Global ETD Search

91	Le composite cuivre / nanofibres de carbone / The copper-carbon nanofibers composite Vincent, Cécile 19 November 2008 (has links) Le matériau composite Cu/NFC (Nano Fibre de Carbone) peut être utilisé en tant que drain thermique par les industriels de l'électronique de puissance. En remplacement du cuivre, il doit combiner une conductivité thermique élevée et un coefficient de dilatation thermique adapté à celui de la céramique du circuit imprimé (alumine ou nitrure d’aluminium). Après avoir étudié les propriétés de la matrice cuivre et des NFC, plusieurs méthodes de synthèse du composite Cu/NFC ont été développées. Le composite a tout d’abord été élaboré par métallurgie des poudres. Puis, dans le but d’améliorer l’homogénéité, il a été envisagé de revêtir individuellement chaque NFC par du cuivre déposé par voie chimique electroless ainsi que par une méthode originale de décomposition d’un sel métallique. Des mesures de densité et de propriétés thermiques (conductivité et dilatation) ainsi que les caractérisations microstructurales de ces matériaux montrent la complexité de l’élaboration d’un tel composite. En effet, la dispersion des nanofibres, la nature des interfaces fibres/matrice et surtout les phénomènes thermiques à l’échelle nanométrique sont autant de paramètres à contrôler afin d’obtenir les propriétés recherchées. La simulation numérique et analytique, qui a été mise en oeuvre en parallèle a été corrélée aux résultats expérimentaux, afin de prédire les propriétés finales de nos matériaux. / Cu/CNF (Carbon Nano Fiber) composite materials can be used as heat sink in power electronic devices. They can substitute Copper by combining a high thermal conductivity and a coefficient of thermal expansion close to the printed circuit one (alumina or aluminum nitride). After studying the properties of Copper matrix and CNF, three methods were set up for the elaboration of the Cu/CNF composite materials. It was first synthesized by a simple powder metallurgy process. Second, in order to obtain a better homogeneity, CNF were individually coated with Cu by an electroless deposition method. Third, an original technique involving the decomposition of a metallic salt has been used. Measurements of the density, the thermal properties (conductivity and dilatation), and the characterization of the microstructure of the composite materials have been performed. It reveals the complexity of the realization of such a composite. Indeed, the dispersion of CNF and the chemical nature of the Cu/CNF interfaces have to be controlled in order to reach the desired thermal properties. Analytical and numerical simulations have been conducted and correlated with the experimental results to predict final properties of our materials. NanoFibres de Carbone Composite NFC/cuivre Dépôt chimique Conductivité thermique Modélisation Carbon NanoFibers Copper/CNF composite Metallic coating Thermal conductivity Modelization
92	Etude de systèmes d’auto-adaptation pour les systèmes de Communication en Champ Proche dits NFC (Near Field Communication) / NFC antenna Self Calibration Dieng, Mouhamadou 17 June 2014 (has links) La technologie NFC (Near Field Communication) est une nouvelle technique de communication basée sur la technologie RFID (Radio-Fréquence IDentification). La NFC utilise le couplage magnétique entre deux antennes afin de transférer les données et / ou l'énergie entre deux dispositifs électroniques. Elle exploite la fréquence de 13,56 MHz. En raison de la large gamme de dispositifs et d'applications, une définition de la géométrie de l'antenne et de ses paramètres électriques associés est très difficile. En effet, chaque dispositif présente des caractéristiques physiques différentes. En revanche, le circuit intégré (CI) de contrôle NFC est générique et indépendant d'une antenne où d'un dispositif. C'est pourquoi, chaque intégrateur associe le circuit intégré NFC avec une antenne pour chaque dispositif. Or le module de transmission du système NFC nécessite une bonne adaptation de l'antenne à son circuit intégré (IC). Actuellement, cette adaptation est effectuée à la main pour chaque dispositif selon un processus itératif chronophage. En outre, l'adaptation est effectuée une seule fois au moment de la conception du dispositif, quel que soit le mode de communication (lecteur, carte ou peer-to-peer) et à vide c'est-à-dire sans considérer l'influence du dispositif secondaire. Dans ce manuscrit, nous proposons une description détaillée des performances électriques des systèmes NFC. Ensuite un modèle électrique analytique complet et précis de l'antenne NFC est proposé. Enfin, nous développons une nouvelle technique d'adaptation automatique d'impédance afin d'optimiser les performances électriques dans la phase d'émission en termes de transfert d'énergie entre le lecteur et le transpondeur. / Near Field Communication (NFC) is a standardized communication technology derived from Radio Frequency Identification (RFID). NFC uses magnetic induction between two antennas in order to transfer data and/or energy between two electronic devices. NFC operating frequency is 13.56 MHz.Due to the wide range of devices and applications, a predefinition of antenna geometry and corresponding electrical parameters is difficult. In fact, each device shows different antennaphysical characteristics ; On the Other hand, the NFC control integrated circuit (IC) is generic and does not depend on antenna nor a device. Therefore, each integrator associates the NFC IC with a specific antenna for each device. Current NFC transmission modules require the antenna circuitry to be matched with the integrated circuit. Nowadays, the matching is performed manually using a time consuming iterative procedure for each device. Moreover, the matchingcan be done only once at the device design level, regardless of the communication mode (reader, card or peer-to-peer) and regardless of the secondary device influence on the primary antenna characteristics.In this manuscript, we propose a detailed description of the electrical performances of NFC Systems. Then an accurate and complete analytical electrical model of NFC antennas is proposed.Finally, we develop a new technic of automatic adaptation of the matching network in order to optimize the electrical performances in the transmission phase in terms of energy transfer from the reader to the transponder. Champ proche RFID/ Radio Frequency IDentifcation Auto-Adaptation Auto-Matching NFC/Near Field Communicatin Self calibration Self tuning
