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Course Criteria
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2.00 Credits
(Formerly ELC 173) Introduction to network theorems and solutions, to include Thevenin's Theorem, Norton's Theorem,Mesh analysis, Nodal analysis, Superposition and other analysis techniques. Corequisite: EET 170 Course fee
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2.00 Credits
(Formerly ELC 174) Introduction to AC circuit fundamentals. Study of circuitry consisting of AC sources, resistors, inductors, capacitors and transformers. Course material covers, reactance, impedance, vectors, current and voltage phase relationships, apparent and reactive power, complex notation. Q, resonance and filters are discussed. Prerequisite: EET 170 and MTH 122 Corequisite: MTH 123 Course fee
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2.00 Credits
(Formerly ELC 175) AC network theorems and solutions, to include Thevenin's Theorem, Norton's Theorem, Max PowerTransfer Theorem, Mesh analysis, Nodal analysis, superposition and other analysis techniques. Series and parallel resonance will also be included with discussion of passive filter operation. EET 175 is a continuation of EET 174 for the Electrical Engineering Technology AAS degree. Prerequisite: EET 174 Corequisite: MTH 123 Course fee
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2.00 - 3.00 Credits
(Formerly ELT 211) This is a continuation of EET 113 with an emphasis on the development of frequency response characteristics of operational amplifiers, open and closed loop response, negative and positive feedback, active filters, oscillators/timers, voltage regulators, basic op-amp circuits, data conversion circuits and control circuits. Prerequisite: EET 113 Course fee
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2.00 - 3.00 Credits
(Formerly ELT 212) Principles of operation and design of electronics equipment including radio fundamentals, radio receivers, transmitters, antennas and transmission of RF energy. Digital communications will be covered. Prerequisite: EET 113, EET 174 and EET 175 Course fee
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2.00 - 3.00 Credits
(Formerly ELT 213) Principles of operation, performance, and design of digital circuits and digital instrumentation. Number systems including binary; Boolean algebra and application to digital logic; digital logic circuits; digital logic application to electronic instrumentation. Note: Recommended preparation MTH 117 or MTH 122 or equivalent knowledge. Course fee
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2.00 - 3.00 Credits
(Formerly ELT 216) Introductory course in microprocessors dealing with hardware and software. The Pic micro controller will be used as the target processor. Hardware configuration including CPU, Memory, I/O, and Assembly language programming with the PIC 16F84 instruction set will be studied. This course also provides a means to learn about embedded Microcontroller-based programming techniques through the use of Microchip integrated MPLAB environment. Prerequisite: EET 213, CIT 134 or CIT 136 Course fee
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2.00 - 3.00 Credits
(Formerly ELC 230) Principles of design and construction of many types of motors and generators including servos, synchros, motor and generator control circuits, and industrial application. Course oriented to troubleshooting and repair techniques. Note: ELC 114 is recommended. Prerequisite: EET 170, EET 174 or ELC 172 Course fee
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2.00 - 3.00 Credits
Graphical language used by engineers, designers and drafters to communicate technical ideas in the context of the engineering design/manufacturing process in industry. A course covering topics such as technical sketching, measurement/scaling, geometric constructions, multiview/ working drawings, auxiliary projection, pictorials, solid modeling and descriptive geometry. The use of CAD is emphasized throughout the course. Note: Prior completion of geometry or a high school drafting class is strongly recommended. Course fee IAI: EGR 941, MTM 911
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1.00 - 5.00 Credits
Analysis of forces on structural and mechanical systems: resultants of force systems; algebraic and graphical conditions of equilibrium of force systems; analysis of forces acting on members of frames, trusses, etc; forces due to friction and properties of areas. Mechanical and physical properties of materials such as stress, strain, and modulus of elasticity appropriate to the design of engineered structures including frames, machines and buildings. Analysis and design of structural joints, torsional shafts, beams and columns. Analysis of structures with combined loading. Includes laboratory experiments/demonstrations. Prerequisite: PHY 121 and MTH 117 Offered spring only.
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