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  • ELET 5224: Advanced Microprocessor Sys

    3.00 Credits
    SUNY College of Technology at Alfred

    The course will be an in-depth study of current micro- computer workstation operating systems in an enterprise environment. The course will include client-side networking technologies as well. Laboratory activity will include the installation, configuration, and support of workstation operating system hardware, software, and network connectivity not only on a single system, but will also cover tools and techniques for support of a large system base. The course will prepare the student for an appropriate workstation operating system certification examination.
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  • ELET 5401: Certification Seminar

    3.00 Credits
    SUNY College of Technology at Alfred

    Individualized hands-on practice and review session for Microsoft Certified System Engineer(MCSE)and Cisco Certified Network Associate (CCNA)professional exams, as well as other appropriate certifications.
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  • ELET 5414: Network Design & Implimentation

    3.00 Credits
    SUNY College of Technology at Alfred

    This course teaches students through lectures, discussions, demonstrations, textbook exercises, and labs the skills and abilities necessary to design an Active Directory and network infrastructure that meets the technical and business requirements of an organization. Understanding the design process, the required components, and the integration of technologies are key elements in this course. This course also covers networking terminology, national and international standards relating to networks, the fundamentals of network transmission methods, network topologies, network protocols, and network architecture. The course will also include the hardware, design and configuration, troubleshooting and administration of the directory services and network infrastructure portion of LAN and WAN (Local-Area- Network and Wide-Area-Network) systems. The completion of laboratory projects will develop the student's professional skills in network design and implementation. This will lead to further study of networking or employment. Each lab is structured as a team project which will enhance the student's ability to function in a design team.
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  • ELET 5900: Directed Study

    1.00 - 6.00 Credits
    SUNY College of Technology at Alfred

    A student may contract for one to six credit hours of independent study through an arrangement with an instructor who agrees to direct such a study. The student will submit a plan acceptable to the instructor and to the department chair. The instructor and student will confer regularly regarding the process of the study.
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  • ELET 6224: Switching & Power Electronics

    3.00 Credits
    SUNY College of Technology at Alfred

    Design and analysis of linear and switching regulators and power converters using state-of-the-art components and devices. Topics to be covered will include: basic building blocks of modern power supply systems; circuits for the generation and processing of pulse and switching waveforms; transistor, rectifier, IC, transformer, inductor, capacitor, and resistor selection; thermal design considerations, feedback and stability analysis; RFI considerations.
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  • ELET 6404: WAN Systems

    3.00 Credits
    SUNY College of Technology at Alfred

    This course covers the installation, configuration and administration of multiple-server, multiple-domain, multiple operating system, enterprise LAN and WAN (Local-Area-Network and Wide-Area-Network). It will include remote monitoring and administration of the network resources using Group Policies and other tools. Applications will include support services such as DHCP and DNS integration into directory services for an enterprise network.
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  • ELET 7104: Integrated Cirucuit Technology

    3.00 Credits
    SUNY College of Technology at Alfred

    This course is an introduction to the physics, chemistry and materials of integrated circuit fabrication. Topics include the basic process steps of crystal growth, oxidation, photolithography, diffusion, ion implantation, chemical vapor deposition (CVD) and metallization used to build integrated circuits. The laboratory uses a 4-level metal gate PMOS process to fabricate a working integrated circuit test-chip and provide experience in device design, process design, materials evaluation, in-process characterization and device testing.
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  • ELET 7204: Routing and Switching

    3.00 Credits
    SUNY College of Technology at Alfred

    This is a course in network infrastructure concentrating on switch and router configuration and operation to support both LAN and WAN environments. In addition to the fundamentals of routing protocols topics will include subnetting, packet monitoring and filtering, VLAN configuration, and Voice over IP implementation. The laboratory component is hands-on in a multiple router- multiple switch environment. The completion of laboratory projects will develop the student's professional skills in switch and router configuration and operation. This will lead to further study or employment. A research-based team paper and presentation on future trends in routing and switching will be required as part of this course.
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  • ELET 7224: Microwave & Fiber Optic Fund

    3.00 Credits
    SUNY College of Technology at Alfred

    The properties and use of coaxial, waveguide, stripline, and fiber optic transmission lines are investigated. Scattering parameters and Smith charts are used to design microwave amplifiers. Concepts of microwave and fiber optic sources and detectors are covered.
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  • ELET 7404: Embedded & Real Time Systems

    3.00 Credits
    SUNY College of Technology at Alfred

    This course prepares students for the design and implementation of a real-time operating system (RTOS) on an embedded microcontroller. The course is constructed around a project where each student is required to design and prototype a real-time traffic light using the MicroC/OS-II operating system and a PIC18F452 microcontroller. The lecture portion of the course is comprised of lectures and quizzes that support the course project. Lecture topics include basic characteristics of real-time applications and real-time operating systems, hardware interfacing techniques, fixed and dynamic priority scheduling algorithms, concurrency theory, intertask communication, synchronization, response-time analysis, performance, and optimization. The lab portion of the course consists of labs that provide the building blocks of the course project. Upon completion of the course project students will compare MicroC/OS-II with other similar operating systems such as FreeRTOS and Salvo.
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