI systems, convolution sum, discrete-time Fourier series and transforms, z-transform, sampling, introduction to filtering and modulation, feedback systems, stability. This course is not eligible for Credit/D/Fail grading. [3-0-2]
Prerequisite: One of MATH 256, MATH 255.
ELEC 271 (1) Selected Topics in Biomedical Engineering
Effective communication in a multidisciplinary environment, introduction to emerging areas of biomedical engineering and biotechnology, ethics, and responsibility. Restricted to students admitted to the Biomedical Engineering program in Electrical Engineering. This course is not eligible for Credit/D/Fail grading. [1-0-0]
Corequisite: One of EECE 253, ELEC 202.
ELEC 281 (3) Technical Communication
Written and oral communication in engineering. Technical description, report preparation, business correspondence, and oral presentation of technical material. Restricted to students in second year of Electrical and Computer Engineering programs. Credit will be granted for only one of ELEC 281, CPEN 281, or APSC 201. This course is not eligible for Credit/D/Fail grading. [3-0-0]
Prerequisite: One of APSC 176, ENGL 110, ENGL 111, ENGL 112, ENGL 120, ENGL 121.
ELEC 291 (6) Electrical Engineering Design Studio I
Design projects involving electronic devices and circuits, electromagnetics, signals and systems, and microcomputers. This course is not eligible for Credit/D/Fail grading. [2-6-0]
Prerequisite: One of EECE 251, ELEC 201 and one of EECE 259, CPEN 211.
ELEC 292 (6) Biomedical Engineering Design Studio
Design projects involving electronic devices and circuits, electromagnetics, signals and systems, microcomputers with applications in biomedical engineering. Final group project requiring oral presentation of student-prepared slides. This course is not eligible for Credit/D/Fail grading. [2-6-0]
Corequisite: One of EECE 251, ELEC 201 and one of EECE 259, CPEN 211 and one of EECE 269, ELEC 221.
ELEC 301 (4) Electronic Circuits
Analysis and design of electronic circuits; biasing of and small-signal models for transistors; frequency response of amplifiers; feedback and stability aspects of amplifier design; OP-AMPs; active filters; oscillators; IC specification and selection. Credit will only be given for one of EECE 356, ELEC 301, and EECE 374. This course is not eligible for Credit/D/Fail grading. [4-0-0]
Prerequisite: Either (a) one of EECE 251, ELEC 201, EECE 263, ELEC 203 and one of EECE 253, ELEC 202; or (b) one of EECE 252, ELEC 204.
ELEC 302 (3) Electronic Circuits for Electromechanical Design
Semiconductor fundamentals; modelling of electronic devices including diodes and transistors; design of power supplies, waveform generators and logic circuits; signals in time and frequency domains; operational amplifiers; active filters; oscillators; device specification and selection. This course is not eligible for Credit/D/Fail grading. [3-2*-0]
Prerequisite: One of EECE 251, ELEC 201, EECE 263, ELEC 203, MECH 221.
ELEC 311 (4) Electromagnetic Fields and Waves
Waves and propagation; Maxwell's equations; applications including transmission lines; impedance matching and Smith charts; reflection and refraction; waveguides and antennas. This course is not eligible for Credit/D/Fail grading. [4-0-0]
Prerequisite: One of EECE 261, ELEC 211 and either (a) all of MATH 101, MATH 263, MATH 265, MATH 267 or (b) all of MATH 101, MATH 253, MATH 264, MATH 265, MATH 267 or (c) all of MATH 101, MATH 253, MATH 256, MATH 264.
ELEC 315 (4) Electronic Materials and Devices
Fundamental aspects of electronic materials such as: semiconductors, metals, dielectrics, piezoelectrics, magnetic materials, and their applications in devices such as diodes, transistors, and transducers. This course is not eligible for Credit/D/Fail grading. [4-0-0]
Prerequisite: One of EECE 261, ELEC 211, ENPH 253.
