Electricity and Electronics Engineering Technology
Course Description
EEET 100: Applied Electricity and Electronics (2-3-3)
Resistive networks: series and parallel circuits, voltage and current sources, loop equations, node
equations, energy and power. Superposition. The AC steady state; impedance and admittance.
Instantaneous, average and RMS voltage, current, power. Description of semiconductor devices (diodes,
transistors). Introduction to amplification, biasing, and frequency response. Applications of integrated
circuits to control and measurement.
Pre-requisites: MATH 161; PHYS 161 Not open for EEET students
EEET 101: Electric Circuits (3-3-4)
Voltage and current sources. Resistance, conductance, Ohm’s low, power and energy. Series and Parallel
circuits. Kirchhoff’s laws. Circuit theorems. Inductors and capacitors. AC circuit analysis; phasors.
Impedance and admittance. Real and reactive power. Power factor. Polyphase systems.
Pre-requisites: MATH 161; PHYS 161
EEET 102: Digital Circuits I (2-3-3)
Number systems and logic minimization. Logic circuits, Flip Flops and Sequential logic circuits,
Counters, Registers and Applications.
Pre-requisites: MATH 161; PHYS 161
EEET 103: Electronic Workshop (1-6-3)
Use of electronic shop tools, drafting tools and aids, lettering, dimensioning, electronic symbols. P.C.
board design, artwork, and computer-aided tools. Etching, drilling, component assembly and soldering.
Metal shop practice, chassis layout, shearing, cutting, bending, chassis hardware. Power supply
fundamentals, transformers, rectifiers, filters, zener regulation and power supply characteristics. Small
electronic projects.
Co-requisites: PHYS 162
EEET 200: Digital Circuits II (2-3-3)
Logic Families. Synchronous sequential circuits. Design using Counters. ROM’s PLAs. Asynchronous
sequential circuits. Brief Introduction to microprocessors and Interfacing circuits.
Pre-requisites: EEET 102 Co-requisites: EEET 201
EEET 201: Electronic Circuits (2-3-3)
RC coupled amplifiers. Operational amplifiers and their applications. Introduction to feedback concepts
and applications to amplifiers and oscillators. Timers and their applications.
Pre-requisites: PHYS 162, EEET101
EEET 202: Electronic Troubleshooting (1-6-3)
Introduction to circuit analysis and troubleshooting techniques, schematic reading, signal analysis, repair
and calibration of electronic equipments. Use of electronic measurement equipment to analyze various
electronic circuit operational behaviors.
Co-requisites: EEET 200, EEET201
EEET 203: Instrumentation and Measurements I (3-3-4)
Overview of transducers. Strain gauge transducers. Linear variable differential transformer transducers,
capacitive transducers. Piezoelectric transducers. Position sensing Transducers. Thermal transducers.
Optical transducers. Photoconductive and photovoltaic cells. Ultrasonic measurements. Environmental
transducers. Electromechanical transducers. Magnetic transducers. Transducer interfacing systems.
Pre-requisites: PHYS 162, EEET 101
EEET 205: Industrial Electronics (2-3-3)
Electrical Characteristics of four-layer devices: SCR, Diacs, Triacs and other devices. Unijunction
transistors. Solid State relays. Industrial application e.g. Speed Control, light dimmers, temperature
control and alarm systems.
Co-requisites: EEET201
EEET 206: Instrumentation and Measurements II (2-3-3)
Measurements of voltage, current, power and frequency. Errors in measurement, accuracy, sensitivity,
insertion, losses and classification of measuring instruments and their principals of operation. Use of
operational amplifiers and bridges in error detection. Specialized measurement systems; flow
measurement, pH measurement, speed and acceleration measurement. Gas chromatography.
Pre-requisites: EEET203
EEET 207: Microprocessor Interfacing (2-3-3)
Review of microprocessors, Assembly language, Analog to Digital converters A/D, Digital to Analog
converters D/A, Input/Output Interfacing, signal conditioning, and Data acquisition.
Pre-requisites: EEET200, EEET 201
EEET 208: Programmable Logic Controllers (2-3-3)
Introduction to Control Systems: Fundamentals of programmable logic controllers. Logic concepts,
Processing unit, input/output systems, peripheral devices, programming techniques, applications and
interfacing.
Co-requisites: EEET200
EEET 209: Microcontroller Applications (1-6-3)
This course is oriented towards applications of microcontrollers in electronic and Industrial control
systems. It covers the basic architecture of 8051 family of microcontrollers, introduction of the Assembly
Language Programming for 8051 Microcontrollers, “C” Language for 8051 family, features of the C
Compiler used for programming, projects controlling displays (Hex displays, seven segments & LCD),
interfacing Keypad, controlling motors (Servo motor and stepper motor) and relays, interfacing sensors,
buzzer and sound control, interfacing ADC and Serial communications.
Pre-requisites: EEET 200, EEET 201, CSET 101
EEET 290: Co-op Training (0-40-6)
A continuous period of one semester spent in the industry working in any of the fields of electronics and
instrumentation. During this training period, the student is exposed to the profession through working.
The student is required to submit, and present, a formal written report of his work.
Pre-requisites: Senior Standing Coop Training
PHYS 162: Solid State Devices (3-3-4)
Introduction to semiconductor physics. Diodes and their applications. BJT, JFET, and MOSFETs biasing,
SCRs, TRIACs, DIACs, UJTs, PUJT, LED & photodiodes.
Pre-requisites: PHYS 161