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16.100: Introduction to Electrical and Computer EngineeringCredits

3.00 Credits

University of Massachusetts-Lowell

1 This introductory course is designed to expose students to many of the new developments in Electrical Engineering, especially those on-going in the Department. It will also provide information about co-op opportunities and career planning, while also allowing faculty in the Department to describe their courses and answer questions

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16.201: Circuit Theory ICredits

3.00 Credits

University of Massachusetts-Lowell

3 Terminal characteristics of ideal elements, active and passive. Ohm's law and Kirchoff's laws. Introduction to network topology, independent variable, loop and nodal analysis with matrix methods. Definition and consequences of linearity. Superposition theorem. Concept of excitation and response. Passive equivalent circuits. Thevenin's and Norton's theorems. Ideal inductance and capacitance, volt-ampere characteristics, energy relations, graphical differentiation and integration. First order transients; initial conditions, natural response, and natural frequences. Network response to unit step function and unit impulse. Second order transients: RLC circuits, natural frequencies and the complex-frequency s-plane. Pre-Requisite: 92.132 Calculus II with a grade of 'C' or better. Co-Requisite: 16.207 or 16.212 Basic EE Lab Pre-Req: 92.132 Calculus II with a grade of 'C' or better; Co-Req: 16.207 or 16.212 Basic EE Lab; and GPA of at least 2.0

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16.202: Circuit Theory IICredits

3.00 Credits

University of Massachusetts-Lowell

3 Discusses the sinusoidal forcing function, complex numbers, phasors, sinusoidal steady-state conditions, impedance, average real power, reactive power and rms values, exponential forcing function, poles and zeros in the s-plane, concept of the system function and its use in determining the forced response and resonance, reactance cancellation and concept of s-plane vectors. The course also covers Thevenin's and Norton's theorems, superposition, reciprocity, and maximum power in the frequency domain, impedance and admittance. Introduction to matrices and their use in circuit analysis, magnetic coupling, mutual inductance, and ideal transformer. Engineering Science (100%). Pre-Req: 16.201 Circuit Theory I; Co-Req: 16.208 Basic EE Lab II

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16.207: Basic Electrical Engineering Laboratory ICredits

16.20 Credits

University of Massachusetts-Lowell

2 Experimental work designed to verify theory and to acquaint students with electrical measurement techniques: experiments on meters, bridges, and oscilloscopes. Experiments are correlated with course 16.201 and concern: resistive measurements, Kirchhoff's laws, network theorems, conservation of power and maximum power transfer, inductance and capacitance, and first and second-order transients, operational amplifiers. Co-Req: 16.201 Circuit Theory I

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16.208: Basic Electrical Engineering Lab IICredits

16.20 Credits

University of Massachusetts-Lowell

2 Presents experimental work designed to emphasize electrical measurement techniques of linear systems with time-varying signals. Waveform measurements with dc and ac meters as well as advanced use of the oscilloscope are also discussed. Experiments are integrated with course 16.202. Experiments cover: Kirchhoff's laws for phasors, bode plots, magnitude and phase measurements of impedance, network theorems, frequency response, resonance, inductance, maximum power transfer, and MATLAB techniques. Engineering Science (50%); Engineering Design (50%). Pre-Req: 16.207 Basic EE Lab I; Co-Req: 16.202 Circuit Theory II

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16.211: Fundamentals of Electricity ICredits

3.00 Credits

University of Massachusetts-Lowell

3 Serves as an introduction to direct current and alternating current analysis of electric circuits, with emphasis on energy and power. Covers design and use of multi-range voltmeters, ammeters, and ohmmeters, the use of bridges and oscilloscopes, phasor analysis of AC circuits, Trigonometric Fourier series, BODE plots, transformers, relays, solenoids, mechanical analogs and magnetic analogs with the application of Fourier and BODE techniques. Students will also be introduced to DC and AC motors and generators, residential circuits, equipment protection, and introduction to digital logic including minimization techniques. Availability and cost of instruments and components is stressed throughout this course. Not for EE majors. Engineering Science (100%). Pre-Req: 92.132 Calculus II; and minimum GPA of 2.0

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16.212: Fundamentals of Electricity LaboratoryCredits

3.00 Credits

University of Massachusetts-Lowell

1 Lab for 16.211 Fundamentals of Electricity. See course description for 16.211. Not for EE majors. Co-Req: 16.211 Fund of Electricity; Pre-Req: 95.141 Physics I

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16.213: Fundamentals of Electricity ICredits

3.00 Credits

University of Massachusetts-Lowell

3 Serves as an introduction to direct current and alternating current analysis of electric circuits, with emphasis on energy and power. Covers design and use of multi-range voltmeters, ammeters, and ohmmeters, the use of bridges and oscilloscopes, phasor analysis of AC circuits, Trigonometric Fourier series, BODE plots, transformers, relays, solenoids, mechanical analogs and magnetic analogs with the application of Fourier and BODE techniques. Students will also be introduced to DC and AC motors and generators, residential circuits, equipment protection, and introduction to digital logic including minimization techniques. Availability and cost of instruments and components is stressed throughout this course. Not for EE majors. Engineering Science (100%). Pre-Req: 92.132 Calculus II with a grade of 'C' or better; Co-Req: 16.207 or 16.212 Basic EE Lab; and GPA of at least 2.0

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16.214: Fundamentals of Sound RecordingCredits

3.00 Credits

University of Massachusetts-Lowell

3 Similar to 16.211 but tailored for Sound Recording Technology students only Academic Sub-Plan Sound Recording Technology only; Pre-Req: 92.132 Calculus II

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16.223: Industrial Electronics ICredits

3.00 Credits

University of Massachusetts-Lowell

3

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