CollegeTransfer.Net
Toggle menu
Home
Search
Search
Search Transfer Schools
Search for Course Equivalencies
Search for Exam Equivalencies
Search for Transfer Articulation Agreements
Search for Programs
Search for Courses
PA Bureau of CTE SOAR Programs
Transfer Student Center
Transfer Student Center
Adult Learners
Community College Students
High School Students
Traditional University Students
International Students
Military Learners and Veterans
About
About
Institutional information
Transfer FAQ
Register
Login
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
EE 301: Signals and Systems I
3.00 Credits
Eastern Connecticut State University
This course studies and classifies continuous and discrete signals and systems.It presents time domain and discrete analysis of signals using the Fourier series, Laplace transforms, Fourier transforms, z-transforms, and fast Fourier transforms (e.g., differential equations, convolution, concept and meaning of impulse response); and examines frequency domain analysis, the Fourier series, and the Fourier transform as an alternative to time domain analysis.Students gain further insights into signal and system properties through the Laplace transform methods and the concept of the transfer function.(Prerequisite: EE 221) Three credits.
Share
EE 301 - Signals and Systems I
Favorite
EE 302: Feedback and Control Systems
3.00 Credits
Eastern Connecticut State University
This course emphasizes analysis and synthesis of closed-loop control systems using both classical and state-space approaches with an emphasis on electro-mechanical systems.The mathematical requirements include the Laplace transform methods of solving differential equations, matrix algebra, and basic complex variables.The discussion of classical control system design includes the modeling of dynamic systems, block diagram representation, time and frequency domain methods, transient and steady state response, stability criteria, controller action, root locus methods, the methods of Nyquist and Bode, and dynamics compensation techniques.The discussion of state-space methods includes the formulation and solution of the state equations and pole-placement design.(Prerequisite: EE 301) Three credits.
Share
EE 302 - Feedback and Control Systems
Favorite
EE 304: Signals and Systems II
3.00 Credits
Eastern Connecticut State University
This course is an introduction to the study of communications theory, including signal conversion from analog to discrete and from discrete to analog.Additional topics include filtering of continuous and digital signals; amplitude and frequency modulation; and a description of the fundamentals, implications, and filtering of thermal noise.(Prerequisite: EE 301) Three credits.
Share
EE 304 - Signals and Systems II
Favorite
EE 321: Electromagnetic Fields
4.00 Credits
Eastern Connecticut State University
This course uses vector calculus to investigate electric and magnetic fields.Topics include techniques for the computation of fields for given charge distributions; Coulomb's and Gauss' law and applications, and the significance of Poisson's and Laplace equations; solution methods; moving charges and corresponding electric and magnetic forces; electric and magnetic fields in mattes; methods of solving boundary value problems; Maxwell's equations in integral and differential form; and electromagnetic radiation and wave propagation.(Prerequisites: EE 301 or CR 310 and MA 321) Four credit
Share
EE 321 - Electromagnetic Fields
Favorite
EE 331: Analog Electronics Design
3.00 Credits
Eastern Connecticut State University
This advanced course in electronics examines high frequency response of bipolar junction transistor and field-effect transistor amplifiers using hybrid two-port active device models.Students consider the effect of feedback and frequency compensation techniques on the amplifier response and study a variety of analog circuits with respect to their analysis and applications, including active filters, oscillators, waveform generation and shaping, voltage regulator, and communication circuits.The course introduces basic power electronics device components.(Prerequisites: EE 221, EE 231) Three credits.
Share
EE 331 - Analog Electronics Design
Favorite
EE 331L: Analog Electronics Lab
3.00 Credits
Eastern Connecticut State University
This advanced lab provides insight into the functions of various application-specific electronic circuits.Experiments characterize functioning of various analog systems such as oscillators, active filters, waveform generation and shaping circuits, and voltage regulator circuits.(Prerequisite: EE 231L; Co-requisite: EE 331) One credit.
