ELECTRICAL ENGINEERING
ELECTRICAL ENGINEERING
ELG2136 |
Electronics I |
(3,1.5,3b) 3 cr. |
Analog and digital signals. Basic amplifier concepts. Ideal operational amplifiers - analysis and applications. Physics of semiconductors. Diodes: operation, models and application circuits. Bipolar Junction Transistors - operation and characteristics. DC and AC circuit models. Basic single-stage BJT amplifier configurations. Field-Effect Transistors: Structure and physical operation, bias circuits, small-signal equivalent circuits and basic amplifiers. Basic concepts of digital logic circuits. The BJT inverter. The CMOS Inverter. Propagation delay of the CMOS inverter. CMOS gates and other digital circuits. |
Prerequisite: ELG2138. |
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ELG2137 |
Circuit Theory II |
(3,1.5,3b) 3 cr. |
Forced and natural responses of RL, RC and RLC circuits using the differential equation approach. Transient circuit analysis using unilateral Laplace transforms. Two-port networks and parameters. Mutual inductance and the ideal transformer. Transfer functions. Frequency response of simple filters. Fundamentals of computer-aided circuit simulation. The measurement of sinusoidal and non-sinusoidal electrical quantities in analogue and digital circuits. Introduction to sensors and instrumentation amplifiers. The measurement of non-electrical quantities. |
Prerequisites: ELG2138 and MAT2384 |
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ELG2138 |
Circuit Theory I |
(3,1.5,3b) 3 cr. |
DC and sinusoidal steady state (AC) analysis of circuits. Basic passive circuit elements (resistors, capacitors, inductors). Voltage and current sources. Kirchoff laws. Loop and nodal analysis. Circuit theorems: Superposition, Maximum power transfer, Thevenin, Norton. Sinusoidal signals, complex numbers, phasors and impedance concepts. Average and RMS quantities. Steady state time-domain behaviour of inductors and capacitors, and energy storage. Complex, average and apparent power. Resonant circuits. Introduction to the use of electrical measurement equipment such as voltmeters, ammeters, wattmeters, function generators and oscilloscopes. Voltage, current and impedance measurement. |
Prerequisites: ITI1100, MAT1341 and MAT1322 |
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ELG2336 |
Electric Circuits and Machines for Mechanical Engineering |
(3,0,1) 3 cr. |
Network theorems. Forced and transient response to deterministic inputs. Sinusoidal steady-state response of circuits. Magnetic theory and circuits. Transformers. Electromechanical energy conversion. Introduction to AC circuits, three phase power. DC machines, AC machines, torque-speed curves and efficiency. Laboratory experiments. |
Prerequisite: PHY1122. Corequisite: MAT2384. |
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ELG2536 |
�lectronique I |
(3,1.5,3b) 3 cr. |
Signaux analogiques et num�riques. Concepts fondamentaux d'amplificateur. Amplificateurs op�rationnels id�aux - analyse et applications. Physique des semi-conducteurs. Diodes: op�ration, circuits �quivalents et applications. Transistors � jonctions bipolaires (BJT) - op�ration et caract�ristiques. Circuits �quivalents c.c. et c.a.. configurations d'amplificateurs BJT � un �tage. Transistors � effet de champ (FET): structure et fonctionnement physique, circuits de polarisation, circuits �quivalents � faible signal et configurations d'amplificateurs de base. Concepts fondamentaux de circuits logiques. Inverseur BJT. Inverseur CMOS. D�lai de propagation de l'inverseur CMOS. Portes logiques CMOS et autres circuits num�riques. |
Pr�alable : ELG2538. |
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ELG2537 |
Th�orie des Circuits II |
(3,1.5,3b) 3 cr. |
R�ponses naturelles et forc�es de circuits RL, RC et RLC en utilisant l approche par �quations diff�rentielles. Analyse transitoire de circuits par la transform�e de Laplace unilat�rale. Circuits � deux portes et leurs param�tres. Inductance mutuelle et transformateur id�al. Fonctions de transfert. R�ponse en fr�quence de filtres simples. Fondements de la simulation de circuit assist�e par ordinateur. Mesures de grandeurs sinuso�dales et non sinuso�dales dans les circuits analogiques et num�riques. Introduction aux capteurs et amplificateurs pour instrumentation. Mesures de grandeurs non �lectriques. |
