Practical and Hands-on Lessons Computer laboratory. Objective: To study characteristics of various elements of electrical engineering and analyze the electrical circuits and magnetic devices. Units, Definitions, Experimental Laws and Simple Circuits System of units, charge, current, voltage and power types of circuits and elements. Ohms law, Kirchhoff's laws, analysis of a single-loop current, single node-pair circuit, resistance and source combination, voltage and current division.
Circuit Analysis Techniques Nodal and mesh analyses, linearity and Superposition, source transformations, Thevenin's and Norton's theorems. Inductance and Capacitance The v-i relations for inductor and capacitor, inductor and capacitor combinations, duality, linearity and its consequences. Response to Sinusoidal Forcing Function. Charactiristics of sinusoidal forcing functions, response of R-L and R-C circuits to sinusoidal forcing functions.
Phasor Concept The complex forcing function, the phasor, phasor relation ships for for R,L, and C, Impedance and admittance. Average Power and RMS Values Instantaneous power, average power, effective values of current and voltage, apparent power and power factor, complex power.
Try adding this search to your want list. The other three parts describe more and more advanced use cases of Essence. Two years later, Robert von Lieben and Lee De Forest independently developed the amplifier tube, called the triode. Located on the French Riviera, Toulon is an important centre for naval construction and aeronautical equipment,hosting the major naval centre on France's Mediterranean coast, also home of the French Navy aircraft carrier Charles De Gaulle. To achieve this goal, we consider how wireless signals interact when they interfere, and use this understanding in our system designs. In traditional networks, collisions cause the loss of the transmitted information. Essence is agnostic to any particular method, lifecycle independent, programming language independent, concise, scalable, extensible, and formally specified.
Power System Circuits An overview of single and three phase systems, wye and delta configurations of three circuits, wye and delta transformations, and power calculations in three phase systems. Magnetic Circuits and Devices Concept and laws of magnetism and analysis of transformers. Introduction to electromechanical energy conversion, operation of machines as generators and motors, power loss, efficiency and operations at maximum efficiency. Objective: To introduce electronic devices, and digital electronic circuits and equipment. Basic Electronic Devices Diode: characteristics and application, rectifier diodes, 'Avalanche' diode, 'Zener' diode, diode circuits analysis, semiconductor diodes.
Electronic Circuit Operational amplifier: characteristics, types of operational amplifier and applications. Rectifier Half-wave rectifier, full-wave rectifier and bridge-rectifier for power supply. Digital Electronics Concepts of logic operations, functions, logic gate synthesis, Boolean theorems, DeMorgan's theorems, flip-flops, counters and registers. Electronic Instrumentation Instrument: characteristics and elements, standards and calibration. Measurement: errors, types of errors in measurements, for example electronic instrumentation and electronic devices.
Power electronics design: a practitioner's guide / by Keith H. Sueker.—1st ed. p. cm. Includes bibliographical references and index. ISBN Power Electronics Design: A Practitioner's Guide [Keith H. Sueker] on Amazon. com. *FREE* shipping on qualifying offers. This book serves as an invaluable.
Objective: This course covers the concepts of ordinary differential equations, Laplace transforms, partial differential equations, fourier series and calculus vectors. This course will provide students with a variety of engineering examples and applications based on the above topics.
Synopsis: Introduction to ordinary differential equations, Laplace transforms, partial differential equations, fourier series and calculus vectors. Some aplications in engineering field. Objective: This course covers the concepts of matrix algebra, numerical methods, complex numbers and applied probability and statistics.
Synopsis: Introduction to matrix algebra, numerical methods, complex numbers and applied probability and statistics. Objective: The aim of the course is to eqip knowledge and understanding in operational research concepts in engineering. Synopsis: Introduction to operational research concepts. To learn deterministic and stochastic process usually used in operational research for engineering. Objective: The aim of the course is to equip the students with knowledge and understanding specifically on probability and statistics used in engineering. Sinopsis: To emphasize on theoretical concepts and probability distribution for radom two variables distribution.
To introduce applied statistical methods apply in analyzing experiments' results. Examples of applications in engineering will be given in the course. Concept and definition of thinking techniques and styles. Thinking tools and techniques used to solve problems in decisions making based on Engineering perspective. Synopsis: Circuit Variables and Elements Review of circuit analysis, International System of Units SI , voltage and current, power, energy, basic circuit elements passive and active , voltage and current sources, Ohm's law, Kirchhoff's laws, circuit models, circuits with dependent sources.
Malik, Course Technology, Thomson Learning D'Orazio, McGraw Hill Synopsis: Introduction Logical and digital electronics systems design. References: Tocci, R. Floyd, T. Objective: The students will be able to understand the operation of the basic devices in electronics, such as the diode and the transistor Synopsis: Semiconductor Material and P-N Junction Conduction in semiconductor current carriers, mobility, drift velocity, mean free path, lifetime of charge carriers, conductivity, resistivity, charge density, current density, drift and diffusion currents , Silicon and Germanium semiconductors, intrinsic and extrinsic semiconductors, Fermi-Dirac function and Fermi level, Hall Effect, p-n junction and current components in p-n junction, p-n junction biasing and current-voltage characteristic.
Edition, Prentice Hall, Boylestad, R. Hambley, A. References: Gilmore C. Short K. Objective: To provide a common background for subsequent courses in control, communication, electronic circuits, filter design, and digital signal processing Synopsis: Introduction to Signals and Systems Classification of signals and systems, some useful signal models and signal operations, even and odd functions, system model : input-output description.
References: Samir S. Soliman and Mandyam D. Srinath, "Continuons and Discrete Signals and Systems", 2nd ed. Millan, Phillips C. References: Ercegovac, M. Mano, M. Katz, R. Bolton, M.
Objective: To learn analogue electronic amplifier circuits and devices Synopsis: Small-signal Transistor Amplifiers Small-signal operation, ac equivalent circuit, common-emitter, common-collector and common-base configurations, approximate hybrid equivalent circuit, exact hybrid equivalent circuit. Edition, Prentice Hall, Boylestad, R. L, and Nashelsky, L. Edition, Prentice-Hall, Interrupt Programming Event counter programming.
References: Short, K. References: Microwave Engineering - Pozar 2nd ed. Wiley Randall W. William C. Edition, Collin, R. Max W.
Medley Jr. Synopsis: Introduction to Information Transmission Analogue and digital systems modeling including information sources, transmitter, communication receiver channels and information sink.
Leon W. George Kennedy, "Electronic Communication Systems", 4th ed. Graw Hill, Synopsis: Operational Amplifier Op-Amp Op-Amp operation, differential amplifier and common mode, op-amp parameters, basic op-amp circuits, practical op-amp, op-amp data sheet. References: Microelectronic Circuits, 4th. Edition, Sedra. S, Smith. Pellerin, D. Yalamanchili, S. Perry, D. Morant, M.
Synopsis: Introduction and revision on basic mathematics An introduction to control systems, types and effects of feedback. References: Kuo, B. Ogata, K. Franklin G. Fuller J.
Mair G. Synopsis: Introduction Overview of the historical background of the development of optical communication system Fiber Optic Channels Attenuation, Attenuation mechanisms such as absorption, light scattering, pulse spreading in a fiber optics and types of fiber optics single mode, multimode etc. Light sources Structure and the operation of light sources such as Light Emitting Diode LED and Laser Diode LD , characteristics of light sources that affect the bit rate achievable for transmission Optical Fiber Communication System Introduction on how to evaluate the performance of an optical communication system and methods used to analyze and design an optical communication system Laboratory Exercises References: Keiser, G.