| 
|
|
 |
|
|
 |
|
ELG - G�nie �lectrique / Electrical Engineering
Course descriptions
| ELG1100 |
Introduction to Electrical and Computer Engineering |
(3,1,3b) 4 cr. |
|
Introduction to the fields of electrical and computer engineering. Basis of DC circuits: Ohm's and Kirchhoff's laws. Source and circuit equivalences. Th�venin and Norton equivalent circuits. Digital computers and information. Number systems and codes. Combinational logic. Circuits. Logic functions representation. Boolean algebra. Logic function simplification and implementation. Combinational logic. Analysis and design. Implementation of combinational circuits. Basis sequential circuits. Latches and flip-flops. Sequential circuits analysis and design. Registers and counters.
BACK TO TOP |
| ELG1500 |
Introduction au g�nie �lectrique et informatique |
(3,1,3b) 4 cr. |
|
Introduction aux g�nies �lectrique et informatique. Circuits en courant continu: lois d'Ohm et de Kirchhoff. �quivalences de sources et de circuits: circuits �quivalents de Th�venin et de Norton. Ordinateurs et information. Syst�mes d'�num�ration et codes. Logique combinatoire. Circuits logiques. Repr�sentation des fonctions logiques. Alg�bre de Boole. Simplification et r�alisation de fonctions logiques. Analyse et conception. R�alisation de circuits combinatoires. Circuits s�quentiels de base. Portes et bascules. Analyse et conception de circuits s�quentiels. Registres et compteurs.
BACK TO TOP |
| ELG2130 |
Circuit Theory |
(3,1,3b) 4 cr. |
|
Basis circuit elements and circuit topology. Kirchhoff laws. Source equivalences. Mesh current and node voltage analysis. Th�venin and Norton equivalent circuits. Time-domain analysis of first and second order circuits. Sinusoidal steady state analysis and power calculations. Laplace transforms and applications to circuit analysis. Transfer functions. Frequency response of simple filters. Prerequisite: ELG1100 or SITE permission for transfer student only. Corequisite: MAT2331.
BACK TO TOP |
| ELG2135 |
Electronics I |
(3,1,3b) 4 cr. |
|
Analog and digital signals. Basis amplifier concepts. Operational amplifiers - analysis and applications. Diodes: operation, models and application circuits. Bipolar Junction Transistors - operation and characteristics. DC and AC circuit models. Basis 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: ELG2130
BACK TO TOP |
| ELG2331 |
Electric Circuits and Machines for Mechanical Engineering |
(3,0,1) 4 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: PHY1102.Corequisite: MAT2331.
BACK TO TOP |
| ELG2530 |
Th�orie des circuits |
(3,1,3b) 4 cr. |
|
�l�ments de base des circuits et topologie des circuits. Lois de Kirchhoff. �quivalences de sources. Analyse � l'aide des m�thodes de courant des mailles et de potentiel des noeuds. Equivalents Th�venin et Norton. Analyse des circuits de premier et deuxi�me ordre dans le domaine temporel. Analyse en r�gime sinuso�dal permanent et calculs de puissance. Transform�e de Laplace et son application � l'analyse des circuits. Fonctions de transfert. R�ponse en fr�quences de filtres simples. Pr�alable: ELG1500 ou permission de L'�ITI pour �tudiants en transfert seulement Concomitant : MAT2731.
BACK TO TOP |
| ELG2535 |
�lectronique I |
(3,1,3b) 4 cr. |
|
Signaux analogiques et num�riques. Concepts fondamentaux d'amplificateur. Amplificateurs op�rationnels - analyse et applications. 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: ELG2530
BACK TO TOP |
| ELG2731 |
Circuits et machines �lectriques pour ing�nieurs en m�canique |
(3,0,1) 4 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: PHY1502.Concomitant : MAT2731.
BACK TO TOP |
| ELG2901 |
Rapport de stage coop I |
3 cr. |
|
Co-op Work Term Report I
BACK TO TOP |
| ELG2910 |
Pratique de la profession d'ing�nieur |
(1,0,0) 1 cr. |
|
Principes de professionnalisme et d'�thique professionnelle dans la pratique de l'ing�nieur, incluant ses obligations envers la soci�t� et l'environnement, et les aspects de sant� et s�curit� au travail. Professional Engineering Practice Principles of professional engineering practice and ethics, societal and environmental obligations of the engineer, workplace health and safety.
