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Course Criteria
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1.00 Credits
1 hr. This course is designed to provide hands on experience in the use of computer software and simulation tools. Simulation using SPICE is emphasized. Software such as National Instruments Multisim, Lab View and Matlab will be used to analyze and design electronic circuits. The course will include the analysis and design of mixed-signal electronics including analog to digital conversion and digital to analog conversion. Prerequisite: EE 333
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3.00 Credits
3 hrs. A review of electromagnetic theory; transmission lines and waveguides; circuit theory for waveguide systems; impedance matching and transformation; passive microwave devices; electromagnetic resonators; and periodic structures and filters. Prerequisite: EE 303
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1.00 Credits
1 hr. This lab complements the course materials taught in EE 410, Microwave Engineering. Corequisite: EE 410
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3.00 Credits
- 3 hrs. Fundamentals of pulsed and continuous wave radar systems and the concepts of range and doppler frequency measurement are presented. Radar receiver sensitivity, effects of noise, and component losses are analyzed. Techniques of signal detection in noise, parameter estimation, and radar waveform analysis are introduced. The effects of radar cross-section, clutter, multipath, and electronic countermeasures on the received signal are analyzed. Prerequisite: Senior Standing and Approval of Instructor
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3.00 Credits
3 hrs. Fundamental concepts of power system analysis, transmission line parameters, basic system models, steady state performance, network calculations, power flow solutions, symmetrical components, fault studies, operating strategies and control are presented in this course. Prerequisite: Senior Standing and Approval of Instructor
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3.00 Credits
3 hrs. Generating station characteristics, transmission line calculations, load studies and economic operations, and stability are addressed in this course. Prerequisite: Senior Standing and Approval of Instructor
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3.00 Credits
3 hrs. This course is designed to provide seniors in electrical and computer engineering with real digital system design experience using the Verilog hardware description language (Verilog HDL). The history of descriptive hardware design and features of hardware description languages are explained along with design and simulation examples. With the use of the industry standard simulation and synthesis tools, designs will be constructed, synthesized, and configured in Field Programmable Gate Arrays (FPGA) or other Programmable Logic Devices. Experience gained in this class will prepare students to move directly into modern logic design environments. Prerequisite: EE 330
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3.00 Credits
3 hrs. This course introduces students to the cutting edge of high performance computing, examining both parallel and distributed architectures and the networks that interconnect them. The course covers a number of topics, ranging from computing and network architecture, design of software applications, to hands-on supercomputing. Prerequisite: EE 304 and Senior Standing
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3.00 Credits
- 3 hrs. Analysis, design and fabrication of silicon, thin-film, and thick-film integrated circuits; circuit simulation studies aided with SPICE II software system; integrated operational amplifiers and logic gates ( T2L, I2L, MOS and CMOS) are treated in this course. Prerequisite: EE 305
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3.00 Credits
3 hrs. Principles of device electronics, physics of band models, Schottky barriers, bipolar and unipolar devices, conduction phenomena, SRH generationrecombination statistics, role of defects and noise. Introduction to wide bandgap semiconductors and devices. Prerequisite: EE305.
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