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Course Criteria
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2.00 Credits
Topics include power concepts, magnetism, electro-magnetic force, fi elds, armature, commutators, rotors, stators, brushes, starters, controllers, DC machines, AC motors, alternators, single-phase and three-phase dynamos, three-phase circuits, phasors, transformer properties, isolation, effi ciency and voltage regulation. (0609-202 or 0609-216 or 0609-411) Class 3, Lab 2, Credit 4
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3.00 Credits
An introduction to electronic circuits using semiconductor diodes and bipolar junction transistors. Emphasis is placed on device characteristics and specifi cations, biasing circuits, transistor modeling and applications in small signal amplifi ers. Note: This course has been renumbered originally 0609-203 (0609-202 or 0609-216) Class 3, Lab 3, Credit 4
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2.00 Credits
A continuing course in the analysis and design of electronic circuits. Emphasis will be on the characteristics, operation, and biasing of both insulated gate fi eld effect transistors and the use of small signal parameters. Students are introduced to frequency response of circuits, differential amplifi ers and power electronics, including class A, B, and D amplifi ers. (0609-360 or 0609-203) Class 3, Lab 2, Credit 4
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2.00 Credits
The operational amplifi er is covered in detail. A wide range of its application are explained and explored, including many amplifi ers and comparators. DC and AC characteristics are studied. Frequency responses of RC and op-amp circuits are covered. (0609-361 and 1016-231) Class 3, Lab 2, Credit 4
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2.00 Credits
This course applies the concepts of circuits and electronics to basic analog communication circuits for amplitude and frequency modulation. Topics studied are Fourier Analysis, AM and FM transmission and reception, phaselocked loops, synthesizers, oscillators, and DSB and SSB communication systems. (0609-362) Class 3, Lab 2, Credit 4
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4.00 Credits
An introduction to advanced circuit analysis techniques, including signal decomposition by Fourier Series, circuit characterization in the plane using Bode straight line approximation or polzero plots, Laplace transform methods for solution of circuit transients, and investigations of active circuit stability. (1016-304, 0609-333, 0609-202 or 0609-216 or equivalent with Pspice or other simulation software) Class 4, Credit 4
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2.00 Credits
Closed-loop control systems are analyzed with respect to their stability, steady-state accuracy, and transient response. The design of compensation to improve system performance is included. (0609-403, 1016-304) Class 3, Lab 2, Credit 4
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1.00 Credits
This course is an introduction to the cooperative educational placement process at RIT, the programs in the department, and RIT resources. Topics include engineering technology vs. engineering, review of resources available at RIT, the co-operative education placement process, the ethical expectations of employers for co-op students, and RIT during a job search. (Third year student in Electrical Computer or Telecommunications Engineering Technology during the current academic year.) Class 1, Credit 1
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2.00 Credits
Development and application of the general transmission line equation starting from the distributed lumped LC model. Topics include the propagation of electromagnetic waves in a coaxial line; voltage, current and impedance; graphical methods for analysis; transmission lines as circuit elements. (1016-304, 0609-202 or 0609-216, 0609-403) Lecture 3, Lab 2, Credit 4
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4.00 Credits
This course explores the legal characteristics and limitations of intellectual property rights protected by patents and trade secrets through study of relevant statutes, court decisions, and inventor behavior. The course is appropriate for anyone who anticipates involvement in the creation or management of intellectual property rights. Note: A party's legal rights depend upon their unique and specific factual situation. This course does not provide legal advice or direction. (Third year status or permission of instructor) Credit 4
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