|
|
|
|
|
|
|
|
|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
4.00 Credits
Continuation of Control Systems I. Students are introduced to complex second-order, and higher-order systems. Topics include system identification methods, performance parameter design trade-offs, and designing higher-order controllers. Practical applications of microcontroller-based controller design are emphasized. 3 hours of lecture, 3 hours of laboratory per week. Prerequisite: ELM-4231. [Course fee: $50.00]
-
2.00 Credits
This course emphasizes project design, planning, and manufacturing issues. Topics include planning and budgeting, safety in the design, design for manufacturability, fabrication techniques, testing for safety and reliability, and quality control. Students are given a small electromechanical design on which to apply the lecture material. Students also select and begin planning a major, team-oriented project that is completed in Projects II. The project must have major electrical and mechanical components. 1 hour of lecture, 3 hours of laboratory per week. Prerequisite: Senior standing in the BSELM program or instructor permission. [Course fee: $50.00]
-
3.00 Credits
This course is a continuation of EMT Projects I, dealing primarily with issues of largescale projects. Coordination between the members of the design teams is stressed, with frequent seminars and mini-presentations to inform everyone of the teams' progress. A major presentation of the teams' project is required at the end of the semester. 1 hour of lecture, 6 hours of laboratory per week. Prerequisite: ELM-4701. [Course fee: $50.00]
-
3.00 Credits
This is the first of a two-semester study of basic electrical circuits. Course content includes electric charge, voltage, resistance, energy, and power. DC circuit theory includes Ohm's Law, Kirchhoff's Laws, series and parallel circuits, and electrical sources. The concepts of superposition and Thevenin's Theorem are introduced as well. Laboratory sessions are used to verify and reinforce concepts introduced in lecture. A weekly recitation is used to review problem sets. Teamwork is emphasized throughout the course. 2 hours of lecture, 2 hours of laboratory, 1 hour of recitation per week. Co-requisite: MAT-1111. [Course fee: $150.00]
-
3.00 Credits
This is a continuation of ELT-1011. Course content includes the AC concepts of frequency, period, magnitude and phase of sine waves. Circuit parameters are studied as phasors and complex numbers, and are expressed in polar and rectangular forms. Topics studied include reactance, impedance, and power in series and parallel circuits and the transient behaviors of RC and RL circuits. Theorems developed in DC now used to analyze AC circuits. A weekly recitation is used for mastery of the subject. Laboratory sessions include the use of function generators and oscilloscopes. 2 hours of lecture, 2 hours of laboratory, 1 hour of recitation per week. Prerequisite: MAT-1111 and ELT- 1011. Co-requisites: MAT-1112.
-
3.00 Credits
A first course in the fundamentals of digital logic with applications. Basic principles are presented along with Boolean theorems and algebraic reduction techniques, number systems, Karnaugh mapping, and analysis of combinational logic circuits, digital arithmetic, synchronous counters, decoders, encoders, and multiplexers. Concepts and theorems developed in the classroom are explored in the laboratory through practical examples and applications. Trouble-shooting techniques for digital circuits are also developed and students learn how to properly document their results. 2 hours of lecture, 3 hours of laboratory per week. Co-requisite: ELT-1011. [Course fee: $25.00]
-
3.00 Credits
This follow-on course to ELT-1021 introduces students to flip-flops, asynchronous counters, shift registers, state tables, and state diagrams. Analog-to-digital and digital-to analog converters are covered as well as basic system memory elements. Students are introduced to the Altera software simulation program in the lab and learn how to burn their own chips. 2 hours of lecture, 3 hours of laboratory per week. Prerequisite: ELT-1021.
-
4.00 Credits
This course is an introductory study of DC and AC electrical circuits. Course content includes the basic ideas of electrical charge, current, voltage, resistance, energy and power. Capacitance, inductance, and the transient behavior of RC and RL circuits are also studied. For AC, the concepts of frequency, period, phase, and magnitude of sine waves are developed. The electrical circuit parameters are studied as phasors and complex numbers, and expressed in polar and rectangular form. Major AC topics studied include reactance, impedance, power, and resonance. Electric circuit theory includes Ohm's Law, Kirchoff's laws, series and parallel circuits, and electrical sources. Laboratory exercises develop the use of basic measurement equipment, such as the ammeter, voltmeter, and oscilloscope, while verifying the concepts studied in lectures. 3 hours of of lecture, 3 hours of laboratory per week. Co-requisite: MAT-1420. [Course fee: $150.00]
-
4.00 Credits
This course is a continuation of ELT-1031. Circuit analysis using advanced network theorems and techniques is introduced. Topics such as Superposition, Mesh and Nodal analysis, Thevenin's theorem and Controlled sources are investigated. Other topics include transformers, poly phase circuits, frequency response and response to nonsinusoidal signals. Laboratory exercises provide experience in using oscilloscopes, function generators, and frequency counters on circuits demonstrating the concepts developed in lectures. 3 hours of lecture, 3 hours of laboratory per week. Prerequisite: ELT-1012 or ELT-1031 and MAT-1420. Co-requisite: MAT-1520.
-
1.00 Credits
This course provides hands-on experience in creating technical presentations using many different software programs including MS Word, Excel, and PowerPoint. Topics include terminology, layout, chart creation, effective chart usage, and integrating text, graphics, and audio. Upon successful completion of this course students will be able to assemble and demonstrate an effective presentation. Additional topics covered are the use of analog and digital simulation tools such as MultiSim, Podcasting, Vodcasting and LabView. 3 hours of laboratory per week; co-requisite ELT-1011 or ELT-1031 and MAT-1112 or MAT-1420.
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Privacy Statement
|
Terms of Use
|
Institutional Membership Information
|
About AcademyOne
Copyright 2006 - 2024 AcademyOne, Inc.
|
|
|