ENGINEERING COURSES

ENGR 121 Engineering Graphics I credit 2 hrs.

This course is an introduction to computer-aided engineering graphics, covering fundamentals ofCAD, 2D drawings, lettering, dimensioning, sketching, and geometric construction.

ENGR 122 Engineering Graphics II credit 2 hrs.

This course is a continuation of Engr 121 and involves the application of CAD, orthographicprojection, sectional views, 3D drawing and introduction to the graphic kernel system.

ENGR 130 Introduction to Engineering credit 3 hrs.

This course introduces engineering to students, particularly those who are interestedin an engineering profession. It covers Engineering ethics, Team work, Basic electrical/computerengineering topics, and Engineering problem solving using Matlab and Excel.

EE 241 Circuits I credit 4 hrs.

Linear circuit analysis and design course. Topics include fundamental concepts of charge, current,voltage and power; passive and active circuit elements, phasers and impedances; mesh and nodalanalysis; Thevenin's and Norton's Theorems; source transformations, and AC power calculations.Three 1-hour lecture periods and one 2-hour laboratory period. Prerequisite: Math 143

EE 242 Circuits II credit 4 hrs.

A continuation of Circuit Analysis I. Additional topics are: Transient response for RL, RC, and RLC circuits, Laplace transforms and circuit theory, Passive and Active filter types, Operational Amplifiers,and Fourier series analysis. Three 1-hour lecture periods and one 2-hour laboratory period. Prerequisite EE: 241

EE 243 Electronics credit 4 hrs.

Intro to solid state devices: the p-type and the n-type junctions; Diodes and applications; BJTBiasing and small signal analysis; BJT amplification; CMOS Biasing and small signal analysis,CMOS amplification; Switching circuits using Diodes, BJT, and CMOS circuits; Three 1-hour lecture periods and one 2-hour laboratory period. Prerequisite: Math 143. Corequisite: EE 241.

EE 330 Systems and Signals credit 3 hrs.

Analysis of linear systems: classical and modern; Systems and differential equations; Fourier seriesand transform; Laplace transform and its applications; transfer functions and impulse response;Introduction to analogue filter design. Prerequisite: Math 144 and EE 242.

EE 333 Electromagnetics credit 3 hrs.

Basic concepts of electrostatics and magnetostatic; boundary conditions for dielectric and magneticmaterials; Poisson's and Laplace's equations; time-varying fields and Maxwell equations; planewave propagation in free space; dielectrics and conductors; transmission lines. Prerequisites: Phys244. Corequisite: Math 333.

EE 431 Communication Systems credit 3 hrs.

Spectral analysis and signal transmission channel design; amplitude, frequency, phase, and pulsemodulation systems; frequency - division and time -division multiplexes systems; digital communication; noise and its effects in modulation systems. Prerequisite: EE 330.

EE 432 Digital Signal Processing credit 3 hrs.

Discrete-time systems; Difference equations; Z-transform; Discrete time Fourier transform; and discrete Fourier transform; frequency spectrum and sampling theorem. Digital filter design; Realizationand implementation of Digital filters; Discrete - time systems; design of digital filters; Introduction torandom signals and power spectral estimation. Prerequisite: EE 330.

EE 433 Linear Integrated Circuits credit 3 hrs.

Theory and applications of linear integrated circuits. Topics include ideal and real operational amplifiers, frequency response and compensation, active filters, comparators, and waveform generators.Prerequisite EE: 243

EE 434 Control Systems credit 3 hrs.

Control system analysis and design: classical and modern; transfer functions, state-space techniques;time domain analysis and design; frequency domain analysis and design; stability analysis; prototyping; Prerequisite: EE 330.

EE 438 Senior Design Project credit 3 hrs.

Electrical engineering design project. A written report and an oral defense of the project are required. Prerequisite: Graduating Senior.

EE 439 Special Topics in Electrical Engineering credit 3 hrs.

Course covers advanced topics in systems and signals, communication systems and digital signalprocessing. Prerequisite: Graduating senior.

CE 331 Digital Logic credit 3 hrs.

Basic concepts of the binary system; logic gates; combinational and sequential logic design and analysis. Students will be introduced to the design using Spice and Hardware. Prerequisites: CSc 231 andmath 143.

CE 342 Embedded Systems credit 3 hrs.

Microprocessor architecture, instruction set and operation; assemblers and assembly language programming; write, assemble, link, execute, and debug programs running on a single board microcomputer; interface the single board microcomputer to a variety of peripheral devices using serial and parallel communications; interrupt control; measure the execution times of programs running on a singleboard microcomputer. Prerequisite: Csc 337.

CE 436 VLSI System Design credit 3 hrs.

This course focuses on the design and synthesis of Very Large Scale Integrated (VLSI) chips usingCMOS technology for complex digital systems using integrated circuit cells as building blocks andemploying hierarchical design methods. Commercial design software will be used for laboratory exercises. An overview of VLSI computer-aided design (CAD) tools and theoretical concepts in VLSI architectures and algorithms will also be discussed. Prerequisites: EE 243, and Csc 337

CE 438 Senior Design Project credit 3 hrs.

Computer engineering design project. A written report and oral defense of the project are required. Prerequisite: Graduating Senior.

CE 439 Special Topics in Computer Engineering credit 3 hrs.

Course covers advanced topics in embedded systems and VLSI system design. Prerequisite:Graduating senior.

Source: Benedict College Catalogue, 2007-2009.