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Show 134 College of Applied Science & Technology EET 2140 - Communications Systems Credits: (4) Typically taught: Spring [Full Sem] Introduction to digital and wireless communication circuits. Topics to include radio frequency circuits, modulation, detection, transmitters, receivers, transmission lines, antennas, and measurement instruments. Digital communications topics to include parallel and serial data transmission. Lecture and lab combination. Laboratory activities to include the design, construction, computer simulation, and analysis of communication circuits. Prerequisite: EET 2110. EET 2150 - Embedded Controllers Credits: (4) Typically taught: Spring [Full Sem] A study of microprocessors, embedded controllers, operational characteristics, computer architecture, machine code programming, memory devices, and interfacing. Lecture and lab combination. Laboratory activities include the design, construction, and analysis of microprocessor based systems. Analysis techniques include the use of assemblers, cross-assemblers, and emulators. Prerequisite: Credit for or Current Enrollment in EET 2110. EET 2160 - Troubleshooting Credits: (3) Typically taught: Spring [Full Sem] An introduction to troubleshooting techniques and skills. Topics include the use of diagnostic electronic test equipment such as multi-meters, power supplies, signal generators, digital storage oscilloscopes, and spectrum analyzers. Students will diagnose and repair electronic circuits and systems. Lecture and laboratory combination. Prerequisite: EET 2110, EET 2120, EET 2170. EET 2170 - Industrial Controls Credits: (3) Typically taught: Fall [Full Sem] Introduction to industrial control systems for manufacturing and automated test applications. The course will focus on Lab VIEW control systems and Programmable Logic Controllers (PLCs). Students will configure, program, and troubleshoot industrial control systems. Lecture and lab combination. Prerequisite: EET 1130, EET 1140. EET 3010 - Circuit Analysis Credits: (4) Typically taught: Fall [Full Sem] 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: EET 2110, EET 2140, Credit for or Current Enrollment in in MATH 1210. EET 3020 - Active Filters Credits: (4) Continuation of Circuit Analysis, EET 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: EET 3010. EET 3030 - FPGA and ASIC Design Credits: (4) Typically taught: Spring [Full Sem] 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: EET 2150. EET 3040 - Instrumentation and Measurements Credits: (4) Typically taught: Fall [Full Sem] 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: EET 2110, EET 2170. EET 3050 - Assembly Language & Device Drivers Credits: (4) Typically taught: Spring [Full Sem] 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: EET 2150. EET 3060 - Real-Time Embedded Controllers Credits: (4) Typically taught: Fall [Full Sem] 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 mono tonic analysis (RMA), various kernal services, finite state machines, and nested state machines. Prerequisite: EET 2150. EET 3070 - Engineering Technology Research Credits: (3) Engineering problem solving using the Internet, professional journals, and human networking. Three styles of writing Weber State University 2015-2016 Catalog |