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Course Criteria
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3.00 Credits
Principles and techniques for using dedicated CAD programs to fabricate multi-layer, plated-through-hole printed circuit boards. Course work will incorporate surface mount technology devices, pick and place assembly, screening, and solder reflow processes. Prerequisites: a grade of C or better in ELEC 100 or ELEC 190 2 credits (1 lecture hour, 2 laboratory hours), spring semester
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3.00 Credits
An introduction to solid state devices, including diodes, transistors, and FETs. Students are taught the theory of operation, device DC biasing, and are introduced to the concept of amplification and gain. Students will also model circuits using graphical PSPICE. Prerequisite: minimum C grade in ELEC 100 or permission of instructor 4 credits (3 lecture hours, 2 laboratory hours), spring semester
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4.00 Credits
Techniques of accurately measuring voltage, current, resistance, inductance, capacitance, time and frequency, using both analog and digital instruments. Errors introduced by the instruments and instrument errors themselves will be studied. Methods of data presentation will be covered, including computer data gathering and presentation. 4 credits (3 lecture hours, 3-6 lab hours), available for industrial training
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4.00 Credits
A continuation of Electronic Measurement Techniques I, stressing the electronic measurement of non-electronic or non-electrical quantities. Emphasis will also be placed on the automatic gathering and presentation of data from measurement sessions. 4 credits (3 lecture hours, 3-6 lab hours), available for industrial training
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2.00 Credits
A course in computer programming used as a tool to solve technical problems. Covers the fundamentals of program design utilizing the "C" languagewith comparisons to FORTRAN, BASIC, and Assembler. The course also includes algorithm design and program solutions to electrical and mechanical problems. Co-requisite: ELEC 101 and MATH 103 2 credits (2 lecture hours), spring semester
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3.00 Credits
The student will learn the rules governing basic direct current circuits and passive components, as well as the methods of measuring these properties. Fundamental analysis of basic automotive series and parallel circuits, and measurement with digital meters and oscilloscopes will be covered. Simple controlling elements such as basic relays, diodes and transistors used as switches will be examined. Practical troubleshooting using digital meters and oscilloscopes (voltage drops, current testing, and resistance checks) are covered. Prerequisite: ASET 103, AUTO 104, or permission of instructor 3 credits (2 lecture hours, 2 laboratory hours), spring semester
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3.00 Credits
The student will study circuits and elements used to make logical decisions and do control, starting with simple series and parallel switches, relay logic, and solid state logic elements, including transistors and integrated circuits. Elements and devices used to interface between the electro mechanical world and the electrical world will be studied. The use of timing diagrams will be examined. Basic operation of the microcontroller will be introduced. 3 credits (2 lecture hours, 1 recitation, 2 laboratory hours), available for industrial training
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4.00 Credits
An introductory electric circuits course for non-electrical majors. Course material covers basic DC and AC circuits utilizing resistors, inductors, capacitors, relays, and transformers. Students are taught to work competently with sinusoidal voltage expressions, sinusoidal phase displacement, complex numbers, complex impedance and circuit power factors. 4 credits (3 lecture hours, 2 lab hours), available for industrial training
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3.00 Credits
An exploration of AC and DC motors, their controls, and AC power distribution. Students will develop a working knowledge of the operations, advantages, and disadvantages of each type of electrical machine. A wide variety of controls will be explored to allow the student to develop an appreciation of control schemes applied to motors. Co-requisite: MATH 102 3 credits (2 lecture hours, 2 laboratory hours), fall semester
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3.00 Credits
A course in solid state circuit analysis addressing small and large signal amplification in transistor and FET amplifiers, differential amplifiers, and linear integrated circuits. Amplifiers will also be modeled using graphical PSPICE. Prerequisite: minimum C grade in ELEC 101 and ELEC 122 4 credits (3 lecture hours, 2 laboratory hours), fall semester
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