ELEC 321 (4) Stochastic Signals and Systems
Stochastic behaviour of signals and systems; discrete and continuous probability; random processes; modeling and identification of linear time-invariant systems; binary hypothesis testing and decision making. Credit will be granted for only one of ELEC 321 or STAT 357. This course is not eligible for Credit/D/Fail grading. [3-0-2]
Prerequisite: One of EECE 269, ELEC 221, STAT 305. STAT 305 may be taken concurrently, with registration assistance from Electrical and Computer Engineering Student Services.
Equivalency: STAT 321.
ELEC 331 (4) Computer Communications
Analysis, design and implementation of computer networks and their protocols. Application layer protocols, transmission control protocol (TCP), Internet protocol (IP), routing algorithms, reliable data transfer, multiple access, Ethernet. This course is not eligible for Credit/D/Fail grading. [3-0-2]
Prerequisite: One of EECE 269, ELEC 221, CPSC 261, EECE 359, EECE 315, CPEN 331.
ELEC 341 (4) Systems and Control
Continuous time system analysis by Laplace transforms; system modeling by transfer function and state space methods; feedback, stability and sensitivity; control design; frequency domain analysis. Credit will be granted for only one of EECE 360, ELEC 341 or EECE 369. This course is not eligible for Credit/D/Fail grading. [4-0-0]
Prerequisite: One of EECE 253, ELEC 202, ELEC 204, EECE 269, ELEC 221.
ELEC 342 (4) Electro-Mechanical Energy Conversion and Transmission
Three phase power; transformers and harmonics; magnetic materials and circuits, electromechanical energy conversion; DC machines; rotating magnetic field, AC induction and synchronous machines; variable frequency operation, brushless DC machines; stepper and single-phase motors. Credit will only be given for one of EECE 373, ELEC 342, and EECE 374. This course is not eligible for Credit/D/Fail grading. [3-3*-1]
Prerequisite: PHYS 170 and one of EECE 253, EECE 263, ELEC 202, ELEC 203.
ELEC 343 (3) Electromechanics
Electromechanical energy conversion; linear actuators; torque/speed of rotating devices; reluctance, stepper, permanent-magnet, induction, brushless-DC motors and DC motors; actuator/motor drive circuits/controllers. Credit will be granted for only one of EECE 365, ELEC 344, EECE 370, EECE 373, ELEC 342, EECE 374, EECE 376, or ELEC 343. This course is not eligible for Credit/D/Fail grading. [3-2*-0]
Prerequisite: One of EECE 253, ELEC 202, EECE 363, ELEC 302.
ELEC 344 (3) Applied Electronics and Electromechanics
Characteristics of semiconductor devices; analog circuits; force and torque production; motor principles and torque-speed characteristics; principles of power electronics. Not open to students in Electrical and Computer Engineering. This course is not eligible for Credit/D/Fail grading. [2-2*-2*]
Prerequisite: One of EECE 251, ELEC 201, EECE 263, ELEC 203, MECH 221.
ELEC 352 (4) Electric Energy Systems
Balanced and unbalanced three phase energy systems. Modeling of generators, transmission lines, transformers and loads. High voltage transmission, low voltage industrial and domestic distribution. This course is not eligible for Credit/D/Fail grading. [3-0-2]
Prerequisite: One of EECE 253, ELEC 202 and one of EECE 373, ELEC 342.
ELEC 361 (4) Molecules to Mechanisms
Forces, scaling, thermal, fluidic, and mechanical properties relevant to the design of emerging devices and systems whose basic structures are at micrometer and nanometer scales. This course is not eligible for Credit/D/Fail grading. [4-0-0]
Corequisite: EECE 360.