BACK TO TOP |
| ELG3101 |
Electromagnetic Engineering |
(3,0,3b) 4 cr. |
|
Maxwell's and wave equations. 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. 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,MAT2331,PHY2323
BACK TO TOP |
| ELG3120 |
Signal and System Analysis |
(3,1.5,3) 4 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: ELG2130.Corequisite: MAT3321.
BACK TO TOP |
| ELG3121 |
Random Signals and Systems |
(3,1,3b) 4 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: ELG3120,MAT3321.Corequisite: ELG3170.The course cannot be combined for credit with MAT2377
BACK TO TOP |
| ELG3133 |
Analog Electronics II |
(3,0,3) 4 cr. |
|
Frequency response of single stage bipolar junction transistor amplifiers: common- emitter, common-collector and common-base bipolar and field effect transistor amplifiers: common-source, common-drain and common-gate. Multi-stage amplifiers frequency response. Feedback amplifiers. Differential amplifier. Amplifier output stages: classes A, B, AB and C type amplifiers. Oscillators. Prerequisite: ELG2131
BACK TO TOP |
| ELG3135 |
Electronics II |
(3,1,3b) 4 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: ELG2135
BACK TO TOP |
| ELG3150 |
Introduction to Control Systems |
(3,0,3b) 4 cr. |
|
Feedback systems. System stability. Nyquist, root-locus and Bode plots. Performance criteria. Industrial control and classical compensation techniques. Prerequisites: ELG3120,MAT3321
BACK TO TOP |
| ELG3170 |
Introduction to Communication Systems |
(3,0,3b) 4 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: ELG3120.Corequisite: ELG3121.
BACK TO TOP |
| ELG3182 |
Networking and Internetworking |
(3,0,3b) 4 cr. |
|
Overview of computer networking. Physical layer issues. Data link layer issues: framing, error control, flow control, line configurations, bridging. Network layer issues: flow/congestion control and their algorithms. Internetworking: routing and routing algorithms; static vs Dynamic Routes, Routing Information Protocol, Architecture of Internet, Internet Protocols, IP addressing and address resolution, Virtual LANs. Corequisites: ELG3170,ELG3300.Also offered as CEG3182.
BACK TO TOP |
| ELG3300 |
Introduction to Telecommunications Systems and Services |
(3,1.5,1) 4 cr. |
|
Overview of communication systems and transmission system performance measures. Analogue and digital signals, frequency domain notions, analogue signals in digital form. Basic concepts of information theory: entropy, source coding, channel coding, error control coding and channel capacity. Bandwidth and capacity. Communication network organization. Circuit and packet switched networks. Switching organization. Communication traffic concepts, and network performance measures. Computer communication principles: protocols and the OSI layered model. Telecommunications services and standards. Prerequisites: ELG1100,MAT2377
BACK TO TOP |
| ELG3311 |
Introduction to Power Engineering |
(3,0,3b) 4 cr. |
|
Power system components. Magnetic circuits, inductors, transformers and their equivalent circuits. DC Machines: theory, equivalent circuits, operation modes, V-I and torque-speed characteristics of different types. AC Machines: basic operation, equivalent circuits, synchronous and induction, motor/generator characteristics. Power semiconductors: basic devices and circuit applications. DC/DC converters: buck, boost, buck-boost and their derivatives, basic operation and design criteria. AC circuits: SCR phase control, inverters, uninterruptable power supplies (UPS). Prerequisites: ELG2130,ELG2135,PHY2323
BACK TO TOP |
| ELG3331 |
Electronics for Mechanical Engineers |
(3,0,1.5) 4 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: ELG2331
BACK TO TOP |
| ELG3501 |
�lectromagn�tisme appliqu� |
(3,0,3b) 4 cr. |
|
�quations de Maxwell et d'ondes. 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. 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,MAT2731,PHY2723
BACK TO TOP |
| ELG3520 |
Analyse des signaux et des syst�mes |
(3,1.5,3) 4 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: ELG2530.Concomitant : MAT3721.