Share
EE 331L - Analog Electronics Lab
Favorite
EE 335: Microelectronics
3.00 Credits
Eastern Connecticut State University
This course covers three methods of fabricating high-density interconnection structures for manufacturing microelectronic assemblies: thick films, thin films, and printed circuit boards.The thick and thin film technologies use substrates of metalized ceramic to make the interconnections between components and are capable of fabricating integrated resistors with high precision and stability.The printed circuit board technology uses organic materials with copper laminates to etch the interconnection patterns.The individual layers are laminated to produce the multilayer structure, but do not include integrated resistors.Each of the technologies is examined to determine the electrical and physical properties of the structures.Such parameters as distributed capacitance and how they affect circuit performance are discussed.In the laboratory accompanying the course, students have the opportunity to fabricate thick and thin film circuits and to examine the structure of printed circuit boards.(Prerequisite: EE 33) Three credits.
Share
EE 335 - Microelectronics
Favorite
EE 346: Embedded Microcontrollers
3.00 Credits
Eastern Connecticut State University
This course covers the architecture of microcontrollers, including how they are constructed internally and how they interface with external circuitry.Applications for microcontrollers in both complex and simple equipment are discussed.Students learn how to apply and how to select a microcontroller for a given application.An accompanying laboratory course covers the programming of microprocessors to do a specific task.This course covers the programming and application of the PIC microcontroller.Students are able to develop programming skills using assembly language and software tools such as MPLAB IDE and MultiSim MCU.These tools are used to develop software code for practical applications such as motor speed control and voltage regulation for power supplies.(Prerequisite: EE 245 or equivalent) Three credits.
Share
EE 346 - Embedded Microcontrollers
Favorite
EE 346L: Microcontroller Laboratory
1.00 Credits
Eastern Connecticut State University
This laboratory covers the basic operation and applications of a microcontroller.Students learn to program a microcontroller to control applications such as motor speed by the use of an emulator connected to a PC.They design a circuit using a microcontroller for a specific application and write a program to control the circuit.On completion of the program, they use the emulator to program an actual microcontroller for use in their circuit.(Co-requisite: EE 346) One credit.
Share
EE 346L - Microcontroller Laboratory
Favorite
EE 350: Communication Systems
3.00 Credits
Eastern Connecticut State University
The course focuses on analog communication systems and the effects of noise on those systems, developing modulation and demodulation techniques (amplitude, frequency, and phase modulation and pulse code).It discusses dealing with non-linear system elements and presents a mathematical treatment of the effects of various noise sources on these systems.Historical design studies and topics in communication applications permit students to apply these concepts to meet system requirements.The course clarifies important concepts through simulation of modulation techniques on multimedia computing systems.(Prerequisite: EE 301) Three credits.
Share
EE 350 - Communication Systems
Favorite
First
Previous
106
107
108
109
110
Next
Last
Results Per Page:
10
20
30
40
50
Search Again
To find college, community college and university courses by keyword, enter some or all of the following, then select the Search button.
College:
(Type the name of a College, University, Exam, or Corporation)
Course Subject:
(For example: Accounting, Psychology)
Course Prefix and Number:
(For example: ACCT 101, where Course Prefix is ACCT, and Course Number is 101)
Course Title:
(For example: Introduction To Accounting)
Course Description:
(For example: Sine waves, Hemingway, or Impressionism)
Distance:
Within
5 miles
10 miles
25 miles
50 miles
100 miles
200 miles
of
Zip Code
Please enter a valid 5 or 9-digit Zip Code.
(For example: Find all institutions within 5 miles of the selected Zip Code)
State/Region:
Alabama
Alaska
American Samoa
Arizona
Arkansas
California
Colorado
Connecticut
Delaware
District of Columbia
Federated States of Micronesia
Florida
Georgia
Guam
Hawaii
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Louisiana
Maine
Marshall Islands
Maryland
Massachusetts
Michigan
Minnesota
Minor Outlying Islands
Mississippi
Missouri
Montana
Nebraska
Nevada
New Hampshire
New Jersey
New Mexico
New York
North Carolina
North Dakota
Northern Mariana Islands
Ohio
Oklahoma
Oregon
Palau
Pennsylvania
Puerto Rico
Rhode Island
South Carolina
South Dakota
Tennessee
Texas
Utah
Vermont
Virgin Islands
Virginia
Washington
West Virginia
Wisconsin
Wyoming
American Samoa
Guam
Northern Marianas Islands
Puerto Rico
Virgin Islands