Global ETD Search

71	Energieversorgung autarker Sensorsysteme im industriellen Umfeld durch kinetische Energiewandler mit Schwerpunkt auf dem elektrostatischen Wandlerprinzip Schaufuß, Jörg 03 December 2013 (has links) (PDF) In der vorliegenden Arbeit wird die Entwicklung eines kinetischen Energy Harvesters vorgestellt, der auf Grundlage des elektrostatischen Wandlerprinzips aus Vibrationen elektrische Energie generiert. Für die Umsetzung wurde eine Siliziummikrostruktur entworfen, die für Arbeitsfrequenzen unter 100 Hz ausgelegt ist. Die Zahnstruktur der verwendeten Elektroden ermöglicht Spaltabstände im Submikrometerbereich und folglich große Kapazitätsänderungen, die durch die Elektrodengeometrie zusätzlich mit einer höheren Frequenz als die mechanische Bewegung stattfinden. Vergleichsweise große Leistungsausbeuten und geringe Quellimpedanzen sind dadurch erreichbar. Die geometrischen Parameter der Elektroden wurden unter Berücksichtigung der auftretenden Fertigungstoleranzen und Wechselwirkungen zueinander optimiert. Für die Ausnutzung einer ausreichend großen Inertialmasse wurde ein feinwerktechnisch hergestellter Hebelmechanismus an die Mikrostruktur angekoppelt. Über diesen wird zusätzlich ein neuer Ansatz zur Abstimmung der Eigenfrequenz des Harvesters umgesetzt. Experimentelle Untersuchungen zeigten Ausgangsleistungen im einstelligen Mikrowattbereich bei Anregungen im Zehntel m/s²-Bereich. Durch fortschreitende Optimierungen der Fertigungstechnologie sind noch deutliche Leistungssteigerungen um mindestens zwei Größenordnungen möglich. Weiterhin wird ein Energiemanagementsystem vorgestellt, welches die effiziente Übertragung der Energie auf den Verbraucher ermöglicht. / In this work the development of a kinetic energy harvester using the electrostatic conversion principle is presented. The silicon microstructure is designed to work in frequency ranges below 100Hz. Its toothed electrode structure enables gap distances in the sub micrometer range and consequently high changes of capacitance. Additionally, due to the electrode geometry the frequency of the capacitance changes is higher then the frequency of the mechanical movement. Thus high power outputs and low source impedances can be reached. The electrodes geometric parameters were optimized considering manufacturing tolerances and interactions of the parameters. To reach a sufficient inertial mass, a lever mechanism manufactured by precision engineering was connected to the microstructure. This mechanism also allows the implementation of a new method of frequency tuning. In experimental tests power outputs in the single digit microwatt range under excitations of 0.3 m/s² were reached. In accordance of further optimizations of the manufacturing technology significantly higher outputs, by at least two orders of magnitude, are possible,. Furthermore an energy management system is presented, that allows the efficient transfer of the electrical energy to the consumer. kinetische Energy Harvester elektrostatisches Wandlerprinzip Mikro-Makro-Kopplung BDRIE Frequenztuning Impedanzanpassung kinetic energy harvester electrostatic converter micro-macro-coupling BDRIE frequency tuning impedance matching ddc:620 Generator MEMS Impedanz Frequenz
72	表面進行波を利用した極微細線加工法に関する基礎的研究森, 敏彦, 妹尾, 允史 03 1900 (has links) 科学研究費補助金研究種目:一般研究(C) 課題番号:62550093 研究代表者:森敏彦研究期間:1987-1988年度表面進行波引抜きインピ-ダンス整合微細線加工超音波レーリー波 Layleigh wave Impedance matching Drawing 極微細線加工
73	Conception d’une tête radiofréquence auto adaptative au milieu de propagation pour les applications médicales Chan wai po, Francis 23 July 2010 (has links) L'impédance d'entrée d'une antenne miniature est fortement affectée par des facteurs environnementaux à l'origine de pertes de puissance réduisant l'efficacité énergétique des têtes radiofréquences dans les applications RF, en particulier dans la télémétrie des implants cardiaques. Le but de mes études est de développer une unité de calibration d'impédance d'antenne très faible consommation capable d'adapter toute variation de l'impédance d'entrée de l'antenne à l'impédance de la source radiofréquence. La première partie de mon étude est axée sur la conception au niveau système d'une approche nouvelle de calibration automatique du système. Un réseau d'adaptation automatique d'impédance sans coupleur et fonctionnant de façon directe est étudié et permet d'optimiser la taille du dispositif, la vitesse de l'adaptation, la consommation d'énergie et les performances globales. Deuxièmement, une nouvelle méthode de synthèse du réseau d'adaptation variable est proposée pour réduire fortement la complexité globale de l'algorithme d'adaptation. La troisième partie de mon étude est axée sur la fabrication d'un démonstrateur hybride fonctionnant dans la bande médicale MICS afin de valider le concept auto adaptatif d'impédance. Un banc expérimental qui comprend une antenne immergée dans son milieu connectée au démonstrateur piloté par un microcontrôleur a été mis en place et a permis d'atteindre un coefficient de réflexion jusqu'à -30dB avec un temps de calibration inférieur à 1ms. La dernière partie de mon travail consiste à concevoir le circuit d'adaptation automatique d'impédance d'antenne très faible consommation fonctionnant dans la bande ISM 2.4GHz en utilisant la technologie CMOS 0.13um. / Antenna input impedance is highly affected by environmental factors increasing the losses or reducing the power efficiency of the