Electrical Engineering

Name	Title	Credits	School
EENG-125	Fundamentals of Digital Logic	3.0	Engineering & Computing Sci
The course introduces students to the modeling and design of fundamental digital circuits. Topics cover introduction to binary numbering, Boolean algebra, combinatorial and sequential logic circuits and memory elements (e.g. ROM, RAM and non-volatile computer memory). VHDL will be used in modeling, simulation and synthesis of digital circuits. Knowledge of Algebra. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-130	Introduction to Computer Hardware	3.0	Engineering & Computing Sci
The course covers the basics of combinatorial and sequential digital circuits. Representative digital circuits are multiplexers, demultiplexers, decoders, counters, registers, memory and ALUs. The use of programmable logic devices in digital circuitry is also covered. The course culminates with the design of a simple computer to specifications, both hardware description language and a graphical editor to design and implement digital circuits throughout the course. Equivalent to EENG 130. Prerequisite Course(s): MATH-140 or MATH-141 or MATH-170 or TMAT-155 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-201	Introduction to Electrical Engineering	4.0	Engineering & Computing Sci
A lecture and laboratory course in the elements of electrical engineering. Brief review of topics covered in elementary physics such as Ohm's and Kirchhoff's Laws. Elementary DC and AC circuit analysis and basic electronic devices. Prerequisite Course(s): MATH-170 and PHYS-170 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-3-4
EENG-211	Electrical Circuits I	3.0	Engineering & Computing Sci
Properties of linear networks, mesh and nodal analysis, network theorems, solution of first order and second order circuits in the time domain are studied. Prerequisite Course(s): MATH-170 and PHYS-170 Corequisite Course(s): MATH-180 and PHYS-180 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-212	Electrical Circuits I and Engineering Tools	4.0	Engineering & Computing Sci
Properties of linear networks, mesh and nodal analysis, network theorems, solution of first order and second order circuits in the time domain are studied. A software package, such as PSPICE, MATLAB and MATHCAD will be introduced. Prerequisite Course(s): MATH-170 and PHYS-170 Corequisite Course(s): MATH-180 and PHYS-180 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-1-4
EENG-221	Computational and Engineering Tools	1.0	Engineering & Computing Sci
An introduction to the problem solving process using software packages such as MATLAB. Corequisite Course(s): MATH-170 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 1-0-1
EENG-270	Introduction to Electronics Circuits	3.0	Engineering & Computing Sci
Characterization of semiconductor diodes, Zener diodes, transistors and field effect transistors (FET).Effect of temperature variation. Amplifier bias analysis and large signal analysis. Power amplifiers. Small signal models and small signal amplifier analysis. Prerequisite Course(s): EENG-211 or EENG-212 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-275	Electronics Laboratory I	1.0	Engineering & Computing Sci
Laboratory work to complement lecture courses. Prerequisite Course(s): Take one course in each group: Group 1 (EENG-211 or EENG-212 or EENG-221) and Group 2 (FCWR-101 or WRIT-101 or WRIT-111) Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-1
EENG-281	Electrical Circuits II	3.0	Engineering & Computing Sci
Topics covered in this course include: phasors, AC steady-state analysis, transfer functions, frequency response, Laplace transform two-port networks. Prerequisite Course(s): Take one course in each group: Group 1 (EENG-211 or EENG-212) and Group 2 (CSCI-180 or CSCI-210 or CSCI-185) Corequisite Course(s): MATH-320 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-301	Energy Conversion	3.0	Engineering & Computing Sci
This course covers methods for converting energy between electrical and other forms. Electromechanical, electrochemical,photoelectric, thermoelectric , and other methods of conversion are studied. The transduction of low energy signals as well as the conversion of large quantities of also covered in this course. Prerequisite Course(s): EENG-270 and PHYS-180 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-310	Electronic Circuit Applications	3.0	Engineering & Computing Sci
Difference amplifiers, Darlington configuration, low and high frequency analysis, op-amps, gates: TTL, ECL, CMOS, comparators and Schmitt trigger, flip-flops with level and edge triggering, monostable and astable timing circuits. Prerequisite Course(s): EENG-270 Corequisite Course(s): EENG-281 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-315	Electronics Laboratory II	1.0	Engineering & Computing Sci
Laboratory work to complement lecture courses. Prerequisite Course(s): EENG-270 and EENG-275 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-1
EENG-320	Control Systems	3.0	Engineering & Computing Sci
Control systems analysis. Differential equations of motion of mass-spring and RLC systems. Differential equations of motion of servo-mechanism. Response to step, ramp and sinusoidal forcing command. Servomechanism transfer functions, signal-flow diagrams. State-space description; transition matrix, sensitivity analysis and error analysis. Stability analysis using the Bode diagram and the root-locus methods. Prerequisite Course(s): EENG-260 or EENG-280 or EENG-281 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-330	Electromagnetic Theory I	3.0	Engineering & Computing Sci