Pr�alables: ELG2538 et MAT2784 |
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ELG2538 |
Th�orie des circuits I |
(3,1.5,3b) 3 cr. |
Analyse en r�gime permanent de circuits en courant continu et en courant alternatif. �l�ments passifs de base des circuits (r�sistances, capacit�s, inductances). Sources de tension et courant. Lois de Kirchhoff. Analyse � l'aide des m�thodes des mailles et des noeuds. Th�or�mes pour les circuits : Superposition, transfert maximal de puissance, Th�venin, Norton. Signaux sinuso�daux, nombres complexes, notions de phaseurs et imp�dances. Grandeurs moyennes et efficaces. Comportement des inductances et capacit�s en r�gime permanent et stockage d �nergie. Puissance complexe, moyenne et apparente. Circuits r�sonants. Introduction � l utilisation d �quipement de mesures �lectriques tels que les voltm�tres, amp�rem�tres, g�n�rateurs de fonctions et oscilloscopes. Mesures de courant, tension et imp�dance. |
Pr�alables: ITI1500, MAT1741 et MAT1722 |
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ELG2736 |
Circuits et machines �lectriques pour ing�nieurs en m�canique |
(3,0,1) 3 cr. |
Th�or�mes de r�seaux. R�ponse transitoire et r�ponse forc�e pour excitations d�terministes. R�gime sinuso�dal permanent des circuits. Th�orie et circuits magn�tiques. Transformateurs. Conversion �lectromagn�tique de l'�nergie. Introduction aux circuits en c.a. et � la puissance triphas�e. Moteurs � c.c., moteurs � c.a., courbes couple-vitesse et efficacit�. Exp�riences au laboratoire. |
Pr�alable : PHY1522. Concomitant : MAT2784. |
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ELG2901 |
Rapport de stage coop I / Co-op Work Term Report I |
3 cr. |
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ELG2911 |
Pratique professionnelle en ing�nierie et technologie de l'information / Professional Practice in Information Technology and Engineering |
(3,0,0) 3 cr. |
History of the profession of engineering. Principles of professional engineering practice. Ethical, societal, environmental and legal obligations of the professional engineer. Communication and management skills required by the practicing engineer. Workplace health and safety. |
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ELG3106 |
Electromagnetic Engineering |
(3,1.5,3b) 3 cr. |
Transmission lines: time and space dependance of signals, line parameters, input impedance, use as circuit elements, reflection coefficient, standing-wave ratio, transient behaviour. Impedance matching: transformers, stubs, analysis using the Smith Chart. Maxwell's and wave equations. Electromagnetic waves: TEM, TE, TM propagation. Waveguides: basic equations, parallel plate guide, rectangular guide. Introduction to antennas. Applications to communications and radar systems. |
Prerequisites: MAT2322, MAT2384, PHY2323. |
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ELG3125 |
Signal and System Analysis |
(3,1.5,3b) 3 cr. |
Continuous-time and discrete-time signals. Mathematical description of systems. Properties of systems. Convolution and impulse response of continuous and discrete time LTI systems. Fourier series of periodic continuous and discrete time signals. Decomposition and approximation of signals by orthogonal functions. The Fourier transform of continuous and discrete time signals. Frequency response of systems. Frequency selective filtering. First and second order systems. Sampling and interpolation of continuous-time signals. LTI system analysis with Laplace transforms. |
Prerequisite: ELG2138. |
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ELG3126 |
Random Signals and Systems |
(3,1.5,3b) 3 cr. |
Probabilistic models, conditional probability and Bayes' rule; vectors of random variables, distributions and density functions, expectations and characteristic functions. Independence, Laws of Large Numbers, Central-Limit Theorem. Random process concepts. Random signal analysis concepts. Applications drawn from power systems, analog and digital circuits, communication systems and manufacturing. |
