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Click on the name of an online engineering undergraduate course to view the detailed information; you can also find out about the college or university offering the category by clicking on "School's Profile". |
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Name (Section Id) |
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Program |
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Degree |
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Name of College, University |
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School's Profile |
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Digital and Internet Telephony Lab (EET-484L) |
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Engineering |
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DeVry University Online |
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Details |
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This lab focuses on digitizing, multiplexing, and transmitting and receiving signals through the PSTN. Students analyze the effects of digitizing and bandlimiting of voice, and multiplexing of multiple channels of data on a single T1 line. Transmission media distortion effects are also analyzed. A team project is included. |
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Digital Circuit Analysis and Design (EE451) |
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Engineering |
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Grantham University |
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Details |
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This course emphasizes the basic concepts underlying the analysis and design of all discrete and integrated circuits. The best way to learn electronic design is by designing circuits?this course includes many problems in which the students are required to design circuits. Topics include diodes, bipolar and field-effect transistors, transistor DC models, designing a stable operating point, small signal circuit models, single and multistage amplifiers at low-mediumhigh frequencies, and operational amplifiers. |
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Digital Circuits (EET-122) |
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Engineering |
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DeVry University Online |
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Details |
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This course introduces digital technology and emphasizes fundamentals of digital logic design. Topics include Boolean algebra, truth tables, timing diagrams, K-maps and logic gates. Application of concepts focuses on combinatorial circuits such as adders, parity checkers, decoders and multiplexers using both fixed-function integrated circuits and programmable logic devices (PLDs). Special emphasis is given to circuit analysis, design and troubleshooting. Basic electrical concepts such as current, voltage and resistance are also included. |
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Digital Circuits Lab (EET-122L) |
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Engineering |
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DeVry University Online |
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Details |
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Students construct, test and analyze basic digital combinatorial circuits using test instruments. Small-scale integrated (SSI) and medium-scale integrated (MSI) circuit components as well as PLDs, such as complex PLDs, are used to realize digital designs. Simulation software is used to perform computer-aided analysis and troubleshooting. |
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Digital Design Lab (EE124) |
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Engineering |
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Grantham University |
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Details |
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This course complements CE470. Topics include logic gates, comparators, decoders and encoders, flip-flops, the 555 timer, asynchronous and synchronous counters, counter decoding, shift registers, and digital systems applications. |
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Digital Systems (EET-202) |
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Engineering |
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DeVry University Online |
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Details |
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This course introduces sequential logic, beginning with flip-flops and continuing through the introduction of microprocessor systems. The course includes designing and analyzing counters, registers, state machines and memory devices, and introduces microprocessors and microcomputers. Circuit realization using programmable logic devices (PLDs) is included, as are hardware description languages (HDLs). |
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Digital Systems Lab (EET-202L) |
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Engineering |
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DeVry University Online |
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Details |
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This lab focuses on implementing sequential digital systems using computer-aided design (CAD) tools for analysis, simulation and design. Circuits constructed are microprocessor subsystems, including memory systems and sequencers. Several sequential circuit designs are implemented. |
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DIVE MEDICINE (EMS 311) |
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Engineering |
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American College of Prehospital Medicine |
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Details |
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Dive medicine offers the student the opportunity to become familiar with the intricacies of injuries and illnesses acquired in the hyperbaric environment, their diagnosis, and the methods employed in treating these unique diseases and injuries. Additionally, the student will become familiar with the principles of physics that affects divers. Each student, in addition to the basic text utilized in this course will receive a copy of the professor's book (Dr. Clinchy), Dive/First Responder. Students are required to maintain a journal and enter responses to questions and exercises from the study guide. Evaluation for the course is based on the student's journal an objective exam at the end of the first six weeks and a final objective exam. |
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Earth Science (0634-311) |
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Engineering |
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Roosevelt University |
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Details |
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Applied meteorology and crustal dynamics (earthquakes, volcanic activity, hurricanes, tornadoes, floods, etc.) |
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EHS Internal Auditing (0630-790) |
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Engineering |
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Roosevelt University |
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Details |
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This course addresses establishing and maintaining EHS auditing systems to examine how environmental, health and safety aspects are being managed relative to voluntary and regulatory standards. Students will be prepared to design, implement and evaluate auditing programs, and will practice auditing skills. This course includes an Executive Leader session. |
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EHS Systems Design & Perf Measurements (0630-740) |
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Engineering |
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Roosevelt University |