ELEC 371 (3) Biomedical Engineering Instrumentation
Theory and experiments involving instruments for general, orthopedic, cardiac and minimally invasive surgery as well as sensors for respiratory, cardiac, bioelectric, biochemical and nervous system measurement. Restricted to students admitted to the Biomedical Engineering option in Electrical Engineering. This course is not eligible for Credit/D/Fail grading. [3-1-0]
Prerequisite: Either (a) all of MATH 265, MATH 267 or (b) MATH 256; and one of MATH 253, MATH 263; and either (a) EECE 253 or (b) all of ELEC 202, EECE 259 or (c) all of CPEN 211, EECE 261 or (d) all of ELEC 211, EECE 282 or (e) ELEC 292.
ELEC 391 (6) Electrical Engineering Design Studio II
Introduction to project management. Problem definition. Design principles and practices. Implementation techniques including circuit design, software design, solid modeling, PCBs, assembling, and packaging. Testing and evaluation. Effective presentations. This course is not eligible for Credit/D/Fail grading. [2-6-0]
Prerequisite: One of CPEN 291, ELEC 291, ELEC 292, EECE 281 and two of EECE 352, ELEC 315, EECE 356, ELEC 301, EECE 359, EECE 360, ELEC 341, EECE 364, ELEC 311, EECE 373, ELEC 342.
ELEC 400 (1-8) d Topics in Electrical Engineering
Lectures or projects on subjects of current interest. This course is not eligible for Credit/D/Fail grading.
ELEC 401 (3) Analog CMOS Integrated Circuit Design
Design and analysis of analog integrated circuits, with emphasis on CMOS design techniques. Gain stages, opamp design, frequency compensation, oscillators, A/D, D/A converters, PLL, DLL. This course is not eligible for Credit/D/Fail grading. [3-0-1]
Prerequisite: One of EECE 356, ELEC 301, EECE 363, ELEC 302, EECE 374.
ELEC 402 (4) Introduction to VLSI Systems
Static CMOS combinational logic circuits. Standard cells design and layout. Memory element (flip-flop and latch) design. Dynamic logic families. Synchronous logic and timing analysis. Power, scaling, and industry trends. Verification. VHDL/Verilog design, layout and synthesis project using CAD tools. This course is not eligible for Credit/D/Fail grading. [3-0-2]
Prerequisite: One of EECE 353, CPEN 311.
ELEC 403 (3) Advanced Digital VLSI Systems
Logical effort. Noise in digital systems. Low power techniques. Power distribution. SRAM and DRAM design. Non-volatile memory technologies. High speed adder, multiplier and divider design. Clock Trees. Synchronization and FIFO. Scaling, and industry trends. High-speed circuit design and layout project. This course is not eligible for Credit/D/Fail grading. [3-0-0]
Prerequisite: One of ELEC 402, EECE 479.
ELEC 404 (3) RF Integrated Circuits
Introduction to radio-frequency (RF) communication systems; matching networks, transceiver architectures, low noise amplifiers, mixers, oscillators, etc. This course is not eligible for Credit/D/Fail grading. [3-0-1]
Prerequisite: One of ELEC 221, EECE 359, EECE 369.
Corequisite: One of EECE 488, ELEC 401.
ELEC 411 (3) Antennas and Propagation
Basic antenna concepts; antennas for low, medium and high frequencies; terrestrial and satellite propagation links; environmental effects on electromagnetic radiation. This course is not eligible for Credit/D/Fail grading. [2-0-2]
Prerequisite: One of EECE 364, ELEC 311, PHYS 301, PHYS 354.
ELEC 412 (3) Optical Waveguides and Photonics
Planar dielectric waveguides; single mode optical fibers; integrated optics waveguides and devices; semiconductor lasers; optical detectors; optical communications links. This course is not eligible for Credit/D/Fail grading. [2-0-2]
ELEC 413 (3) Semiconductor Lasers
An introduction to lasers and applications. Theory, modeling, fabrication and performance of semiconductor lasers. Optical communications links. This course is not eligible for Credit/D/Fail grading. [3-0-0]
ELEC 415 (3) Semiconductor Devices: Physics, Design and Analysis
Physics of operation, and design and analysis of semiconductor devices of topical interest, e.g., solar cells, LEDs, high-speed MOSFETs, high-frequency HBTs, low-noise HEMTs. This course is not eligible for Credit/D/Fail grading. [3-0-0]
Prerequisite: One of EECE 352, ELEC 315, PHYS 304.