93	Využití technologických inovací u vybraného podniku maloobchodu / Use of Technological Innovations for Selected Retail Enterprise PENIAŠTEKOVÁ, Gabriela January 2012 (has links) Presented diploma work represents a further development of my bachelor-degree diploma work, dealing with new technologies in retail business. In contrast of said bachelor diploma work, which extent was limited to theoretical part of the problem, practical application of the objective new technologies has been analyzed within TESCO stores buiseness environment. Therefore, this diploma work deals with specific technologies, which are really used in the TESCO retail network. The technologies analyzed in this work were chosen on the basis of Retail Summit 2011 topics. Application potential of m-commerce and e-commerce is analyzed and EDI technology innovation, which makes this option available for small companies, is described. Beside self-service cash desks, which are currently widely used, the RFID, NFC and LCD price tags, which are still in the testing process, are dealt with.
94	Implementations, simplifications and evaluations around Nfc on Android Deckmar, Johan January 2012 (has links) Near field communication (Nfc), a contact-range and short-lived message exchange technology, has in recent years become popular in relation to payment-cards, key-cards and ski-passes. With the release of, in particular, the Google Nexus S, which is capable of reading and writing Nfc tags as well as exchanging messages between devices by touch, the roles of consumers have changed from carriers of passive cards to that of active readers. This publicly available hardware technology, embedded into relatively cheap connected smartphones, creates a new field of possibilities in which a complete and complex Nfc-based system can be developed solely by means of software. In this thesis work, the research is in relation to the field of Nfc, ranging from the physical characteristics of the technology to the design of the Nfc API on the Android platform. Nfc-based apps, library and systems are designed, developed and evaluated in terms of performance. The Android apps which are implemented are WiFi and Bluetooth connectors as well as an Nfc-sensor value visualizer. Additionally, two full systems are developed which consists of an Android app, backend server, database and web or PC-client frontend. These two systems are: a web-based high-performance live statistical visualizer of Nfc sensor values and an Nfc-scan based product endorsement, Like-event, presenting the picture and name of a user endorsing a product on the in-store advertisement displays on top of the ads. The system for scanning, distributing and presenting statistics on sensor-values from a specially crafted NfcV-enabled sensor is evaluated in terms of performance along the chain of events starting at the Nfc tag introduction and being dispatched on the mobile phone and ending with the calculations and plot-generation carried out by the browser connected to the backend via a WebSocket. The evaluations show that in a use-case in which the user holds a tablet in one hand and an Nfc-enabled smartphone in the other, the user would experience a mean-delay of 515 milliseconds between putting the device against an NfcV-sensor and seeing the statistical plot, containing the last 1000 values, updated in the browser on the tablet. Additionally, the user would experience a mean-delay of 74 milliseconds between the values being presented on the mobile device itself until they are presented on the tablet in the case of constant streaming from an NfcV connected sensor. The conclusion is that this delay of 74 milliseconds is sufficiently low for the user to feel that the devices are tightly coupled, making it natural to pay attention to the tablet when scanning sensors. Possible use-cases for this include a technician walking between built-in passive NfcV sensors on the factory floor or a nurse walking between patients wearing bandages with built-in passive health-sensors. Finally, the work is discussed in terms of ethics and social impact as development in the tele-healthcare field continues, and a set of Nfc-based applications are suggested including Nfc-tags for interactive product customization, company car management and app deployment. Near field communication Android Nfc library tele-healthcare NodeJS Redis dnode KnockoutJS HTML5 WebSockets. Computer Engineering Datorteknik
