CEET 3000. Engineering Ethics (1) Scope and aims of engineering ethics, moral reasoning, ethical theories, social experimentation, responsibility for safely and to employers, rights, global issues, management, consulting, and leadership. Prerequisite: PHIL HUl 120. CEET SI3010. Circuit Analysis (5) F 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. CEET 2110 and MATH 1220. Co-requisite: CEET 3005. CEET 3020. Active Filters (4) S Continuation of Circuit Analysis, CEET SI3010. 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 SI3010. CEET 3030. FPGA and ASIC Design (4) F 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. CEET 3040. Instrumentation and Measurements (4) F 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. CEET 3050. Assembly Language & Device Drivers (4) 5 Small computer architecture, computer I/O, graphics, assembly language fundamentals, BIOS, device drivers, advanced assembly language techniques. Lecture and lab combination. Laboratory activities to include design, simulation, computer programming, analysis, and troubleshooting. Prerequisite: CEET 2150. CEET 3060. Real-Time Embedded Controllers (4) F 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. Prerequisites: CEET 2110, C Programming Language, CEET 2150. CEET 3070. Engineering Technology Research (3) F, S 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. Prerequisite: AAS degree in CET or EET. CEET 3080. Embedded Networks (4) 5 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. Prerequisites: CEET 2110, CEET 2150, MATH 1210. CEET 3090. Project Management (2) F An introduction to project management. The course prepares students for Senior Projects. Course will include the writing of contracts, goal setting, project leadership and team building principles of engineering economics, team work, quality, statistics, and continuous improvement will be discussed. Other topics include project life cycles, organization, and risk management. Project scheduling and performance will be discussed. The course will be taught as a seminar. CEET 4000. Engineering Seminar (1) F, S An introduction to science, engineering and technology career fields. Industrial leaders, as guest speakers, will share their engineering experiences and provide insight into career opportunities, hiring criteria, job responsibilities, engineering ethics, and professional development. The student will identify and contact industrial companies using online searches, personal interviews, and library resources. The student will conduct one class period by interviewing, inviting, and introducing a guest speaker. Prerequisite: CEET 2000. CEET 4010. Senior Project I (2) F, S Students will work on teams to design, construct, test, and install a significant engineering project. The course includes selecting a team, selecting a project, writing a contract, maintaining a logbook, creating and following project milestones, setting and completing weekly goals, writing a manual, and making a final presentation to students, faculty, and industry advisers. Prerequisite: CEET 3090. CEET 4020. Senior Project II (2) F, S A continuation of CEET 4010 Senior Project I. Students will work on teams to design, construct, test, and install a significant engineering project. The course includes selecting a team, selecting a project, writing a contract, maintaining a logbook, creating and following project milestones, setting and completing weekly goals, writing a manual, and making a final presentation to students, faculty, and industry advisers. Prerequisite: CEET 4010. CEET 4030. Controls & Systems (4) F Introduction to automatic control theory, analysis, and testing, pole, zero, Bode plots, and frequency response. The design and application of programmable controllers using ladder logic, sequential functions charts, PID, and data highway. Lecture and lab combination. Laboratory activities to include computer simulation, servo-system construction, and analysis. Prerequisite: CEET 3020. CEET 4040. Signals and Systems (4) S An introduction to digital signal processing, digital filters, discrete and fast Fourier transforms, quantization, introduction to adaptive filters, industrial applications, and DSP hardware. Lecture and lab combination. Laboratory activities include the design, construction, computer simulation, and analysis of digital signal processing circuits. Prerequisite: CEET 3010. CEET 4050. Engineering Fundamentals Exam (F.E.) Prep (2) 5 A review of materials that are typically found on the Engineering Fundamentals Exam (F.E.). Topics are taught by faculty members according to their area of expertise. Topics included are mathematics, DC electricity, AC electricity, logic, engineering economics, statics, dynamics, strength of materials, fluid mechanics, chemistry, and thermodynamics. Two one-hour lectures per week. Prerequisite: Departmental approval required. Weber State University 2009-2010 Catalog