ELEC 416 (3) Quantum Dots and Device Applications
Theory and modeling techniques of 0-dimensional structures. Electronic, magnetic, and optical properties of quantum dots. Current and future applications of quantum dots including: single electron transistors, quantum dot lasers, optical detectors. This course is not eligible for Credit/D/Fail grading. [3-0-0]
ELEC 421 (3) Digital Signal and Image Processing
DSP fundamentals; image processing; signal representation; digital filtering; statistical estimation; DSP applications. This course is not eligible for Credit/D/Fail grading. [2-0-2]
Prerequisite: One of EECE 269, ELEC 221, EECE 359, EECE 369.
ELEC 422 (3) Biosignals and Systems
Data acquisition, time and frequency domain analysis, analog and discrete filter design, sampling theory, time-dependent processing, linear prediction, random signals, biomedical system modeling, and stability analysis; introduction to nonlinear systems. This course is not eligible for Credit/D/Fail grading. [3-0-0]
Prerequisite: One of EECE 331, ELEC 371 and one of EECE 360, ELEC 341 and one of EECE 269, ELEC 221, EECE 359 and one of CPSC 260, CPSC 259 and one of STAT 251, MATH 318, MATH 302, STAT 302.
ELEC 431 (3) Communication Systems I
Review of probability theory, signals and noise; digital communication over Gaussian noise channels, optimal receiver design, modulation techniques and error performance calculations; measure of information, source coding, symbol and stream codes; channel coding, capacity, simple linear block codes; practical applications. This course is not eligible for Credit/D/Fail grading. [3-0-0]
Prerequisite: One of EECE 269, EECE 359, ELEC 221 and one of EECE 357, ELEC 321, MATH 302, MATH 318, STAT 251, STAT 302, STAT 357.
ELEC 432 (3) Communication Systems II
Communication over bandlimited additive white Gaussian noise channels; power spectra of digitally modulated signals; intersymbol interference; cyclic, convolutional, low-density parity check and turbo codes; trellis coded modulation; spread spectrum techniques; security; wireless communication systems and standards; practical applications. This course is not eligible for Credit/D/Fail grading. [3-0-0]
Prerequisite: One of EECE 453, ELEC 431.
ELEC 433 (3) Error Control Coding for Communications and Computers
Design techniques, including Hamming, BCH, Reed-Solomon, LDPC and convolutional codes, ARQ techniques, and LFSR implementation of encoding-decoding algorithms. This course is not eligible for Credit/D/Fail grading. [3-0-0]
ELEC 434 (3) Introduction to Optical Networks
Wavelength division multiplexing, framing techniques, traffic grooming, virtual topology design, routing and wavelength assignment, protection and restoration, optical packet switching. This course is not eligible for Credit/D/Fail grading. [3-0-0]
Prerequisite: One of EECE 269, ELEC 221, EECE 359, EECE 369.
ELEC 441 (3) Control Systems
Relationships between system parameters and system responses for linear control systems. Design specifications for dynamic and steady-state performance and realization by use of feedback control. Robust design of PID controllers and multivariable controllers. This course is not eligible for Credit/D/Fail grading. [3-0-0]
Prerequisite: One of EECE 360, ELEC 341.
ELEC 442 (3) Introduction to Robotics
Common manipulator configurations, actuator and sensor technology. Efficient representations and computational methods for real-time microprocessor-based implementation of robot control algorithms. Robot control methods, network equivalents, impedance control. Introduction to teleoperation implementation aspects. This course is not eligible for Credit/D/Fail grading. [2-0-2]
Prerequisite: PHYS 170.