95	Physical Mobile Interaction in Omni-Channel Retailing : Using the customers’ smartphone to interact with smart objects in a store Falk, Johan January 2014 (has links) While shopping in a retail store today the customers are often interacting with multiple sale channels when making a purchase. These channels can include in‑store terminals, the customers’ smartphone etc. This thesis looks at how physical mobile interaction can be implemented to enhance the experience when using different channels for a purchase. Physical mobile interaction is a way for a user to interact with real world objects using a mobile device. This thesis examines how some of these techniques can be used in a retail store using the customers’ own smartphone device. With todays smartphone market with several different operating systems available it is important to find find an implementation which suits the majority of the users. This paper details which technologies that are available to implement the physical mobile interaction on the major smartphone platforms. It also discusses important design decisions for it to work on these platforms. The paper concludes that it is possible to implement these techniques on todays major smartphone platforms. It also concludes that the best technology can not always be used because of limitations on one or more platforms. physical mobile interaction touching pointing scanning nfc qr-code ibeacon bluetooth omni-channel retailing Human Computer Interaction
96	Vývoj technologií mobilních zařízení / Technology Development of Mobile Devices Stejskal, Jiří January 2013 (has links) This thesis is focused on the technology of mobile devices. In the first part I analyse the technical parameters of the mobile device in detail, I mention each parameter and its importance, pitfalls and benefits. The second part is focused on mobile operating systems, especially iOS, Android and Windows Phone. The operating systems are analysed from the perspective of technological complexity, which builds on the analysis of the technology of mobile devices. The third part consists of future prediction. I describe hypothetical future development for both of previous parts of my survey. Approximate future development is mentioned in each chapter of of both first and second parts. The main benefit(contribution) of this work is the compact view on the issue of the technology of mobile devices. It helps reader to make a complex overview of the evolution and possibilities on the current mobile devices market.
97	83% Efficient ASIC Wireless Power Transfer from NFC for Implantable Sensors Sabah, Samir January 2020 (has links) In the past decades, there has been a noticeable growth in the deployment of wireless sensor networks. These sensors/stimulators are typically powered by a battery which has limited life span. Power harvesting is one of the solutions to this problem. According to a medical-care experiment, the recovery process of an injured nerve has been boosted with the help of electrical stimulator. The latter is not only preferable to be portable but to be implantable as well in order to make medical treatment easier on the patient. This work has implemented two prototype versions of rectification circuitry used to harvest RF signal to power an electrical stimulator for peripheral nerve regeneration. The system consists an efficient rectifier, DC-limiter, biasing circuitry and modest regulator. In order to gain higher rectification efficiency, ON-OFF offset methodology is reviewed. Moreover, a mixed-signal design is proposed to construct a delay compensation mechanism. It is designed with 0.35 um AMS technology and it is assumed to read 13.56 MHz NFC signal from loop antennas. Schematic and layout levels are introduced with corresponding simulation findings. Moreover, tape-out is made for both architectures along with comparative results/discussions. NFC Wireless power transfer Rectifier Electrical stimulation Nerve regeneration Bioelectronics. Annan elektroteknik och elektronik
98	Chytrý zámek využívající sítě IoT / Smart digital door lock system using IoT networks Vitula, Marek January 2020 (has links) This master thesis describes the design of a battery-powered smart lock using IoT networks and NFC technology for user authentication. The first part of the thesis describes the individual components to be used for the device design and also deals with the design of matching circuits and the antenna for the NFC. The following part of the thesis describes the design of the hardware, particularly the design of the printed circuit board. The third part describes the firmware and the final part of the thesis is dedicated to the security analysis.
99	Komunikační hardware pro I4.0 Barman / Communication hardware for I4.0 Barman Kubíček, Richard January 2020 (has links) This thesis deals with description and implementation of AAS module. This thesis describes the selection of individual components of device. This module will be a part of the testbed Barman project. This project is implemented in accordance with Industry 4.0 trends. Device will be work as reader of information and ingredients from NFC tags placed on a glass. With this information, parent cell can make decision which action will be done with glass. In this thesis, software for hardware operation with AAS module will be created and described. This program will further communicate with the parent program controlling the functionality of the cell itself.
100	Autentizace pomocí mobilních telefonů / Authentication using mobile phones Fusek, Zdeněk January 2015 (has links) This thesis deals with authentication by mobile phone. The mobile phone with operating system Android was chosen as authentication device. The Eclipse development environment was used for the implementation of applications. The aim of the thesis was to study and practically implement access system for mobile phones, where the Bluetooth LE and NFC interface are used for data transmission between the mobile device and reader. Firstly, the thesis deals with the client application, which is installed on the authenticated device, and then is focused on the characteristics of the application which is running on the reader. Both client and reader applications describe the design of graphical user interface, process of authentication via Bluetooth LE and NFC, analyse packages and classes, and eventually perform security analysis. The thesis also presents schema of authentication protocol HM14.

Search results