Prerequisites: ELG3125 The course cannot be combined for credit with MAT2377. |
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ELG3136 |
Electronics II |
(3,1.5,3b) 3 cr. |
Differential Amplifiers: BJT, MOS, BiCMOS, GaAs. Multistage Amplifiers: Frequency Response: s-Domain analysis, amplifier transfer function, frequency response of CS, CE, CB, cascode, CC and cascaded amplifiers. Feedback: general feedback structure and basic feedback topologies. Output Stages and Power Ampliffiers: Class A, B and AB output stages. IC and MOS power amplifiers. Bipolar and Advanced Technology Digital Circuits: TTL, ECL, BiCMOS Digital Circuits, GaAs Digital Circuits. |
Prerequisite: ELG2136. |
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ELG3155 |
Introduction to Control Systems |
(3,1.5,3b) 3 cr. |
Introduction to control systems, mathematical models of systems, Laplace transforms, partial fraction methods. Block diagram and signal flow graph models, transfer functions of linear systems. Introduction to state-space models. Feedback control system characteristics, stability and tracking, the root locus method, design of industrial controllers, conformal mapping, the Nyquist stability criterion, Bode plots, design indexes, lead and lag controllers. |
Prerequisite: ELG3125 |
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ELG3175 |
Introduction to Communication Systems |
(3,1.5,3b) 3 cr. |
Review of linear systems, the sampling theorem, and Fourier analysis. Noiseless analysis of the linear modulation schemes: double sideband, inphase-quadrature, single sideband, vestigial sideband and conventional AM. Superheterodyne receivers. Angle modulation: phase modulation, and frequency modulation. Carson's rule. Discriminator and phase-locked loop detection of FM. Basic digital modulation techniques: ASK, PSK, FSK. Bandwidth requirements of PAM (Nyquist's criterion). Pulse code modulation and companding. Introduction to error control coding and to information theory. |
Prerequisite: ELG3125 |
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ELG3316 |
Electric Machines and Power Systems |
(3,1.5,3) 3 cr. |
Machinery principles. Three-phase systems, transformers, introduction to power electronics. AC machinery fundamentals, synchronous generators, synchronous motors, induction motors. DC machinery fundamentals, dc motors and generators, electric utility power sy stems, special-purpose motors, single-phase induction motors. |
Prerequisites: ELG2138, ELG2136 |
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ELG3336 |
Electronics for Mechanical Engineers |
(3,0,1.5) 3 cr. |
Semiconductor device characteristics and applications. Power supplies and regulators. Operational amplifiers and applications. Power amplifiers. Digital logic. Gates and gate circuits. Logic families. Combinational logic. Introduction to electronics for measurement and instrumentation. Introduction to power electronics. Laboratory experiments. |
Prerequisite: ELG2336. |
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ELG3506 |
�lectromagn�tisme appliqu� |
(3,1.5,3b) 3 cr. |
Lignes de transmission: variation des signaux en fonction du temps et de la position, param�tres des lignes, imp�dance d'entr�e, emploi comme �l�ments de circuit, coefficient de r�flexion, rapport d'ondes stationnaires, r�gime transitoire. Adaptation d'imp�dances: transformateurs, bras r�actifs, analyse avec l'abaque de Smith. �quations de Maxwell et d'ondes. Ondes �lectromagn�tiques: propagation TEM, TE, TM. Guides d'ondes: �quations de base, guide � plaques parall�les, guide rectangulaire. Introduction aux antennes. Applications aux syst�mes de communication et de radar. |
Pr�alables : MAT2722, MAT2784, PHY2723. |
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ELG3525 |
Analyse des signaux et des syst�mes |
(3,1.5,3b) 3 cr. |
Signaux en temps continu et en temps discret. Description math�matique des syst�mes. Propri�t�s des syst�mes. Convolution et r�ponse impulsionnelle des syst�mes lin�aires continus et discrets. S�ries de Fourier des signaux p�riodiques en temps continu et discret. D�composition et approximation des signaux en fonctions orthogonales. Transform�e de Fourier des signaux continus et discrets. R�ponse en fr�quence des syst�mes. Filtrage s�lectif en fr�quence. Syst�mes du premier et du second ordre. �chantillonnage et interpolation des signaux continus dans le temps. Analyse des syst�mes lin�aires avec la transform�e de Laplace. |
