ET101-ON
BASIC ELECTRONICS
(4 credit hours)
Prerequisites: ---
Areas of study include fundamentals of atomic structure, electronic configuration, SPDF levels, charge, current, EMF, power, resistors, capacitors, inductors as active and passive elements, construction of passive elements, frequency, sweeptime, principles of various instruments such as D.C. power supply, function generator, oscilloscope and sweep generator. Introduction to AC, Electromagnetism, Motors and Generators
ET102-ON
BASIC ELECTRONICS WORKSHOP
(4 credit hours)
Prerequisites: ET101-ON
Construction of simple and complex circuits using resistors, inductors and capacitors with D.C. and A.C. power supplies Hands-on training with D.C. power supply, function generator, oscilloscope and sweep generator, Spectrum analysis, logic probe and pulsars. Building a simple motor, and dynamo.
ET106-ON
CIRCUIT ANALYSIS
(4 credit hours)
Prerequisites: ET102-ON
Volt-ampere characteristics for circuit elements; independent and dependent sources; Kirchhoff ’s laws and circuit equations; Source transformations; Thevenin’s and Norton’s theorems; Millman’s theorem and superposition theorem Step response of 1st order
ET107-ON
CIRCUIT ANALYSIS LABORATORY
(4 credit hours)
Prerequisites: ---Corequisites: ET106-ON
Laboratory experiments in the measurement of circuit analysis. Design and implementation of circuits, such as Thevenin, Norton, Millman, and Superposition theorems, Pi-to-Star and Star- to –Pi, RC, RL, and RCL series and parallel combinations; experimental exercises in the use of laboratory instruments; voltage, current, impedance, frequency and waveform measurements; frequency and transient response
ET150-ON
INTRODUCTION TO DIGITAL SYSTEMS
(4 credit hours)
Prerequisites: ET106-ON
Areas of study include base conversions, base operations, complements, logic gates, Boolean algebra, proof by induction, SOP, POS, universal gates, combination circuits, K-maps, multiplexers, decoders, encoders, comparators, PLA, PLC, PAL, RAM and ROM.
ET151-ON
DIGITAL SYSTEMS LABORATORY
(4 credit hours)
Prerequisites: ---Corequisites: ET150-ON
Laboratory activities involve design, implementation and troubleshooting of SSI, MSI and LSI integrated chips with concepts introduced in ET150. Cost effectiveness, compact circuits and reliability are the principal goals while using IC’s. Intro to OPAMPS.
ET155-ON
SOLID STATE DEVICES
(4 credit hours)
Prerequisites: ET106-ON
Introduces and explains terminology, models, properties, and concepts associated with semiconductor devices. Provides detailed insight into the internal workings of the “building-block” device structures such as the pn-junction diode, Schottky diode, BJT, MOS capacitor and MOSFET. Presents information about a wide variety of other devices including solar cells, LEDs, HBTs, and modern field –effect devices. Systematically develops the analytical tools needed to solve practical device problems. Solar Cells LED and HBTs
ET156-ON
SOLID STATE DEVICES LABORATORY
(4 credit hours)
Prerequisites: ---Corequisites: ET155-ON
Lab experiments include designing, testing, and fabricating HW rectifiers, FW rectifiers, biasing, BJT, UJT, MOSFETs, and small signal amplifiers. Experiments with solar cells and LEDs
ET203-ON
FUNDAMENTALS OF COMMUNICATION ENGINEERING
(4 credit hours)
Prerequisites: ET155-ON
Types of noise, S/N ratio, frequency spectrum, block diagram of communication system and signals, Am, FM. PM, and Angle modulations, spectra Angle modulation, Frequency division, multiplexing, Sampling theory, Quantization theory, Digital line coding methods, Digital signal, Analog versus digital communications. Emphasis on engineering applications of theory to communication system.
ET270-ON
DIGITAL CIRCUITS I
(4 credit hours)
Prerequisites: ET150-ON
Tristate logic, latches, flip-flops and characteristics, counters, shift registers, sequential circuits, state table, state equation, state reduction and race problem.
ET271-ON
DIGITAL CIRCUITS LABORATORY I
(4 credit hours)
Prerequisites: ---Corequisites: ET270-ON
Practical lab experience with LSI, MSI chips is used to construct memory elements, counters, registers and various synchronous circuits. Micro logic software is used to simulate circuits. Labs on analyzing sequential circuits and EPROM
ET290-ON
MICROCONTROLLERS
(4 credit hours)
Prerequisites: ET270-ON
Introduction to Embedded Systems and Microcontroller-Based Circuit Design, Instruction Set Architecture, Assembly Language Programming and General Purpose Digital I/O, Java Programming Review and the Compiler, Debugging Software and Hardware, Threads, Tasks and Simple Scheduling, Threaded Program Design, Using and Real-Time Operating Systems, Serial Communication Peripherals, Digital I/O Peripherals: T/C and PWM, Analog I/O Peripherals, Simulation Design and Debugging
ET291-ON
MICROCONTROLLERS LAB
(4 credit hours)
Prerequisites: ---Corequisites: ET270-ON
Simple arithmetic operations: Multi precision addition / subtraction / multiplication / division. Programming with control instructions: Increment / Decrement, Ascending / Descending order, Maximum / Minimum of numbers, Rotate instructions, Hex / ASCII / BCD code conversions, interface Experiments: A/D Interfacing, D/A Interfacing, Traffic light controller, Interface Experiments: Simple experiments using 8251, 8279, 8254, Demonstration of basic instructions with 8051 Micro controller execution, Conditional jumps, looping, Calling subroutines, Stack parameter testing, Parallel port programming with 8051 using port 1 facility, Stepper motor and D / A converter, Study of Basic Digital IC’s
ET303-ON
DIGITAL COMMUNICATION ENGINEERING I
(4 credit hours)
Prerequisites: ET203-ON
Introduction to analog communication systems, signals and spectra, electromagnetic spectrum and its usage, communication channels and propagation characteristics, amplitude modulation, and demodulation - spectra, circuits and systems, frequency modulation/demodulation, frequency division multiplexing, radio transmitters and receivers, sampling theory, pulse modulation and demodulation spectra, circuits & systems, circuit noise, performance of analogue communication systems in AWGN and fading channels.
ET370-ON
DIGITAL CIRCUITS II
(4 credit hours)
Prerequisites: ET270-ON
Fault analysis, testing, fault detection, fault masking, error correction codes, D/A converter circuitry, DAC specification, DAC application, A/D converter circuitry, digital RAMP and A/D converter.
ET485-ON
EMBEDDED DESIGN
(4 credit hours)
Prerequisites: ET150-ON
Introduction to CPU architecture, instruction Set, QwikFlash target Board, program development, (P1 Template), structured assembly preprocessor, alphanumeric liquid-crystal displays (P2 Template), rotary pulse generators, interrupts and interrupt timing, analog-to- digital conversion, I/O pin considerations.
ET492-ON
SENIOR PROJECT
(4 to 8 credit hours)
Prerequisites: Senior standing or consent of Instructor
Topics for the senior project may involve analog circuits, communication, digital or network. Students are encouraged to design, implement and verify circuits based on an innovative and practical approach.
Online Electronics Engineering Technology
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