ELEC 451 (4) Power Electronics
Power diodes, thyristors, transistors and FETs; analysis of idealized circuits with generalized loads; AC-DC, DC-DC, DC-AC, AC-AC converters, modulation techniques, gating circuits; practical design and applications. This course is not eligible for Credit/D/Fail grading.
Prerequisite: One of EECE 356, EECE 365, ELEC 301, ELEC 344, EECE 373, ELEC 342.
ELEC 452 (3) Industrial Drives
Typical mechanical loads; dynamic and static characteristics and analysis of DC and AC drives; microprocessor-based controllers; commercial choices of drives for various applications. This course is not eligible for Credit/D/Fail grading.
Prerequisite: One of EECE 373, ELEC 342, EECE 376, ELEC 343.
ELEC 453 (4) Power System Analysis
Transmission and distribution; phasors, complex power; balanced/unbalanced three-phase operation; symmetrical components, sequence networks; voltage regulation; short circuit capacity; circuit breakers; transmission lines, series/shunt impedance; short, medium, and long line models. This course is not eligible for Credit/D/Fail grading.
Prerequisite: One of EECE 373, ELEC 342.
ELEC 454 (4) Power System Analysis II
Power system monitoring/control; large networks; automatic generation control; optimum power flow calculations; traveling wave transmission lines; EMTP and MATLAB programs for transients, short-circuit, and transient stability analysis. This course is not eligible for Credit/D/Fail grading. [3-0-2]
Prerequisite: One of EECE 458, ELEC 453.
ELEC 455 (3) Power Systems Protection
Analysis of disturbances, security of power systems, cascading and blackouts; role and impact of protection; transducers and measuring elements; protection of transmission and distribution systems; protection of generators, substation equipment, special protection systems and relays. This course is not eligible for Credit/D/Fail grading. [3-0-0]
Prerequisite: One of EECE 458, ELEC 453 and one of EECE 373, ELEC 342, EECE 374.
ELEC 456 (3) Decision Support Methods in Power Systems Operation
Principles; acceptable regions of operation; energy management systems; load flow methods; static and dynamic security; contingency analysis; transient and voltage stability; on-line stability assessment. This course is not eligible for Credit/D/Fail grading. [3-0-0]
ELEC 457 (3) Optimization of Power System Operation
Application of linear and nonlinear optimization methods in power systems; constrained optimization; optimal power flow; economic dispatch; electricity market; local prices for active and reactive power; security-constrained OPF; state estimation, reliability analysis. This course is not eligible for Credit/D/Fail grading. [3-0-0]
ELEC 461 (3) Nanotechnology in Electronics
Topics of special importance to understanding and designing electronic devices in which quantum effects and the discrete nature of matter become important. This course is not eligible for Credit/D/Fail grading. [3-0-0]
Prerequisite: One of CHEM 312, EECE 352, ELEC 315, PHYS 250, PHYS 304.
Corequisite: One of APSC 201, MTRL 478.
ELEC 462 (3) Sensors and Actuators in Microsystems
The mechanisms, design, fabrication, and testing of microsensors, actuators, and microelectromechanical systems (MEMS). This course is not eligible for Credit/D/Fail grading. [3-0-0]
ELEC 463 (3) Micro/Nanofabrication and Instrumentation Laboratory
Microfabrication methods and nanofabrication techniques. Imaging and characterization of micro and nanostructures. Restricted to students admitted to the Nanotechnology and Microsystems Option in Electrical Engineering. This course is not eligible for Credit/D/Fail grading. [2-4-0]
ELEC 464 (3) Nanotechnology and Nature
Examples of nature's fabrication methods, sensors, actuators, energy harvesting, signaling and information processing, and comparisons with artificial methods. This course is not eligible for Credit/D/Fail grading. [3-0-0]
ELEC 465 (3) Microsystems Design
Structured modeling and design practices; multiphysics at microscales; physical limitations in MEMS; interface with electronics; behavioural modeling languages for mixed analog-digital system design. Credit will only be given for one of EECE 489, ELEC 465, or EECE 581. This course is not eligible for Credit/D/Fail grading. [3-0-0]
ELEC 471 (3) Medical Imaging
Physical principles of ultrasound, magnetic resonance, computed tomography, X-ray projection imaging and molecular imaging in medical imaging for diagnostics, therapeutics, and interventions. This course is not eligible for Credit/D/Fail grading. [3-0-0]
Prerequisite: One of EECE 331, ELEC 371 and one of EECE 360, ELEC 341 and one of EECE 364, ELEC 311 and one of EECE 269, ELEC 221, EECE 359.
