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Course Criteria
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3.00 Credits
3 cr. (formerly EET-H1010) Corequisite: MAT*H172. An introduction to the fundamental concepts of electricity and electronic technology. A study of DC and AC electrical circuits with the emphasis on instrumentation, measurements, devices, and application of theory to practical systems. Topics covered include electrical circuits, applied electrical technology, transformers, motors and generators, electronic fundamentals and devices. Two class and two laboratory hours weekly.
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1.00 Credits
1 cr. (formerly EET-H1103) Prerequisite or Corequisite: Some experience with WINDOW operating system. Introduction to the basics of double sided Printed Circuit Board construction and soldering components to these boards. Completion of a small fabrication kit including PC Board, leading to better physical understanding of PCB's as a prerequisite to using OrCAD Layout software. The CAD then moves into the CAD laboratory to study the concepts of schematic capture (OrCAD CAPTURE) into a NETLIST and on to PCB layout. Three laboratory hours weekly.
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4.00 Credits
4 cr. (formerly EET-H1100) Corequisite: MAT*H172. The fundamentals or direct current circuits are established. Emphasis is placed on the characteristic description of circuit behavior. Ohm's law and Kirchhoff's law are used to determine circuit characteristics.Circuit rules , methods and theorem are covered extensively. Resistance, capacitance and transient responses are introduced. Formal laboratory report writing is required. Four class hours and two laboratory hours weekly.
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4.00 Credits
4 cr. (formerly EET-H1110) Prerequisites: EET*H110. Corequisite: MAT*H185. The application of circuit analysis techniques acquired in Electric Circuits I are extended to circuits excited by AC sources. Emphasis is placed on solving circuit problems using complex numbers and phase diagrams. Topics include: inductance, transients, filter theory, mutual inductance, transformer theory, and an introduction to polyphase circuits. Formal report writing is required. Three class and two laboratory hours weekly.
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2.00 Credits
2 cr. (formerly EET-H126) Co-requisite: MAT*H172. This course will introduce the student to data acquisition using the computer. Students will learn how to create "virtual instruments"using LabVIEW?, a powerful graphical programming language for data acquisition and manipulation. Emphasis is placed on standard programming structures, real-time data acquisition, mathematical manipulation and graphing. Four laboratory hours
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4.00 Credits
4 cr. (formerly EET-H1120) Prerequisites: EET*H110. Corequisites: EET*H114, MAT*H185. Semiconductor physical concepts and P-N junction theory is established and applied to basic devices such as diodes, bipolar junction transistors, and field effect transistors. Circuit applications of these and other special devices are studied, with an emphasis on operating principles and analysis techniques. Three class and two laboratory hours weekly.
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3.00 Credits
3 cr. (formerly EET-H2108) Prerequisites: EET*H126, 114, MAT*H185. The analysis of RLC circuits using classical calculus for inputs which are both sinusoidal and non-sinusoidal are examined. Resulting first and order differential equations are solved using classical methods and by use of Laplace transforms. Basic derivatives and integration are taught as they apply to RLC circuitry. Three class and three laboratory hours weekly. This course may be substituted for MAT*H232 for Electrical students only.
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4.00 Credits
4 cr. (formerly EET-H2100) Prerequisite: EET*H136. Corequisites: MAT*H185. Characteristics of small signal amplifiers using BJT's and FET's are examined, and followed up witha study of linear op-amp circuits. Comparators and Schmitt Triggers using op-amps are also explored. Basic characteristics of power amplifiers and oscillators are studied, and the operation of the thyristor family of devices is introduced. Three class and three laboratory hours weekly.
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3.00 Credits
3 cr. (formerly EET-H2142) Prerequisites: EET*H136, 252, PHY*H122. The course will cover the basics of fiber optics, how it is manufactured, its applications and fiber performance. The different types of construction of fiber optic cabling will be discussed and illustrated, with the advantages and disadvantages of each. Different types of connectors will be covered in both the classroom and the laboratory with the student making many of the actual connections. Measurement of the transmission characteristics of cables will be measured in the laboratory using a Time Domain Reflectometer. The use of single mode and multimode cabling relative to the type of transmission will be discussed. Three class and three lab hours weekly.
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3.00 Credits
3 cr. (formerly EET-H2515) Prerequisite: EET*H126, 114. Corerequisites: EET*H232, 252. A study of the operating principles of electronic and electrical instruments. Both analog and digital instruments are covered. Sources of instrument errors and standards of measurement are included, along with the design of VOM circuits and basic electronic instruments. Also included is an introduction to LABVIEW (Basic Virtual Instrument Programming) and data acquisition. Three class and three laboratory hours weekly.
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