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  • ECE 427: Sensors and Electronic Systems

    3.00 Credits
    Lafayette College

    Devices and interface electronics used to sense quantities such as light, temperature, and motion are discussed. A general overview of sensor performance characterization is presented and mathematical modeling techniques are developed, leading to interface electronics topologies and application specific sensor applications. Prerequisite: ECE 322, ECE 331 Staff
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  • ECE 433: Industrial Electronics and Control Systems

    3.00 Credits
    Lafayette College

    Feedback control systems are studied in both the frequency and time domain. Topics include detailed system modeling, stability and error analysis, design to meet specifications, and discussion of system integration in a manufacturing environment. Lecture/discussion/ laboratory. Prerequisite: ECE 331 Offered: Fall semester Yu
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  • ECE 434: Digital Signal Processing

    3.00 Credits
    Lafayette College

    This course covers discrete fourier transforms (DFT and FFT), the sampling theorem and its consequences, Z transforms theory, recursive digital systems, and digital filter design. Lab involves implementation of digital signal processing algorithms in real time using DSP hardware. Lecture/laboratory. Prerequisite: ECE 331, 212 Offered: Fall semester Jouny
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  • ECE 435: Speech and Image Processing

    3.00 Credits
    Lafayette College

    Introduces interactive information systems utilizing sight and sound. Speech processing, recognition, synthesis, and coding, as well as image understanding and compression technologies, are discussed. Acquaints students with speech production, extraction of recognizable phonic features, recognition of speech templates, edge detection, and image understanding. Lecture. Prerequisite: ECE 331 Offered: Spring semester Jouny
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  • ECE 436: Communications Networks

    3.00 Credits
    Lafayette College

    This course introduces computer communications and data networks. The course includes background material in probability and queuing theory, a description of all seven OSI (Open Systems Interconnections) layers with protocols, applications of data networks, and a brief introduction of ISDN technology. Students will animate and evaluate the performance of hypothetical topologies of communications networks. Lecture. Not open to students having taken Computer Science 403. Prerequisite: ECE 331 Offered: Spring semester Jouny
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  • ECE 437: Biomedical System Modeling and Analysis

    3.00 Credits
    Lafayette College

    This course introduces the use of engineering techniques to simulate and analyze biomedical systems and applications in medicine. Major physiologic functions, such as nerve action potentials, skeletal muscle contraction, human vision system, cardiovascular system, respiratory system, endocrine system, kidney, and prosthetic devices, are modeled by electrical circuits or differential equations and simulated using computer software. Prerequisite: Math 264, Physics 131, ECE 331; or permission of instructor. Not open to students who have taken ME 489. Yu
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  • ECE 442: Applied Optoelectronics

    3.00 Credits
    Lafayette College

    This course develops a basic understanding of optoelectronic materials, devices, and systems. Topics include light sources and photodetectors, and the propagation of light within various media and optical elements. Prerequisite: ECE 341 Offered: Fall semester Staff
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  • ECE 444: Introduction to Fiber Optics

    3.00 Credits
    Lafayette College

    Fundamentals of fiber optic communication and sensor systems are discussed, including a mathematical description of light propagation within dielectric waveguides. Optical fiber fabrication, attenuation, and dispersion mechanisms are considered, and optical sources, detectors, and connectors covered. Advanced topics include specialty fibers, coherent communications, WDM, solitons, optical amplifiers, and fiber optic networks. Lecture. Prerequisite: ECE 341, 442 Offered: Spring semester Staff
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  • ECE 445: Physics of Semiconductor Devices

    3.00 Credits
    Lafayette College

    This course presents a quantitative analysis of both bipolar and field effect transistors. The device equations are developed from fundamental physical processes such as carrier densities, transport processes, and generation-recombination mechanisms. Required of senior Electrical and Computer Engineering majors. Lecture. Lecture. Prerequisite: ECE 341, 322 Jemison
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  • ECE 446: Microwave Systems

    3.00 Credits
    Lafayette College

    Analysis and design of modern microwave systems such as satellite and cellular communications and radar. Devices, circuits, and subsystems are presented with an emphasis on theory of operation and impact on overall performance. Application of technologies to the current microwave communications industry is covered. Students complete a design project using modern microwave CAD software (Ansoft Serenade or Agilent Advanced Design System and Sonnet) and theory presented in class. Prerequisite: ECE 341 Jemison
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