Pr�alable : ELG2538. |
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ELG3526 |
Signaux et syst�mes al�atoires |
(3,1.5,3b) 3 cr. |
Mod�les probabilistes, probabilit� conditionnelle et r�gle de Bayes: vecteurs de variables al�atoires, fonction de densit� de probabilit� et fonction de r�partition, esp�rance math�matique et fonction caract�ristique. Ind�pendance, lois des grands nombres, th�or�me de la limite centrale. Concept de processus al�atoire. Analyse de signaux al�atoires. Exemples tir�s des syst�mes � grande puissance, des circuits analogiques et num�riques, des syst�mes de t�l�communication et de manufacture. |
Pr�alables : ELG3525. Ne peut �tre combin� avec MAT2777 pour des cr�dits. |
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ELG3536 |
Electronique II |
(3,1.5,3b) 3 cr. |
Amplificateurs diff�rentiels: BJT, MOS, BiCMOS, GaAs. Amplificateurs � plusieurs �tages. R�ponse en fr�quence: analyse fr�quentielle, fonction de transfert d'un amplificateur, r�ponse en fr�quence des amplificateurs CS, CE, CB, cascode, CC et en cascade. Contre-r�action: Topologies g�n�rales des syst�mes de contre-r�action. �tages de sortie et amplificateurs de puissance: amplificateur de classe A, B et AB. Amplificateurs de puissance MOS et CI. Circuits num�riques � jonctions bipolaire et de technologie avanc�e: TTL, ECL, BiCMOS, GaAs. |
Pr�alable : ELG2536. |
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ELG3555 |
Introduction aux syst�mes d'asservissement |
(3,1.5,3b) 3 cr. |
Introduction aux syst�mes d asservissement, mod�les math�matiques de syst�mes, transform�es de Laplace, m�thodes de fractions partielles. Mod�les de sch�ma-bloc et graphes de fluence, fonctions de transfert de syst�mes lin�aires. Introduction aux mod�les d �tat, caract�ristiques des syst�mes d'asservissement � r�troaction, stabilit� et ajustement, m�thode du lieu des racines, conception des asservissements industriels, transformations conformes. Crit�re de stabilit� de Nyquist, trac�s de Bode, indices de conception, asservissements avec avance et retard. |
Pr�alable : ELG3525. |
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ELG3575 |
Introduction aux syst�mes de t�l�communications |
(3,1.5,3b) 3 cr. |
Revue des syst�mes lin�aires, th�or�me d'�chantillonnage et analyse de Fourier. Analyse des m�thodes de modulation lin�aire en l'absence de bruit: bandes lat�rales uniques, doubles, r�siduelles, en quadrature de phase et modulations AM avec porteuse. R�cepteurs superh�t�rodynes. Modulation angulaire de phase et de fr�quence. R�gle de Carson. D�modulation de fr�quence par discriminateur et circuit de verrouillage de phase. Techniques de base en modulation num�rique: ASK, PSK, FSK. Largeur de bande requise pour PAM (crit�re de Nyquist). Modulation par impulsions et codage, compression-extension. Introduction au contr�le d'erreur par codage et � la th�orie de l'information. |
Pr�alable : ELG3525 |
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ELG3716 |
Machines �lectriques et syst�mes d'alimentation �lectrique |
(3,1.5,3b) 3 cr. |
Principes des machines �lectriques. Syst�mes triphas�s, transformateurs, introduction � l �lectronique de puissance. Fondements des �quipements � courant alternatif, g�n�rateurs synchrones, moteurs synchrones, moteurs � induction. Fondements des �quipements � courant continu, g�n�rateurs et moteurs � courant continu, syst�mes d �nergie �lectrique polyvalents, moteurs pour applications sp�ciales, moteurs � induction monophas�s. |
Pr�alables : ELG2538, ELG2536. |
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ELG3736 |
�lectronique pour ing�nieurs en m�canique |
(3,0,1.5) 3 cr. |
Caract�ristiques des dispositifs � semiconducteurs et leurs applications. Blocs d'alimentation et r�gularisateurs de tension. Amplificateurs op�rationnels et leurs applications. Amplificateurs de puissance. Circuits logiques. Portes et circuits de porte. Familles de dispositifs logiques. Logique combinatoire. Introduction � l'�lectronique en mesure et en instrumentation. Introduction � l'�lectronique de puissance. Exp�riences de laboratoire. |
