Number systems, codes and coding, minimization techniques applied to design of logic systems. Component specifications. Discussion of microprocessors, memory and I/O logic elements. Microcomputer structure and operation. I/O modes and interfacing. Machine language and Assembler programming. Design and application of digital systems for data collection and control of pneumatic hydraulic and machine systems. Laboratory work includes the use of microcomputers.Weekly Contact:Lecture 3 hrs. Lab 2 hrs.GPA Weight:1.00Billing Units:1Count:1.00Prerequisites:EES 512 and CEN 199EES 512 - Electric CircuitsCourse DescriptionThis one-semester lecture/lab course covers general electric circuit parameters and laws. Topics include: basic electric circuits, voltage and current sources, resistance, analysis of DC circuits, power considerations. Concepts of capacitance, inductance, and their transient behaviour. Introduction of AC sources, phasors, reactance and impedance, AC analysis of RC, RL, and RCL circuits, the effect of resonance, real and complex power in reactive loads.Weekly Contact:Lecture 3 hrs. Tutorial 2 hrs.GPA Weight:1.00Billing Units:1Count:1.00Prerequisites:MTH 140 and MTH 141EES 612 - Electric Machines and ActuatorsCourse DescriptionThe single-phase transformer and its applications. DC and AC motor characteristics, and their application in mechanical drives. Power electronic circuits, H bridges, PWM control, interfacing, power amplifiers. DC servo and stepper motors, AC synchronous and induction motors. Transformers. Introduction to typical speed and torque control techniques of motors.Weekly Contact:Lecture 3 hrs. Lab 2 hrs.GPA Weight:1.00Billing Units:1Count:1.00Prerequisites:CEN 199 and (EES 512 or MTE 401)ELE 202 - Electric Circuit AnalysisCourse DescriptionThis course is a one semester introductory course in electric circuit analysis. The topics covered include the following: circuit variables and elements, resistive circuits, methods of circuit analysis, circuit theorems, energy storage elements, transient responses of RL and RC circuits, sinusoidal steady state analysis, and AC steady state power concepts. (1 hr. Tutorial and 3 hr. Lab every other week)Weekly Contact:Lecture 4 hrs. Lab 1.5 hrs. Tutorial 0.5 hrs.GPA Weight:1.00Billing Units:1Count:1.00Prerequisites:MTH 140 and MTH 141ELE 302 - Electric NetworksCourse DescriptionThis course builds on the introductory course ELE202 in electric circuit analysis. The course topics include a brief overview of circuit variables, elements, laws and theorems; mutual inductance and the ideal transformer model; 3-phase circuits; the operational amplifier as an active circuit element. Also, simple opamp circuits, the Laplace transform with applications to differential equations and electric circuits, frequency responses, Bode plots, resonant circuits, Fourier series; two port networks, and network parameters for interconnection of two-port networks; use of PSpice simulation software to solve circuit problems.Weekly Contact:Lecture 4 hrs. Lab 3 hrs.GPA Weight:1.00Billing Units:2Count:1.00Prerequisites:CHY 102, MTH 140, MTH 141, PCS 125, PCS 211, CPS 188, ELE 202, MTH 240Corequisites:MTH 312 or MTH 425ELE 401 - Electric and Magnetic FieldsCourse DescriptionCoulomb's law and electric field intensity, Gauss's law and electric flux density, electric potential, conductors, resistance, dielectrics, electric boundary conditions, capacitance, electric energy, image method, Poisson's and Laplace's equations, electrostatic boundary-value problems. Magnetic forces, Biot-Savart's law and magnetic field intensity, Ampere's circuital law and magnetic flux density, magnetic potential, magnetic boundary conditions, self and mutual inductance, magnetic energy. Maxwell's equations for time-varying fields, Faraday's law, displacement current.Weekly
Number systems, codes and coding, minimization techniques applied to design of logic systems. Component specifications. Discussion of microprocessors, memory and I/O logic elements. Microcomputer structure and operation. I/O modes and interfacing. Machine language and Assembler programming. Design and application of digital systems for data collection and control of pneumatic hydraulic and machine systems. Laboratory work includes the use of microcomputers.Weekly Contact:Lecture 3 hrs. Lab 2 hrs.GPA Weight:1.00Billing Units:1Count:1.00Prerequisites:EES 512 and CEN 199EES 512 - Electric CircuitsCourse DescriptionThis one-semester lecture/lab course covers general electric circuit parameters and laws. Topics include: basic electric circuits, voltage and current sources, resistance, analysis of DC circuits, power considerations. Concepts of capacitance, inductance, and their transient behaviour. Introduction of AC sources, phasors, reactance and impedance, AC analysis of RC, RL, and RCL circuits, the effect of resonance, real and complex power in reactive loads.Weekly Contact:Lecture 3 hrs. Tutorial 2 hrs.GPA Weight:1.00Billing Units:1Count:1.00Prerequisites:MTH 140 and MTH 141EES 612 - Electric Machines and ActuatorsCourse DescriptionThe single-phase transformer and its applications. DC and AC motor characteristics, and their application in mechanical drives. Power electronic circuits, H bridges, PWM control, interfacing, power amplifiers. DC servo and stepper motors, AC synchronous and induction motors. Transformers. Introduction to typical speed and torque control techniques of motors.Weekly Contact:Lecture 3 hrs. Lab 2 hrs.GPA Weight:1.00Billing Units:1Count:1.00Prerequisites:CEN 199 and (EES 512 or MTE 401)ELE 202 - Electric Circuit AnalysisCourse DescriptionThis course is a one semester introductory course in electric circuit analysis. The topics covered include the following: circuit variables and elements, resistive circuits, methods of circuit analysis, circuit theorems, energy storage elements, transient responses of RL and RC circuits, sinusoidal steady state analysis, and AC steady state power concepts. (1 hr. Tutorial and 3 hr. Lab every other week)Weekly Contact:Lecture 4 hrs. Lab 1.5 hrs. Tutorial 0.5 hrs.GPA Weight:1.00Billing Units:1Count:1.00Prerequisites:MTH 140 and MTH 141ELE 302 - Electric NetworksCourse DescriptionThis course builds on the introductory course ELE202 in electric circuit analysis. The course topics include a brief overview of circuit variables, elements, laws and theorems; mutual inductance and the ideal transformer model; 3-phase circuits; the operational amplifier as an active circuit element. Also, simple opamp circuits, the Laplace transform with applications to differential equations and electric circuits, frequency responses, Bode plots, resonant circuits, Fourier series; two port networks, and network parameters for interconnection of two-port networks; use of PSpice simulation software to solve circuit problems.Weekly Contact:Lecture 4 hrs. Lab 3 hrs.GPA Weight:1.00Billing Units:2Count:1.00Prerequisites:CHY 102, MTH 140, MTH 141, PCS 125, PCS 211, CPS 188, ELE 202, MTH 240Corequisites:MTH 312 or MTH 425ELE 401 - Electric and Magnetic FieldsCourse DescriptionCoulomb's law and electric field intensity, Gauss's law and electric flux density, electric potential, conductors, resistance, dielectrics, electric boundary conditions, capacitance, electric energy, image method, Poisson's and Laplace's equations, electrostatic boundary-value problems. Magnetic forces, Biot-Savart's law and magnetic field intensity, Ampere's circuital law and magnetic flux density, magnetic potential, magnetic boundary conditions, self and mutual inductance, magnetic energy. Maxwell's equations for time-varying fields, Faraday's law, displacement current.Weekly