BACK TO TOP |
| ELG3521 |
Signaux et syst�mes al�atoires |
(3,1,3b) 4 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: ELG3520,MAT3721 Concomitant : ELG3570.Ce cours ne peut �tre combin� avec MAT2777 pour des cr�dits
BACK TO TOP |
| ELG3535 |
Electronique II |
(3,1,3b) 4 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: ELG2535
BACK TO TOP |
| ELG3550 |
Introduction aux syst�mes d'asservissement |
(3,0,3b) 4 cr. |
|
Syst�mes � r�troaction. Stabilit� de syst�mes. Diagrammes de Nyquist, lieu des racines et de Bode. Crit�res de performance. Asservissement industriel et techniques de compensation classiques. Pr�alables: ELG3520,MAT3721
BACK TO TOP |
| ELG3570 |
Introduction aux syst�mes de t�l�communications |
(3,0,3b) 4 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: ELG3520.Concomitant : ELG3521.
BACK TO TOP |
| ELG3582 |
R�seaux d'ordinateurs et interconnections |
(3,0,3b) 4 cr. |
|
Principes des r�seaux d'ordinateurs. Couche physique. Couche liaison: cadrage, contr�le de congestion et de flux, algorithmes. Principes d'interconnections: routage et algorithmes de routage. Routage statistique vs routage dynamique. Information de contr�le pour le routage. Architecture de l'Internet, Protocoles Internet, adressage IP et r�solution d'adresses. R�seaux locaux virtuels. Concomitants : ELG3570,ELG3700.Aussi offert sous la cote CEG3582.
BACK TO TOP |
| ELG3700 |
Introduction aux syst�mes et services de t�l�communications |
(3,1.5,1) 4 cr. |
|
Aper�u des syst�mes de communication et mesures de performances de syst�mes de transmission. Signaux analogiques et num�riques, principes du domaine fr�quence, repr�sentation num�rique des signaux analogiques. Notions de base de la th�orie de l'information: entropie, codes source, codes de transmission, codes de v�rification d'erreur et capacit� du canal. Bande passante et capacit� du canal. Organisation des r�seaux de communication. Commutation en mode circuit et paquets. Organisation des fonctions de commutation. Notions de trafic et mesures de performance. Principes de t�l�informatique: protocoles et le mod�le OSI. Services et normes de t�l�communications. Pr�alables: ELG1500,MAT2777
BACK TO TOP |
| ELG3711 |
Introduction aux syst�mes �lectriques � forte puissance |
(3,0,3b) 4 cr. |
|
Composantes de syst�me de puissance. Circuit magn�tiques, inductances, transformateurs et leur circuit �quivalent. Machines � courant continu: th�orie, circuits �quivalents, modes d'op�ration, caract�ristiques tension-courant, caract�ristiques couple-vitesse. Machines � courant alternatif: principe de fonctionnement, circuits �quivalents, machines synchrones et machines � induction, caract�ristiques moteur/ g�n�ratrice. Semiconducteurs de puissance: composantes de base et application dans les circuits. Convertisseurs courant continu/courant continu: d�voltage, survoltage, d�voltage-survoltage et leurs d�riv�es, principe d'op�ration et crit�res de conception. Circuits en courant alternatif: (SCR) redresseur au silicium command�, commande de phase, inverseurs, syst�me d'alimentation sans interruption. Pr�alables: ELG2530,ELG2535,PHY2723
BACK TO TOP |
| ELG3731 |
�lectronique pour ing�nieurs en m�canique |
(3,0,1.5) 4 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: ELG2731
BACK TO TOP |
| ELG3901 |
Rapport de stage coop II |
3 cr. |
|
Co-op Work Term Report II
BACK TO TOP |
| ELG3902 |
Rapport de stage coop III |
3 cr. |
|
Co-op Work Term Report III
BACK TO TOP |
| ELG4104 |
Antennas and Propagation |
(3,0,3b) 4 cr. |
|
Antenna fundamentals, dipole and loop antennas, antenna arrays, line sources and wire antennas, broadband antennas, aperture antennas. Introduction to moment method, antenna measurements. Propagation of electromagnetic waves in the presence of realistic ground. Prerequisite: ELG3101
BACK TO TOP |
| ELG4105 |
Microwave Circuits |
(3,0,3b) 4 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 networks. Stability, gain and noise considerations. Microwave transistor 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: ELG3101,ELG3135
BACK TO TOP |
| ELG4106 |
Microwave and Optical Transmission Media |
(3,0,3b) 4 cr. |
|
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, Bragg reflectors and photonic bandgap structures. Rectangular metallic waveguides and resonant cavities. Dielectric slab waveguides and introduction to integrated optics. Circular metallic waveguides and resonant cavities. Optical fibers and fiber devices. Prerequisite: ELG3101
BACK TO TOP |
| ELG4107 |
Optoelectronics and Optical Components |
(3,0,3b) 4 cr. |
|
Wave-Particle duality of light. Interaction of light with matter. Review of semiconductor physics and introduction to optoelectronics. Generation 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: ELG3101,ELG3135 Corequisite: ELG4106.