Equivalency: BMEG 390..
ELEC 472 (3) Biomechatronics
Design of mechatronic systems to measure and manipulate biological materials and processes; compliant structures; bioelectronic circuits; biomedical embedded systems and BioMEMS. Example applications from clinical medicine and biomedical research. Credit will be granted for only one of MECH 423 or EECE 424. This course is not eligible for Credit/D/Fail grading. [2-0-0]
Prerequisite: One of EECE 251, ELEC 201 and one of EECE 253, ELEC 202 and one of EECE 259, CPEN 211 and one of EECE 360, ELEC 341.
ELEC 473 (3) Biological Micro-Electro-Mechanical Systems
Principles of sensors, actuators, microfluidics, biotechnology and nanotechnology, with applications in probing, detection, assaying and drug delivery. This course is not eligible for Credit/D/Fail grading. [3-0-0]
ELEC 474 (3) Biophotonics
Lens theory, light sources and detectors, image resolution and contrast, tissue absorption and scattering, fluorescence, microscopy, spectroscopy, optical imaging systems, and their applications to life sciences and medicine. This course is not eligible for Credit/D/Fail grading.
ELEC 481 (3) Economic Analysis of Engineering Projects
Time-money relationships; economic analysis of alternatives including the effects of interest rates, inflation, depreciation, taxation and uncertainty; cost estimation and budgeting; financial analysis of engineering operations. This course is not eligible for Credit/D/Fail grading. [3-0-0]
ELEC 491 (10) Electrical Engineering Capstone Design Project
Design, analysis, and implementation of solutions in response to a real world electrical engineering problem, provided by industry, research laboratories, or other suitable entities. Includes coverage of topics such as project management. This course is not eligible for Credit/D/Fail grading. [2-6-0; 2-6-0]
Prerequisite: One of ELEC 391, EECE 380.
ELEC 492 (10) Electrical Energy Systems Capstone Design Project
Design, analysis, and implementation of solutions in response to a real world electrical energy systems problem, provided by industry, research laboratories, or other suitable entities. Includes coverage of topics such as project management. This course is not eligible for Credit/D/Fail grading. [2-6-0; 2-6-0]
Prerequisite: One of ELEC 391, EECE 380.
ELEC 493 (10) Nanotechnology and Microsystems Capstone Design Project
Design, analysis, and implementation of solutions in response to a real world nanotechnology and microsystems engineering problem. Projects are provided by industry, research laboratories, or other suitable entities. Includes coverage of topics such as project management. This course is not eligible for Credit/D/Fail grading. [2-6-0; 2-6-0]
Prerequisite: One of ELEC 391, EECE 380.
ELEC 494 (10) Biomedical Engineering Capstone Design Project
Design, analysis, and implementation of solutions in response to a real world biomedical engineering problem, provided by industry, research laboratories, or other suitable entities. Includes coverage of topics such as project management. This course is not eligible for Credit/D/Fail grading. [2-6-0; 2-6-0]
Prerequisite: One of ELEC 391, EECE 380.
ELEC 499 (3/6) c Undergraduate Thesis
Project in electrical engineering or computer engineering involving design, experimental and/or computer simulation work as selected from topics supplied by faculty members. An individual project thesis is to be prepared according to specifications available from the departmental office. This course is not eligible for Credit/D/Fail grading. [0-6-0] or [0-12-0]

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