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Details |
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This intensive, team-taught course examines the design and development of environmental, health and safety management systems to implement an organization's vision, mission and policies. Provides strategies for determining what needs to be measured in order to assess performance and ensure continual improvement. Introduces and develops data management procedures that correspond to organizational data needs for internal control and external information demands. |
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Elec Machines & Transfor (0609-337) |
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Engineering |
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Roosevelt University |
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Details |
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Topics include power concepts, magnetism, electro-magnetic force, fields, armature, commutators, rotors, stators, brushes, starters, controllers, DC motors, DC generators, AC motors, alternators, single-phase and three-phase dynamos, three-phase circuits, phasors, transformer properties, isolation, efficiency and voltage regulation. On-campus lab session Saturday, Dec. 14, 2002. |
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Electrical Circuit Analysis (EET-116) |
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Engineering |
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DeVry University Online |
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Details |
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In this course students analyze direct current (DC) and single-frequency alternating current (AC) circuits using Thevenin's and Norton's theorems, mesh and nodal equations, and phasor methods. Computer analysis of circuits is emphasized. Students entering this course must be familiar with electric and magnetic principles of components used in DC and AC circuits, as well as with Ohm's and Kirchhoff's laws. |
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Electrical Design Principles I (0609-411) |
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Engineering |
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Roosevelt University |
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Details |
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A service course offered to nonelectrical majors studying in the technical disciplines. Topics covered include basic electrical circuits, network theorems, power and energy concepts, P.F. correction and basics of transformers. The laboratory is an integral part of the course, and the experiments complement lecture material. On-campus lab required. Contact Jim Scudder, EMET Program, 716-475-2055 or email @ JFSITE@rit.edu |
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Electrical Design Principles II (0609-412) |
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Engineering |
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Roosevelt University |
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Details |
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An introductory survey course in the basics of analog and digital electronics. Analog topics include basic semiconductors, transistor circuits and operational amplifiers. Fundamental digital logic concepts include an introduction to combinational and sequential logic. Various transducers and associated circuits are introduced. This course is intended as a service course for non-electrical majors. On-site laboratory required. For more information contact Prof. James Scudder, EMET Program, at 585-475-2055 or via 1-800-CALLRIT(v/tty). E-mail at jfsite@rit.edu. |
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Electrical Power Systems Analysis (EE481) |
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Engineering |
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Grantham University |
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Details |
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This course presents both analysis and design topics to expose students to real-world problems. Industry standards are used to teach students about accepted engineering principles, practices, and procedures. The course presents a broad, fully integrated overview of electric utility power systems, including the actual layout of a power system?generation, transmission, distribution facilities, etc.? laying a firm foundation in the overall function of the power system, rather than the functions of the individual components. Other topics include application of transformers to electrical utility distribution systems, including basic construction, connections, winding voltage designations, standard ratings, loading calculations, sizing to enable proper selection of transformer ratings, autotransformers, distribution substation, grounding, and network transformers. |
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Electronic Circuit Analysis (EET-248) |
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Engineering |
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U |
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DeVry University Online |
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Details |
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This course focuses on analyzing and designing amplifiers, wave shaping circuits and active filters using transistors and integrated circuits. Students use software to test and analyze circuit performance, and must have prior knowledge of solid-state analog devices and their applications in various analog circuits. |
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Electronic Circuits (EET-240) |
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Engineering |
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DeVry University Online |
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Details |
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This course details characteristics and operation of solid-state semiconductor devices ranging from discrete diodes and transistors to integrated operational amplifiers. Analog circuit design applications of such devices is emphasized. The principles of equivalent circuit models and transfer functions are used throughout the course to introduce and integrate the concepts of systems design and signal analysis. Computer simulation software is used extensively. |
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Electronic Circuits Lab (EET-240L) |
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Engineering |
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DeVry University Online |
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Details |
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Exercises in this lab provide hands-on experience with topics covered in the classroom. Students gain experience in designing, building and measuring performance characteristics of circuits that use devices such as diodes, bipolar junction transistors, field-effect transistors, and operational amplifiers. |
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Electronic Communication Principles and Systems (EE125) |
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Engineering |
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Grantham University |
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Details |
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This course is an introduction to the basic principles underlying the analysis and design of communication systems, featuring thorough coverage of all relevant topics in communication system design. Topics include baseband and carrier modulation, channel distortion, channel equalization, synchronization and analog modulation techniques. Topics also include: amplitude and frequency modulation, AM and FM reception, receiver sensitivity, demodulation techniques, waveform analysis using oscilloscopes, and sound recording and playback. |
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