BACK TO TOP |
| ELG4111 |
|
4 cr. |
| Topics in Electrical Engineering II |
| ELG4112 |
|
4 cr. |
| Topics in Electrical Engineering I |
| ELG4132 |
Principles and Application of VLSI Design |
(3,0,3b) 4 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 logic 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: ELG3135
BACK TO TOP |
| ELG4135 |
Electronics III |
(3,1,3b) 4 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: ELG3135,ELG3170
BACK TO TOP |
| ELG4151 |
Linear Systems |
(3,0,3b) 4 cr. |
|
Classification of finite dimensional systems, vector and metric spaces, state space, continuous and discrete parameter linear time invariant/time varying systems, properties of state transition operator input-output maps and their properties (continuity, boundedness, sensitivity, etc.); concepts of controllability and observability, Grammians, rank conditions; stabilizability of unstable systems via state feedback; Markov chains, discrete and continuous time finite state homogeneous Markov chains, application to reliability. Prerequisites: ELG3120,ELG3150
BACK TO TOP |
| ELG4152 |
Modern Control Engineering |
(3,0,3b) 4 cr. |
|
Controllability and observability, Euler- Lagrange equations, Pontryagin maximum principle, dynamic programming, linear quadratic regulator problem, matrix Ricatti differential equations and properties of their solution, design of optimal regulator based on steady state solution of the Ricatti differential equation, time optimal control, LaSalle bang-bang principle, applications to motor speed control, satellite attitude control, etc. Prerequisite: ELG4151
BACK TO TOP |
| ELG4171 |
Communication Systems |
(3,1.5,3b) 4 cr. |
|
Review of random signals and system concepts, and modulation and detection. Basic antenna equations. SNR link calculations. Analysis of linear modulation in the presence of noise. Analysis of angle modulation in the presence of noise. The threshold effect, threshold extension, and preemphasis and deemphasis in angle modulation. Digital modulation techniques. Detection principles for digital communication signals in noise: matched filter receivers, signal space concepts, maximum a posteriori receivers, maximum likelihood receivers. Partial response signalling. Channel coding. Coherent and noncoherent detection. Maximum Likelihood sequence estimation receivers for modulation with memory and the Viterbi algorithm. Channel capacity. Prerequisites: ELG3121,ELG3170
BACK TO TOP |
| ELG4172 |
Digital Signal Processing |
(3,0,3b) 4 cr. |
|
Review of discrete-time signals and systems and the sampling theorem. Frequency domain representation of discrete time functions. Z- transform. The Discrete Fourier Transform and FFT. Detailed FIR and IIR filter design. Introduction to spectrum analysis and finite wordlength effects. Real time implementation. Prerequisites: ELG3120,MAT3321
BACK TO TOP |
| ELG4173 |
Optical Communications and Networking |
(3,0,3b) 4 cr. |
|
Theory of optical fiber communications. Coherent-- homodyne and heterodyne and direct detection techniques. Performance of various signals in shot noise and relative intensity noise. Sources, receivers, related design trade- offs and systems constraints. Networking and multiple access issues in fiber networks. Prerequisite: ELG3170
BACK TO TOP |
| ELG4174 |
Wireless Communication Fundamentals |
(3,0,3b) 4 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: ELG3170
BACK TO TOP |
| ELG4183 |
Higher Layer Network Protocols |
(3,0,3b) 4 cr. |
|
Communication services, protocols and software. Transport protocols: TCP, UDP, Quality of Service, connection management, flow and congestion control. Session and presentation protocols, ASN.1, Security, DNS, SNMP, HTTP; multimedia applications. Performance issues. Fundamental concepts of computer network design. Prerequisites: CEG3182/ELG3182 or SEG3150 Also offered as CEG4183.
