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ECEGR 401: Vlsi: Vhdl
4.00 Credits
Seattle University
VHDL (Very high speed integrated circuit Hardware Description Language) as a digital system description tool. Digital design principles and their application to programmable logic devices. Use of VHDL as a design tool for PLD's is emphasized. Significant laboratory time outside of class is required. Prerequisite: ECEGR 201 and junior candidacy.
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ECEGR 401 - Vlsi: Vhdl
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ECEGR 403: Digital Signal Processing
4.00 Credits
Seattle University
Linear, time invariant, discrete systems; finite moving average and recursive digital filters; Z-transform; discrete Fourier transform; fast Fourier transform. Prerequisite: ECEGR 312.
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ECEGR 403 - Digital Signal Processing
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ECEGR 404: Introduction to VLSI Circuit Design
4.00 Credits
Seattle University
An introduction to the design of very large scale integrated (VLSI) circuits using silicon CMOS process technology and CAD software. Aspects of manufacturing, design, and testing are covered in lecture. The laboratory introduces students to professional-level software and culminates in a major circuit design. Three lectures and one three-hour laboratory per week. Prerequisite: ECEGR 201 and ECEGR 321.
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ECEGR 404 - Introduction to VLSI Circuit Design
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ECEGR 405: Advanced Digital Design
4.00 Credits
Seattle University
Microprocessor-based systems design procedures; LSI circuit specifications and interconnect design; programmable logic; logic simulation; prototype construction; system debug techniques; hands-on design carried out in teams. Prerequisites: ECEGR 201 and ECEGR 304.
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ECEGR 405 - Advanced Digital Design
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ECEGR 406: Introduction to Digital Image Processing
4.00 Credits
Seattle University
Introduction to fundamental principles and techniques for digital image processing including image analysis, feature extraction, segmentation, enhancement, restoration, and compression. Hands-on experience through MATLAB laboratory exercises and projects.
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ECEGR 406 - Introduction to Digital Image Processing
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ECEGR 407: Digital Signal Processing Laboratory
2.00 Credits
Seattle University
Use of modern Digital Signal Processing (DSP) software development systems. Debugging and analysis of program operation on DSP integrated circuits. DSP IC architectures. Analysis of test data in time and frequency domains. Prerequisite: ECEGR 312. Co-requisite: ECEGR 403.
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ECEGR 407 - Digital Signal Processing Laboratory
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ECEGR 414: Active Networks and Filters
4.00 Credits
Seattle University
Design of active filters. Operational amplifier circuits. Approximation of frequency response characteristics. Sensitivity. Frequency transformations. Active two-port networks. Simulation of passive elements. Switched capacitor filters. Prerequisite: ECEGR 312.
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ECEGR 414 - Active Networks and Filters
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ECEGR 421: Analog CMOS Electronics
4.00 Credits
Seattle University
Analog CMOS circuits including current sources, voltage references, and basic amplifier stages used in integrated circuits, the internal circuitry of operational amplifiers, and analog- to-digital and digital-to-analog converters. Feedback. Fundamentals of integrated circuit layout and fabrication. Prerequisite: ECEGR 321.
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ECEGR 421 - Analog CMOS Electronics
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ECEGR 422: Electronics III
4.00 Credits
Seattle University
A continuation of Electronics II covering topics selected from, but not limited to, feedback and stability, active filters, oscillators, data converters, signal generators, and digital electronics. Prerequisite: ECEGR 321.
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ECEGR 422 - Electronics III
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ECEGR 424: Power Electronics
4.00 Credits
Seattle University
Basic topologies and operating principles of switching power converters. Half-wave, bridge, and polyphase rectifier circuits. Phase control converters. Output control and dynamic models. Prerequisite: ECEGR 312 and ECEGR 320.
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ECEGR 424 - Power Electronics
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