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Course Criteria
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3.00 Credits
Introduction to computer-based circuit analysis, AC nodal and mesh analysis, network theorems, filters, mutual inductance, multiphase circuits, transformers, two-port networks, Fourier series. Prerequisites: ECE 213 (minimum grade of C-) and M 242.
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1.00 Credits
An introduction to DC circuits laboratory. Experiments include Ohm's law, Kirchhoff's law, Thevenin's and Norton's theoremstransient behavior of RC circuits. An introduction to computer-aided circuit analysis and design. Must be taken concurrently with ECE 213. Laboratory fee.
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1.00 Credits
An introduction to AC circuits laboratory. Experiments include RC transient response, second-order circuits, active filters, and magnetic circuits. An introduction to computer-aided circuit analysis and design of AC circuits. Must be taken concurrently with ECE 214. Laboratory fee.
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3.00 Credits
Elementary number systems and codes, Boolean algebra, circuit minimization, combinational and sequential circuit analysis and synthesis, medium-scale integrated circuits, state machine tables and charts, hazards. Prerequisite: Sophomore standing.
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1.00 Credits
An introduction to digital circuits laboratory. Experiments include truth tables, logic minimizations, Karnaugh maps, flip-flops, sequential circuits, counters. Must be taken concurrently with ECE 231. Laboratory fee.
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3.00 Credits
An introduction to complex programmable logic devices (CPLD). Course teaches digital design, capture, simulation, and verification of complex programmable logic devices. Devices covered will consist of programmable and generic array logic (PAL, GAL) and field programmable gate arrays (FPGA). This course focuses on the design of digital systems and implements them by functional operational modules. The intent of the course is to emphasize the software tools required to achieve desired goals and to prepare students for even higher levels of sophisticated design using hardware development languages, such as VHDL. Prerequisites: ECE 231 and ECE 232. Laboratory fee.
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3.00 Credits
Probability, random variables, distribution and density functions, statistics of random variables, sampling and estimation, random processes, Markov processes, correlation functions. Probabilistic methodologies are applied extensively to electrical, electronic, and digital engineering problems; computer programming of probabilistic concepts. Extensive computer assignments are distributed throughout the semester. No credit given to electrical engineering students. Prerequisite: ECE 361.
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4.00 Credits
A lecture course with studio and projects. A typical 8/16 bit microcontroller is used to introduce assembly language and simple hardware interfacing. Development tools include assembler and debugger software, flowcharts, and execution history. Topics include internal organization, memory types, memory maps, and peripherals; may include a universal asynchronous receiver transmitter (UART), analog to digital converter (ADC), timer, stepper motor, LED array, speaker. Super-loop software structure and interrupts are introduced. Studio is instructor led, combining lecture, cooperative learning, and independent action. Students work in small groups. Completion of at least two significant projects outside of scheduled lab and studio time is required. Prerequisite: ECE 231 or familiarity with basic logic circuits. Laboratory fee.
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3.00 Credits
Design of computer programs from problem analysis and numerical methods in engineering and science using digital computer facilities and languages. Topics include structured programming algorithmic processes, interpolation, Monte Carlo, interactive methods, graphical displays, matrix operations, and differential equations. These techniques are applied to problems selected from students' fields of interest. The computer language to be used will be published in the Schedule of Classes. Prerequisites: M 242 and at least one 2-credit course with a compiled computer language.
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3.00 Credits
Basic computer architecture, including data representation, instruction formats, data/instruction transfer, storage, digital arithmetic, control functions, and input-output facilities; comparison between microcomputers and large-scale computers; features required for multiprocessing, parallel processing, timesharing, virtual machine, virtual memory, and r eal-time systems. Prerequisite: ECE 231 (minimum grade of C-). Corequisite: ECE 332. Laboratory fee.
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