1,952 research outputs found

    Printed Circuit Board (PCB) design process and fabrication

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    This module describes main characteristics of Printed Circuit Boards (PCBs). A brief history of PCBs is introduced in the first chapter. Then, the design processes and the fabrication of PCBs are addressed and finally a study case is presented in the last chapter of the module.Peer ReviewedPostprint (published version

    Banning design automation software implementation

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    The research is reported for developing a system of computer programs to aid engineering in the design, fabrication, and testing of large scale integrated circuits, hybrid circuits, and printed circuit boards. The automatic layout programs, analysis programs, and interface programs are discussed

    Power simulator upgrade for smart grid algorithm development and testing

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    This thesis describes the conversion of WVU\u27s analog power simulator into a micro-grid of the future test bed by installing digital relays and intelligent electronic switches. The simulator is a hardware representation of the grid which contains traditional hardware, both digital and analog as well as the recent addition of highly connected, via Ethernet and potentially wireless communication, smart switching and monitoring devices. These new devices were chosen specifically for their cyber security capability to explore that facet of smart grid development. It is important to note that this simulator is a hardware implementation and as such is capable of testing smart grid ideas in the most realistic setting available without affecting real customers. This simulator also has the potential to have renewable resources like wind and solar as well as fuel cell and battery storage distributed resources tied in to test smart grid adaptability to these next generation ideas.;New digital relays were installed. Micro controller units and energy meter integrated circuits were investigated based on the desire to provide many modes of communication and as much processing power as was available in a small package. Solid state switches were designed and implemented for speed, compactness and reduced power consumption

    Emulation of Circuits under Test Using Low-Cost Embedded Platforms

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    Electrical engineering education requires the development of the specific ability and skills to address the design and assembly of practical electronic circuits, as well as the use of advanced electronic instrumentation. However, for electronic instrumentation courses or any other related specialty that pursues to gain expertise testing a physical system, the circuit assembly process itself can represent a bottleneck in a practical session. The time dedicated to the circuit assembly is subtracted both to the measurements and the final decision-making time. Therefore, the student's practical experience is limited. This article presents a reconfigurable physical system based on the Arduino (TM) shield pin-out, which (after specific programming) can virtually behave as a device under test to carry out measurement procedures on it, emulating any system or process. Although it has been mainly oriented to the Arduino boards, it is possible to add different control devices with a connector compatible. The user does not need to assemble any circuit. Our approach does not only pursue the correct instrument handling as a goal, but it also immerses the student in the context of the functional theory of the proposed circuit under test. Consequently, the same emulation platform can be utilized for other techno-scientific specialties, such as electrical engineering, automatic control systems or physics courses. Besides that, it is a compact product that can be adapted to the needs of any teaching institution.This work was performed as an innovation and teaching improvement project and supported by grant SOL-201700083174-TRA from Vicerrectorado de Recursos Docentes y de la Comunicacion, University of Cadiz

    PABI: Developing a New Robotic Platform for Autism Therapy

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    Autism Spectrum Disorder affects many children across the world. Through the use of Applied Behavioral Analysis (ABA) therapy, improvements in behavior and social outcomes have been observed. We have developed a new, robust, and durable research platform designed to interact with children through basic ABA therapy in order to test the effectiveness of robots in autism therapy. This platform is able to log therapy sessions while interacting with the child in an innovative way through multiple degrees of freedom. The platform is also designed to be expandable by future researchers with the ability to integrate both additional actuators and sensors. Lastly, the entire structure is modular in its construction, meaning entire modules can be removed and added in the future with minimal effort

    Aircraft electromagnetic compatibility

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    Illustrated are aircraft architecture, electromagnetic interference environments, electromagnetic compatibility protection techniques, program specifications, tasks, and verification and validation procedures. The environment of 400 Hz power, electrical transients, and radio frequency fields are portrayed and related to thresholds of avionics electronics. Five layers of protection for avionics are defined. Recognition is given to some present day electromagnetic compatibility weaknesses and issues which serve to reemphasize the importance of EMC verification of equipment and parts, and their ultimate EMC validation on the aircraft. Proven standards of grounding, bonding, shielding, wiring, and packaging are laid out to help provide a foundation for a comprehensive approach to successful future aircraft design and an understanding of cost effective EMC in an aircraft setting

    B.O.G.G.L.E.S.: Boundary Optical GeoGraphic Lidar Environment System

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    The purpose of this paper is to describe a pseudo X-ray vision system that pairs a Lidar scanner with a visualization device. The system as a whole is referred to as B.O.G.G.L.E.S. There are several key factors that went into the development of this system and the background information and design approach are thoroughly described. B.O.G.G.L.E.S functionality is depicted through the use of design constraints and the analysis of test results. Additionally, many possible developments for B.O.G.G.L.E.S are proposed in the paper. This indicates that there are various avenues of improvement for this project that could be implemented in the future

    Beta: Bioprinting engineering technology for academia

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    Higher STEM education is a field of growing potential, but too many middle school and high school students are not testing proficiently in STEM subjects. The BETA team worked to improve biology classroom engagement through the development of technologies for high school biology experiments. The BETA project team expanded functionality of an existing product line to allow for better student and teacher user experience and the execution of more interesting experiments. The BETA project’s first goal was to create a modular incubating Box for the high school classroom. This Box, called the BETA Box was designed with a variety of sensors to allow for custom temperature and lighting environments for each experiment. It was completed with a clear interface to control the settings and an automatic image capture system. The team also conducted a feasibility study on auto calibration and dual-extrusion for SE3D’s existing 3D bioprinter. The findings of this study led to the incorporation of a force sensor for auto calibration and the evidence to support the feasibility of dual extrusion, although further work is needed. These additions to the current SE3D educational product line will increase effectiveness in the classroom and allow the target audience, high school students, to better engage in STEM education activities

    Electrify Atwater Kent

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    The Electrify Atwater Kent project aims to breathe new life into the dull, dreary building of Atwater Kent. LED stairs, bringing a modern look to the front stairwell, as well as the RasPiano, with customizable filters and visualizations to demonstrate the discipline of signal processing, will be installed in the building. With a full installation the project aimsto make Atwater Kent not just a more welcoming space that students feel comfortable studying in, but an inspiration for future engineers as well

    An electronic architecture for mediating digital information in a hallway fac̦ade

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    Ubiquitous computing requires integration of physical space with digital information. This presents the challenges of integrating electronics, physical space, software and the interaction tools which can effectively communicate with the audience. Many research groups have embraced different techniques depending on location, context, space, and availability of necessary skills to make the world around us as an interface to the digital world. Encouraged by early successes and fostered by project undertaken by tangible visualization group. We introduce an architecture of Blades and Tiles for the development and realization of interactive wall surfaces. It provides an inexpensive, open-ended platform for constructing large-scale tangible and embedded interfaces. In this paper, we propose tiles built using inexpensive pegboards and a gateway for each of these tiles to provide access to digital information. The paper describes the architecture using a corridor fa\c{c}ade application. The corridor fa\c{c}ade uses full-spectrum LEDs, physical labels and stencils, and capacitive touch sensors to provide mediated representation, monitoring and querying of physical and digital content. Example contents include the physical and online status of people and the activity and dynamics of online research content repositories. Several complementary devices such as Microsoft PixelSense and smartdevices can support additional user interaction with the system. This enables interested people in synergistic physical environments to observe, explore, understand, and engage in ongoing activities and relationships. This paper describes the hardware architecture and software libraries employed and how they are used in our research center hallway and academic semester projects
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