Review of vector calculus, static electric and magnetic fields. Maxwell equations in integral form, Maxwell's equations in differential forms. Dielectrics, conductors, magnetic materials. Energy storage, Poynting's vector, dispersion and group velocity. Prerequisite Course(s): MATH-320 and PHYS-180 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-341	Signals and Systems	3.0	Engineering & Computing Sci
Topics covered in this course are: discrete networks, difference equations, discrete continuous convolution, Z transforms and Fourier series and transforms. Prerequisite Course(s): EENG-281 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-360	Electronics Laboratory III	1.0	Engineering & Computing Sci
Laboratory work to complement lecture courses. Prerequisite Course(s): Take EENG-310 and EENG-315 and one course in this group: WRIT-315 or WRIT-316 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-1
EENG-370	Microprocessors	3.0	Engineering & Computing Sci
Microprocessor architecture, memory, I/O ports, interrupts, DMA and A/D-D/A converters are discussed along with interfacing and programming techniques. Prerequisite Course(s): Take EENG-310 and one course in this group: CSCI-130 or EENG-260 or EENG-125 or EENG-130 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-382	Random Signals and Statistics	3.0	Engineering & Computing Sci
This course covers basic probability concepts, discrete and continuous random variables, distribution and density functions, and stochastic processes. Principles of statistical inference with applications in basic engineering design are discussed. Prerequisite Course(s): EENG-340 or EENG-341 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-390	Electromagnetic Theory II	3.0	Engineering & Computing Sci
Topics include: wave propagation in unbounded media; Transmission lines, closed and open wavequides, discontinuities, Smith chart, optical waveguides and resonators; antennas and antenna arrays. Prerequisite Course(s): EENG-330 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-401	Communication Theory	3.0	Engineering & Computing Sci
Review of Fourier transform and series, correlation and spectral densities of deterministic signals, baseband and bandpass linear systems, AM and FM modulation/demodulation schemes, elements of PCM, introduction to information theory and coding, and introduction to communication networks. Prerequisite Course(s): EENG-340 or EENG-341 Corequisite Course(s): EENG-382 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-403	Electronics Laboratory IV	1.0	Engineering & Computing Sci
Laboratory work to complement lecture courses. Prerequisite Course(s): EENG-370 Corequisite Course(s): EENG-401 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-1
EENG-405	Electron Lab V	1.0	Engineering & Computing Sci
Prerequisite Course(s): EENG-360 Corequisite Course(s): EENG-320 and EENG-370 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-1
EENG-415	Digital Control Systems	3.0	Engineering & Computing Sci
Linear discrete dynamic system analysis using the z-transform. Properties of the z-transform. Discrete equivalents to continuous transfer functions: the digital filter. Analysis of sampling, data extrapolations, and block diagram reduction 2754 frequency response methods (the w-transform), the root locus method and Ragazzini's method. Design of digital control system using state-space methods. The development of theoretical topics is coupled with application of the theory to practical control system problems. Prerequisite Course(s): EENG-320 Corequisite Course(s): EENG-341 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-420	Digital Filter Design	3.0	Engineering & Computing Sci
This course provides step-by-step procedures for the design and implementation of digital filters. Discrete Fourier transforms and Z-transforms, recursive digital filter design satisfying prescribed specifications, non-recursive digital 2754 regularly. Prerequisite Course(s): EENG-340 or EENG-341 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-425	Principles of Robotics	3.0	Engineering & Computing Sci
This course covers the mechanics and kinematics of robotic systems. The course focuses on motion planning, forward and inverse kinematics, trajectory planning, control design, sensors, actuators and machine vision for robotic systems. This course integrates theory with robotic design projects. The course topics are applicable to industrial robots and autonomous systems. Prerequisite Course(s): EENG-270 and EENG-320 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-430	Operational Amplifier Design	3.0	Engineering & Computing Sci
The theory and design of a medium scale integrated (MSI) circuits are discussed. Criteria for a single stage BJT and FET amplifier design, multi-stage cascode hybrid design, active current source and active current load design, output stage design, and DC level shift design are covered. Multi-stage operational amplifier design with differential and Darlington stages, frequency response of an operational amplifier, and the negative feedback design are also presented. Prerequisite Course(s): EENG-310 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-440	Microcomputer-Based Design	3.0	Engineering & Computing Sci
Development of the ability to define and design smart microcomputer-based instruments. Digital circuitry which augments the capabilities of a microcomputer is discussed. Designing for maintainability is emphasized. Prerequisite Course(s): EENG-370 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-450	Optical Engineering	3.0	Engineering & Computing Sci
