Skip to Content

Course Search Results

  • 4.00 Credits

    Advanced calculus-based topics related to electronic circuit analysis, Laplace transforms, differential equations, Fourier series, Fourier transforms, and applications. Lecture and lab combination. Laboratory activities include circuit design, construction, computer simulation, and analysis. Prerequisite:    CEET 2110 and CEET 2140 and EET 2110 and EET 2140 and MATH 1210 and MATH 1220 and MATH 2210
  • 4.00 Credits

    Continuation of Circuit Analysis, CEET 3010. Topics include active and passive filters, Pole-zero analysis, stability, Bode diagrams, frequency response, and applications. Lecture and lab combination. Laboratory activities include circuit design, construction, computer simulation, and analysis. Prerequisite:    CEET 3010 and EET 3010
  • 4.00 Credits

    Introduction to field programmable gate arrays (FPGA) and application specific integrated circuit (ASIC) design. Lecture and lab combination. Laboratory activities to include the use of computer design tools to design, model, simulate, and program gate arrays and application specific integrated circuits. Prerequisite:    CEET 2150 and EET 2150
  • 4.00 Credits

    Introduction to electronic data acquisition, data analysis, error analysis, signal measurement, and automatic testing techniques. Lecture and lab combination. Laboratory activities to include the design, construction, and analysis of measurement circuits, data acquisition circuits, instrumentation devices, and automatic testing. Prerequisite:    CEET 2110 and CEET 2170 and EET 2110 and EET 2170
  • 4.00 Credits

    Microprocessor system development using modern software design principles and high level programming languages. Topics include peripherial interfacing, real-time operating systems and debugging techniques. Prerequisite:    CS 1410 and CS 2250 and EET 2150
  • 4.00 Credits

    An introduction to real-time kernals and operating systems. Priority-based pre-emptive scheduling, intertask communication, and intertask sychronization will be studied. Other topics include priority inversions, semaphores, mutexes, context switches, rate monotonic analysis (RMA), various kernal services, finite state machines, and nested state machines. Prerequisite:    CEET 2150 and EET 2150
  • 3.00 Credits

    Engineering problem solving using the Internet, professional journals, and human networking. Three styles of writing emphasized; technical descriptions, historical perspectives of technology, and technical defensible arguments.
  • 4.00 Credits

    This course provides an in-depth study of several serial communication standards and how to implement them in embedded systems. The standards addressed in this class include RS232, RS485, Controller Area Network (CAN), and Ethernet. Emphasis will be placed on utilizing the stacks and protocols for each standard. The channel bandwidth, noise, and data error rate will be addressed. Wireless methods of serial communication will be surveyed. Prerequisite:    CEET 2150 and EET 2150
  • 2.00 Credits

    EET 3090 Project Management course is designed to prepare students for the senior capstone project. The course will include development of a contract, goal setting, time management, budgeting, project funding, project leadership and team building principles. Engineering economics, team work, quality statistics and continuous improvement will also be discussed. Other topics include project life cycles, organization and risk management. Prerequisite:    EET 1110 and EET 1140 and EET 2010
  • 3.00 Credits

    The purpose of the EET 3100 Renewable Energy course is for each student to learn the fundamental knowledge and technology of various types of renewable energy including solar energy, wind power, hydroelectric, geothermal energy, biomass and ocean energy. This course discusses the limitations and the impacts of using fossil fuel energy and its possible impact on global climate change. This course will enable students to build an essential foundation towards the specific applications of renewable energy such as solar PV (Photovoltaic) systems, wind turbine systems and micro-hydro systems. Incentives, rebates and policies from federal, state and local power companies will also be addressed in the class. The students will learn how to acquire professional certifications if they are interested in developing a career in the area of renewable energy. Prerequisite:    EET 1110 and EET 1850