Pr�alable : ELG2736. |
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ELG3901 |
Rapport de stage coop II / Co-op Work Term Report II |
3 cr. |
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ELG3902 |
Rapport de stage coop III / Co-op Work Term Report III |
3 cr. |
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ELG4114 |
Antennas and Propagation |
(3,1.5,3b) 3 cr. |
Antenna fundamentals. Radiation integrals. Dipole and loop antennas. Microstrip antennas. Source equivalence principles. Aperture antennas. Reflector antennas. Array antennas. Antenna measurements. Introduction to the use of computational electromagnetics in antenna analysis & design. Modelling of wave propagation. |
Prerequisite: ELG3106. |
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ELG4115 |
Microwave Circuits |
(3,1.5,3b) 3 cr. |
Review of transmission line theory and the Smith Chart. Microstrip transmission lines. Network parameter description of microwave circuits (S, Z,Y, ABCD parameters). Impedance transformation and matching netwo ks. Stability, gain and noise considerations. Microwave amplifier and oscillator design. Passive 2, 3, and 4 port microwave networks. Attenuators, couplers, power dividers, circulators, isolators. Computer-aided design of microwave circuits. |
Prerequisites: ELG3106, ELG3136. |
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ELG4116 |
Microwave and Optical Transmission Media |
(3,1.5,3b) 3 cr. |
Review of distributed circuit theory. ABCD and scattering parameters. The equivalent circuit description of lumped and distributed circuit components, and of discontinuities and junctions in waveguiding structures. Review of Maxwell's equations, Poynting's theorem and boundary conditions. Plane waves at a single dielectric interface. Plane waves incident on a dielectric stack (bandgap structures, Bragg reflectors). Rectangular and circular metallic waveguides. Dielectric slab waveguides and introduction to integrated optics. Resonators. Optical fibers and fiber devices. |
Prerequisite: ELG3106. |
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ELG4117 |
Optoelectronics and Optical Components |
(3,1.5,3b) 3 cr. |
Wave-Particle duality of light. Interaction of light with matter. Review of semiconductor physics and introduction to optoelectronics. Gener ation of optical energy: light emitting diodes and lasers. Detection of optical energy: photoconductors, PIN and avalanche photodiodes. Introduction to electro-optics. Control of optical radiation: modulation and switching of light. |
Prerequisites: ELG3106, ELG3136. Corequisite: ELG4116. |
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ELG4121 |
Topics in Electrical Engineering II |
(3,1.5,3b) 3 cr. |
Topics in Electrical Engineering II |
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ELG4122 |
Topics in Electrical Engineering I |
(3,1.5,3b) 3 cr. |
Topics in Electrical Engineering I |
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ELG4137 |
Principles and Applications of VLSI Design |
(3,1.5,3b) 3 cr. |
Introduction to VLSI technology. Electrical properties of NMOS and CMOS transistors. NMOS subsystem design and layout. Subsystem design and layout using simple static, complex static, and dynamic domino CMOS lo gic circuits. Designs of NMOS and CMOS PLA, finite state machines and memory systems. System designs using BiCMOS technology, GaAs technology, gate arrays and Field-Programmable Gate Arrays. |
Prerequisite: ELG2136 |
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ELG4139 |
Electronics III |
(3,1.5,3b) 3 cr. |
The operational amplifier - characterization and design. Offsets and offset compensation. Frequency related characteristics of amplifiers, loop gain, stability, frequency compensation. Active filters. Signal generators and waveform shaping circuits. Linear and non-linear circuits applications. Digital applications. |
Prerequisites: ELG3136, ELG3155. |
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ELG4156 |
Linear Systems |
(3,1.5,3b) 3 cr. |