Introduction to optics and optical systems as applied to modern engineering problems. Fiber optics design consideration. Fiber materials and characterization. Lasers and LEDs. Avalanche and PIN detectors, noise analysis. Receiver-transmitter design and performance. Transmission system budget analysis. State-of- the-art design for space satellite communication. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-470	Antennas and Propagation	3.0	Engineering & Computing Sci
Radiation resistance, power density, radiated power. Input impedance of antennas and antenna current .Dipole antennas and vertical wires. Quarter-wavelength and half-wavelength antennas. Arrays of radiators. Parabolic reflectors and horns. Prerequisite Course(s): EENG-390 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-480	Communication Network Design	3.0	Engineering & Computing Sci
Introduction to communication networks, layered network architecture models (OSI, SNA), Datalink, network and transport layers. Routing and flow control. LANs and ISDN. Prerequisite Course(s): EENG-380 or EENG-382 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-483	Introduction to Vlsi Design	3.0	Engineering & Computing Sci
Circuit design using VLSIs will be covered using basic CMOS and NMOS circuit structures, design rules, and speed-time tradeoffs. Introduction to computer-aided design tools and design projects using top-down design methods and bottom-up circuit construction design. The testability of design is emphasized. Prerequisite Course(s): EENG-310 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-484	Digital Communications	3.0	Engineering & Computing Sci
Models of digital communication systems, concepts of mutual information and channel capacity, PCM, simple digital modulation techniques (ASK, FSK, PSK , DPSK), coherent detection of binary signals in noise and the matched filter. Prerequisite Course(s): EENG-380 and EENG-401 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-486	Information Theory and Coding	3.0	Engineering & Computing Sci
Source and channel models, mutual information and entropy, channel capacity, fixed and variable codes for discrete sources, discrete memoryless channels, parity check codes (generating matrix and parity check matrix), cyclic codes and convolutional codes. Prerequisite Course(s): EENG-401 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-489	Senior Design Project I	2.0	Engineering & Computing Sci
This course, part of a two course sequence, provides students with the design principles and tools necessary for project formulation, literature search and mathematical modeling techniques, the use of simulation software, project management, and proposal writing skills. Students will work in multidisciplinary teams to prepare proposals to design a system or component of a system. Project proposals will draw significantly on knowledge and skills acquired in previous coursework, in areas such as digital control, microcomputers, CLSI,, etc. and will incorporate engineering standards, design specifications and realistic constraints. Prerequisite Course(s): EENG-320 EENG-330 EENG-370 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 1-3-2 Chairperson permission required
EENG-491	Senior Design Project II	2.0	Engineering & Computing Sci
This is a course open to seniors which provides the major design experience as required by ABET. Students will work in multidisciplinary teams to design a system or component of a system. This will be a comprehensive design that draws primarily on skills and knowledge acquired in previous coursework. The teams will work on an independent basis with the primary function of the instructor being that of a mentor to the students. The design will incorporate engineering standards and multiple realistic constraints such as its impact on society, health and safety, environmental considerations, sustainability, political, social and ethical considerations, literature and patent search, and project management. Weekly progress reports as well as a final oral and written presentation will be required. Prerequisite Course(s): EENG-401 and EENG-489 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 1-3-2 Chairperson permission required
EENG-494	Special Topics I	3.0	Engineering & Computing Sci
The course covers topics of current interest in electrical engineering with emphasis on design. Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3 Chairperson permission required
EENG-497	Wireless Communications I	3.0	Engineering & Computing Sci
The definition of Wireless Communication Systems ( WCS)and their inherent technical difficulties are discussed. The information services delivered by WCS, their performance metrics, and their associated network control operations are considered. Various architectures such as FDMA, TDMA, andCDMA, the call management and network management procedures for these systems are discussed. The role IS-41 plays in the delivery of WCS services to subscribers, and concepts such as frames, time slots, physical and logical channels, power control, signaling protocols, and authentication are reviewed. Prerequisite Course(s): EENG-401 Corequisite Course(s): EENG-482 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3
EENG-498	Wireless Comm II	3.0	Engineering & Computing Sci
Prerequisite Course(s): EENG-497 Classroom Hours - Laboratory and/or Studio Hours – Course Credits: 3-0-3