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Course Criteria
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3.00 Credits
Prerequisites: MATH 123, PHYS 151. Corequisite: EE 210L.Electric fields. Magnetic fields. Ohm's law. Kirchoff's laws. Physics of inductance and capacitance. Conservation of energy. Introduction to RL, RC and RLC circuits. Introduction to phasors. Introduction to electric machinery, computer electronics, electromagnetic radiation, and communication. (Lecture-problems 3 hours) Letter grade only (A-F).
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1.00 Credits
Corequisite: EE 210. Laboratory experiments demonstrating behavior of resistive circuits; capacitors and inductors; transient RL and RC circuits; sinusoidal (phasor) RL, RC and RLC circuits; motors, generators, and transformers. Letter grade only (A-F).
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3.00 Credits
Prerequisites: EE 210 or PHYS 152, MATH 224. Linear circuit analysis techniques including circuit transformations, mesh and node analyses. Thevenin's, Norton's, Superposition, and Maximum Power Transfer theorems. Transient analysis of RL, RC and RLC circuits. Phasors. Power concepts. Nonlinear circuits including diodes. Circuit solution using PSpice. (Lecture-problems 3 hours) Letter grade only (A-F). (211, CAN ENGR 12; EE 211+211L, CAN ENGR 6)
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1.00 Credits
Corequisite: EE 210 or EE 211. Laboratory investigation of Ohm's Law, Kirchhoff's Laws, voltage and current division, mesh and nodal analysis, Thevenin and Norton equivalents, superposition, simple RL, RC, RLC circuits, phasors. Use of voltmeters, ammeters, ohmmeters and oscilloscopes. Identification of unknown elements. (Laboratory 3 hours) Letter grade only (A-F).
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3.00 Credits
Prerequisite: Sophomore standing. Overview of the fundamentals of nanoscience and nanotechnology, a wide range of applications, and issues that affect widespread use of these technologies based on ongoing research and discourse. An interdisciplinary course, taught by an interdisciplinary team of Instructors. Students will observe nature and matter in submicron and nanometer scale. (Lecture-problems 3 hours) Letter grade only (A-F).
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3.00 Credits
Computer security and information assurance as crucial challenges, consequences for individuals, economy, and society as a whole. Security threats and vulnerabilities in the use of computer systems. Tools and controls to reduce or block these threats. Law, privacy, and ethics. (Lecture-problems 3 hours) Letter grade only (A-F). ? 301 Sequential Circuit Design (3) Prerequisite: EE 201. Synthesis of sequential circuits. Asynchronous sequential circuits, algorithmic state machines, hardware design languages, sequential circuit design using programmable logic devices. (Lecture-problems 3 hours) Letter grade only (A-F).
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1.00 Credits
Prerequisite or Corequisite: EE 301. Design, implementation, and verification of digital systems using medium scale integrated and large scale integrated circuits. (Laboratory 3 hours) Letter grade only (A-F).
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3.00 Credits
Prerequisites: EE 202; EE 210 or 211; and MATH 370A or equivalent.Fundamental concepts of signals and systems. Laplace Transforms. Fourier Series. Fourier Transforms. Two-port parameters. (Lecture-problems 3 hours) Letter grade only (A-F).
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4.00 Credits
Prerequisite: EE 211. Analysis and design of diode, bipolar junction transistor, field-effect transistor (MOSFET and JFET), and CMOS circuits. Op-Amp linear and nonlinear circuit applications. Digital electronic circuits. Laboratory includes transistor and operational amplifier circuit design and CAD tools.(Lecture-problems 3 hours, laboratory 3 hours) Letter grade only (A-F).
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1.00 Credits
Prerequisite or Corerequisite: EE 330. Transistor and operational amplifier circuit design laboratory. (Lab 3 hrs) Letter grade only (A-F).
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