Classification of finite dimensional systems, system and model properties, linearized small-signal models. Solution of state space equations, free and forced responses, weighting sequences, convolutions, system response from transfer matrix. Writing state space equations. Review of matrix algebra, the normal form, the Cayley-Hamilton theorem, the Ho algorithm. Similarity transformation, invariance of the external behaviour, diagonalization. Stability of LTI systems, the Lyapunov second method. Controllability, observability, the Kalman canonical decomposition. The Smith-McMillan form, computation of poles and zeroes. |
Prerequisites: ELG3125, ELG3155. |
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ELG4157 |
Modern Control Engineering |
(3,1.5,3b) 3 cr. |
Review of State space modeling concepts, controllability, observability, poles and zeros. Minimal realizations. State and output feedback, spectral assignability, pole placement techniques, full and reduced order observers, separation principle, compensator design using observers. Introduction to optimal control, linear quadratic problem, algebraic Riccati equations, Kalman filtering. Introduction to nonlinear control. Applications to fuzzy systems, neural networks, genetic algorithms, and chaotic systems. |
Prerequisite: ELG3155. |
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ELG4159 |
Integrated Control Systems |
(3,1.5,3b) 3 cr. |
Sensor and Actuator Modeling. Dynamic Systems Modeling and Simulation. Interfacing Techniques. Microcontroller Technologies. Design of Integrated Control Systems. Micro-Electromechanical System (MEMS) and Nano-Electromechanical System (NEMS) Modeling. |
Prerequisites: ELG3125, ELG3155, ELG3316 |
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ELG4176 |
Communication Systems |
(3,1.5,3b) 3 cr. |
Review of random signals and system concepts, and modulation and detec tion. Basic antenna equations. SNR link calculations. Analysis of l inear modulation in the presence of noise. Analysis of angle modula tion in the presence of noise. The threshold effect, threshold extens ion, and preemphasis and deemphasis in angle modulation. Digital modu lation techniques. Detection principles for digital communication sig nals in noise: matched filter receivers, signal space concepts, maximu m a posteriori receivers, maximum likelihood receivers. Partial respo nse signalling. Channel coding. Coherent and noncoherent detection. Maximum likelihood sequence estimation receivers for modulation with memory and the Viterbi algorithm. Channel capacity. |
Prerequisites: ELG3175, ELG3126. |
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ELG4177 |
Digital Signal Processing |
(3,1.5,3b) 3 cr. |
Review of discrete-time signals and systems, the sampling theorem, and Fourier series/transforms. Sampling rate conversions. A/D and D/A conversions. Z-transform and LTI system analysis. Minimal, maximal and mixed phase systems. Discrete Fourier Transform and Fast Fourier Transform (FFT). Windowing effects. Finite Impulse Response (FIR) filter design (linear phase, windowing, frequency sampling, Remez). Infinite Impulse Response (IIR) filter design from analog prototypes. Frequency transformations. Structures for implementation: direct, cascade, lattice, lattice-ladder, parallel. Finite wordlength effects. Introduction to spectral analysis. Real time implementation. |
Prerequisite: ELG3125 |
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ELG4178 |
Optical Communications and Networking |
(3,1.5,3b) 3 cr. |
Optics review. Theory of optical fiber communications. Option fibres. Signal degradation in optical fibres. Optical sources. Photo detecters. Optical transmitters. Optical receivers. Optical amplifiers. WDM Systems. |
Prerequisite: ELG3175. |
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ELG4179 |
Wireless Communication Fundamentals |
(3,1.5,3b) 3 cr. |
Overview of wireless communications including first, second and third generations of systems and standards. Cellular systems principles, power control, handovers. Characterization of wireless channels: large scale and small scale propagation mechanisms: path loss, multipath and fading. Digital modulation techniques for wireless channels. Power efficiency, non-linear amplifiers, diversity. Channel coding: block and convolutional codes, TCM. Performance in multipath fading channels. Multiple access: fixed (FDMA, TDMA, CDMA) and random (ALOHA, CSMA) access methods. |