BACK TO TOP |
| ELG4392 |
Electrical Engineering Design Project |
(1,0,6) 4 cr. |
|
Lectures and tutorials on design methodology, followed by a design project emphasizing teamwork and entrepreneurial skills. A student's design project will normally be in the area of his chosen fourth year option. This is an intensive laboratory course. Prerequisites: ELG3101,ELG3135,ELG3150,ELG3170
BACK TO TOP |
| ELG4505 |
Circuits micro-ondes |
(3,0,3b) 4 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 � transistors. 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: ELG3501,ELG3535
BACK TO TOP |
| ELG4506 |
Milieux de transmission micro-ondes et optique |
(3,0,3b) 4 cr. |
|
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. Guides d'ondes et cavit�s r�sonantes circulaires m�talliques. Fibre optique et dispositifs � fibre. Pr�alable: ELG3501
BACK TO TOP |
| ELG4507 |
Opto�lectronique et composantes optiques |
(3,0,3b) 4 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: ELG3501,ELG3535 Concomitant : ELG4506.
BACK TO TOP |
| ELG4511 |
|
4 cr. |
| Sujets sp�ciaux en g�nie �lectrique II |
| ELG4512 |
|
4 cr. |
| Sujets sp�ciaux en g�nie �lectrique I |
| ELG4532 |
Principes et applications de la conception de circuits int�gr�s � tr�s grande �chelle |
(3,0,3b) 4 cr. |
|
Introduction � la technologie des circuits int�gr�s � tr�s grande �chelle (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: ELG3535
BACK TO TOP |
| ELG4535 |
�lectronique III |
(3,1,3b) 4 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: ELG3535,ELG3570
BACK TO TOP |
| ELG4571 |
Syst�mes de t�l�communications |
(3,1.5,3b) 4 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. Analyse de la modulation d'angle en pr�sence de bruit. Effet de seuil, extension de seuil, pr�accentuation et d�saccentuation en modulation d'angle. Principes de d�tection des signaux num�riques dans le bruit: filtres adapt�s, concept d'espace de signaux, r�cepteurs � maximum de vraisemblance et � maximum de probabilit� a 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: ELG3521,ELG3570
BACK TO TOP |
| ELG4572 |
Traitement num�rique du signal |
(3,0,3b) 4 cr. |
|
Revue des signaux et syst�mes en temps discret. Th�or�me d'�chantillonnage. Repr�sentation dans le domaine fr�quentiel des fonctions temporelles discr�tes. Transform�e en Z. Transform�e de Fourier discr�te et transform�e de Fourier rapide (FFT). Conception de filtres num�riques � r�ponse impulsionnelle finie (FIR) et de filtres num�riques � r�ponse impulsionnelle infinie (IIR). Introduction � l'analyse spectrale. Effets de quantification. R�alisation de syst�mes op�rant en temps r�el. Pr�alables: ELG3520,MAT3721
BACK TO TOP |
| ELG4574 |
Introduction aux t�l�communications sans fil |
(3,0,3b) 4 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, TDMA, CDMA) et al�atoire (ALOHA, CDMA). Pr�alable: ELG3570
BACK TO TOP |
| ELG4583 |
Protocoles de haut niveau |
(3,0,3b) 4 cr. |
|
Services de communication, protocoles et logiciel. Protocoles Transport: TCP, UDP, Qualit� de Service, gestion de connexions, contr�le de flux et de congestion. Protocoles de Session et de pr�sentation, ASN.1, S�curit�, DNS, SNMP, HTTP; applications multim�dia. Performance. Concepts de base de conception de r�seaux d'ordinateurs. Pr�alable: CEG3582 ou ELG3582 ou SEG3550 Aussi offert sous la cote CEG4583.
BACK TO TOP |
| ELG4901 |
Rapport de stage coop IV |
3 cr. |
|
Co-op Work Term Report IV
BACK TO TOP |
| ELG4902 |
Rapport de stage coop V |
3 cr. |
|
Co-op Work Term Report V
BACK TO TOP |
| ELG4905 |
Projet |
4 cr. |
|
Le projet peut �tre un travail d'analyse, de synth�se ou de conception sur un sujet choisi dans le domaine du g�nie �lectrique. Il requiert que l'�tudiant fasse preuve d'initiative et accepte des responsabitit�s. L'inscription se fait � la session d'automne ou d'hiver. Le rapport et le colloque doivent �tre compl�t�s avant la fin de la session choisie. Le rapport et le colloque peuvent �tre pr�sent�s en fran�ais ou en anglais. Project An engineering assignment requiring the student to demonstrate initiative and assume responsibility. The topics may be in engineering analysis, design or development. Students electing to register for a project may do so in either the Fall or the Winter session. The report and verbal presentation must be completed before the end of the session selected. The report and presentation may be in either English or French.
BACK TO TOP |
|
|
|
|
|
|
|
|
|
|
|
|