Prerequisite: ELG3175. |
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ELG4515 |
Circuits micro-ondes |
(3,1.5,3b) 3 cr. |
Revue de la th�orie des lignes de transmission et de l'abaque de Smith. Lignes de transmission micro-ruban. Repr�sentation de circuits micro-ondes � l'aide de param�tres de r�seaux (S, Z, Y, ABCD). Transformation d'imp�dances et r�seaux d'adaptation. Stabilit�, gain et bruit. Conception d'amplificateurs et d'oscillateurs micro-ondes. Circuits micro-ondes passifs � 2, 3 et 4 acc�s. Att�nuateurs, coupleurs, diviseurs de puissance, circulateurs, isolateurs. Conception de circuits micro-ondes assist�e par ordinateur. |
Pr�alables : ELG3506, ELG3536. |
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ELG4516 |
Milieux de transmission micro-ondes et optique |
(3,1.5,3b) 3 cr. |
Revue de la th�orie des circuits distribu�s, des param�tres ABCD et de dispersion. Description du circuit �quivalent des composants de circuits � constantes localis�es et � constantes r�parties, des discontinuit�s et des jonctions dans les structures d ondes guid�es. Revue des �quations de Maxwell, du th�or�me de Poynting et des conditions aux fronti�res. Ondes planes � une interface entre deux di�lectriques. Ondes planes incidentes � une pile de di�lectriques (r�flecteurs Bragg et structures photoniques � �cart d'�nergie). Guides d'ondes et cavit�s r�sonantes rectangulaires m�talliques. Guides di�lectriques plans et introduction � l'optique int�gr�e. R�sonateurs. Fibres optiques et dispositifs � fibre. |
Pr�alable : ELG3506. |
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ELG4517 |
Opto�lectronique et composantes optiques |
(3,1.5,3b) 3 cr. |
Dualit� onde-particule de la lumi�re. Interaction de la lumi�re avec la mati�re. Revue de la physique des semiconducteurs et introduction � l'opto�lectronique. G�n�ration de l'�nergie optique: diodes �lectroluminescentes et lasers. D�tection de l'�nergie optique: photoconducteurs, photodiodes PIN et avalanche. Introduction � l'�lectro-optique. Commande de la radiation optique: modulation et commutation de la lumi�re. |
Pr�alables : ELG3506, ELG3536. Concomitant : ELG4516. |
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ELG4521 |
Sujets sp�ciaux en g�nie �lectrique II |
(3,1.5,3) 3 cr. |
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ELG4522 |
Sujets sp�ciaux en g�nie �lectrique I |
(3,1.5,3) 3 cr. |
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ELG4537 |
Principes et applications de la conception de circuits int�gr�s � tr�s grande �chelle |
(3,1.5,3b) 3 cr. |
Introduction � la technologie des circuits int�gr�s � tr�s grande �che lle (VLSI). Propri�t�s �lectriques des transistors NMOS et CMOS. Conception d'un sous-syst�me NMOS et disposition des composantes. Conception de sous-syst�mes et disposition des composantes en utilisant des circuits logiques CMOS statiques simples et complexes ainsi que dynamiques. Conception de r�seaux logiques programmables et de machines � �tats finis NMOS et CMOS. Conception de sous-syst�mes utilisant la technologie BiCMOS, la technologie GaAs, les r�seaux logiques et les r�seaux logiques programmables par l'utilisateur (FPGA). |
Pr�alable : ELG2536. |
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ELG4539 |
�lectronique III |
(3,1.5,3b) 3 cr. |
L'amplificateur op�rationnel - caract�risation et conception. D�calages de tension et m�thodes de correction. Caract�ristiques fr�quentielles des amplificateurs, gain de boucle, stabilit�, correction fr�quentielle. Filtres actifs. G�n�rateurs de signaux et circuits de g�n�ration de forme d'ondes. Applications de circuits lin�aires et non-lin�aires. Applications num�riques. |
Pr�alables : ELG3536, ELG3555. |
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ELG4559 |
Syst�mes de contr�le int�gr�s |
(3,1.5,3b) 3 cr. |
Mod�lisation des capteurs et actionneurs. Mod�lisation et simulation des syst�mes dynamiques. Techniques d interface. Technologies des microcontr�leurs. Conception de syst�mes de contr�le int�gr�s. Mod�lisation des syst�mes micro-�lectrom�caniques (SMEM) et nano-�lectrom�caniques (SNEM). |
Pr�alables: ELG3525, ELG3555 et ELG3716 |
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ELG4576 |
Syst�mes de t�l�communications |
(3,1.5,3b) 3 cr. |
Revue des concepts des signaux et syst�mes al�atoires et de modulation et d�modulation. �quations d'antennes de base. Calcul du budget de liaison. Analyse de la modulation lin�aire en pr�sence de bruit. Ana lyse de la modulation d'angle en pr�sence de bruit. Effet de seuil, e xtension de seuil, pr�accentuation et d�saccentuation en modulation d' angle. Principes de d�tection des signaux num�riques dans le bruit: f iltres adapt�s, concept d'espace de signaux, r�cepteurs � maximum de v raisemblance et � maximum de probabilit� � posteriori. Transmission � r�ponse partielle. Codage de canal. D�tection coh�rente et non coh� rente. R�cepteur � estimation de s�quence � vraisemblance maximale et algorithme de Viterbi. Capacit� d'un canal. |
Pr�alables : ELG3575, ELG3526. |
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ELG4577 |
Traitement num�rique du signal |
(3,1.5,3b) 3 cr. |
Revue des signaux et syst�mes en temps discret, du th�or�me d'�chantillonnage et des s�ries/transform�es de Fourier. Conversions de fr�quence d'�chantillonnage. Conversions A/N et N/A. Transform�e en Z et analyse de syst�mes LTI. Syst�mes � phase minimale, maximale et mixe. Transform�e de Fourier discr�te (DFT) et transform�e de Fourier rapide (FFT). Effets de fen�trage. Design de filtre � r�ponse impulsionnelle finie (FIR): phase lin�aire, fen�trage, �chantillonnage en fr�quence, Remez. Design de filtres � r�ponse impulsionnelle infinie (IIR) � partir de prototypes analogiques. Transformations en fr�quence. Structures pour mise en oeuvre: directe, cascade, treillis, treillis-�chelle, parall�le. Effets de pr�cision num�rique finie. Introduction � l'analyse spectrale. Mise en oeuvre en temps r�el. |
Pr�alables : ELG3525 |
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ELG4579 |
Introduction aux t�l�communications sans fil |
(3,1.5,3b) 3 cr. |
Introduction aux syst�mes de communications sans fil comprenant les premi�re, seconde et troisi�me g�n�rations et normes internationales. Concepts des syst�mes cellulaires, contr�le de puissance et d�placement entre cellules. Caract�risation de canaux sans fil: m�canismes de propagation � grande �chelle et � petite �chelle: perte de propagation, propagation multitrajet et �vanouissement. Techniques de modulation num�riques pour les canaux sans fil. Efficacit� de puissance, amplificateurs non-lin�aires et diversit�. Codes correcteurs d'erreurs: codes blocs et convolutionnels, modulation cod�e en treillis. Performance des codes dans les canaux avec �vanouissement. Acc�s multiple fixe (FDMA, TD MA, CDMA) et al�atoire (ALOHA, CDMA). |
Pr�alable : ELG3575. |
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ELG4901 |
Rapport de stage coop IV / Co-op Work Term Report IV |
3 cr. |
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ELG4902 |
Rapport de stage coop V / Co-op Work Term Report V |
3 cr. |
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ELG4912 |
Projet de Design en G�nie �lectrique : Partie I~~ Electrical Engineering Design Project : Part I |
(1,0,6) 3 cr. |
Lectures and tutorials on product design and development me thodology, and the role of the professional engineer in this regard. S election of a project that will build design, teamwork and en trepreneurial skills. Formation of teams. Documentation and presentation of first iteration of design project. |
Pr�alables: ELG3106, ELG3136, ELG3175, ELG3155. |
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ELG4913 |
Projet de Design en G�nie �lectrique: Partie II~~ Electrical Engineering Design Project: Part II |
(1,0,6b) 3 cr. |
Lectures and tutorials on product design and development methodology, and the role of the professional engineer in this regard. Completion of work started in ELG4912. Deliverables include written documentation and presentations in class. |
Pr�alable: ELG4912 |
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