radiofrequency transceiver in many RF applications such as in implantable pacemaker device telemetry. The purpose of my study is to develop a low power fully integrated antenna-impedance tuning unit to match any variation of the antenna impedance to the source. The first part of my study is focused on the system-level design of a new approach to automatically match the system. A couplerless single step automatic matching network is investigated to optimize the die size, the speed, the power consumption and the overall performance. Second, a new method for synthesizing an automatic matching network is developed reducing strongly the overall complexity of the matching algorithm. The third part of my study is focused on the fabrication of a hybrid demonstrator operating at the Medical Implantable Communication Service (MICS) frequency band to validate the concept. An experimental set-up including the antenna tuning unit, a microcontroller and a pacemaker antenna connected to the demonstrator was done achieving a reflection coefficient up to -30dB, an overall tuning time less than 1ms. The last part of my work is to design the entire automatic matching network circuit in 0.13um CMOS technology including a front-end transceiver designed under ultra low power constraints and operating at 2.4GHz ISM frequency band. The additional items overall power consumption is less than 1.5mW under 1.2V supply voltage. Calibration d'antenne Faible consommation Réseau d'adaptation d'impédance Télémétrie médicale Tête radiofréquence Low power consumption Power efficiency optimisation Impedance matching network Antenna tuning unit Implantable pacemaker Medical telemetry
74	Sources laser non linéaires accordables dans l'infrarouge et l'ultraviolet pour la métrologie des rayonnements optiques / infrared and ultraviolet synchronization of non-linear laser sources aimed at optical radiation metrology Rihan, Abdallah 19 December 2011 (has links) L'objet de cette thèse porte sur la conception et la réalisation de deux sources laser non linéaires accordables dans les domaines IR et UV, pour le raccordement de la sensibilité spectrale des détecteurs au moyen du radiomètre cryogénique du laboratoire commun de métrologie (LCM). La source IR est un oscillateur paramétrique optique (OPO) résonant sur les ondes pompe et signal (PRSRO), utilisant un cristal de niobate de lithium à inversion de domaines de polarisation dopé par 5% d'oxyde de magnésium (ppMgCLN). Pompé par un laser Ti:Al2O3 en anneau mono-fréquence et accordable, délivrant 500 mW de puissance utile autour de 795 nm, l'OPO possède un seuil d'oscillation de 110 mW. Une couverture spectrale continue entre 1 µm et 3.5 µm a été obtenue, avec des puissances de l'ordre du mW pour l'onde signal (1 µm à 1.5 µm) et des puissances comprises entre $20$ à $50$ mW pour l'onde complémentaire couvrant un octave de longueur d'onde IR entre 1.7 µm et 3.5 µm. La source UV est obtenue par doublage de fréquence en cavité externe du laser Ti:Al2O3, dans un cristal de triborate de lithium (LiB3O5). Un accord de phase en température à angle d'accord de phase fixé permet l'obtention d'une couverture spectrale comprise entre 390 nm et 405 nm. L'asservissement de la cavité de doublage sur la fréquence du laser Ti:Al2O3 par la méthode de Pound-Drever-Hall, ainsi qu'une adaptation de mode optimale, permet d'obtenir une puissance de 5.64 mW à 400 nm à partir de 480 mW de puissance fondamentale. / The work presented in this PhD dissertation details the strategy adopted to build two non-linear laser sources that are widely in the mid-infrared and blue-UV spectral ranges. These laser sources are needed for the traceability to SI units of coherent light irradiance measurements using a cryogenic radiometer of the using cryogenic radiometer of the Laboratoire commun de métrologie (LCM) .The infrared laser source is an optical parametric oscillator (OPO) resonating on the pump and signal wavelengths (PRSRO) and employing a periodically poled Lithium Niobate non-linear crystal doped with 5% magnesium oxide (ppMgCLN). The PRSRO is pumped by a single-frequency tunable bow-tie ring cavity Titanium-Sapphire laser (Ti:Al2O3) delivering 500 mW output power at 795 nm wavelength, , resulting in a power oscillation threshold of 110 mW. The PRSRO emission could continuously cover the spectral range from 1 µm to 3.5 µm. The level of output power achieved is of the order of 1 mW for the signal wave (1 µm to 1.5 µm) and between 20 mW and 50 mW for idler wave spanning an octave wavelength range (1.7 µm to 3.5 µm).The UV source based on the second harmonic generation on the Titanium-Sapphire tunable laser using an external enhancement cavity containing a critically phase-matched LBO non linear crystal (LiB3O5). Temperature-tuning of the phase-matching condition at a fixed crystal orientation leads to a wide tunability from 390 nm to 405 nm wavelength. The external cavity optical pathlength was actively locked to the laser frequency using a¨Pound-Drever-Hall servo, allowing to extract up to 6 mW power at 400 nm wavelength with a 480 mW pump power. Despite a perfect mode-matching efficiency, the power performance was limited by the poor nonlinear impedance matching of the resonator, due to both the weak nonlinearity of the crystal and the low incoming laser power. Oscillateur paramétrique optique Résonateur optique Accord de phase Génération de seconde harmonique Méthode de Pound-Drever-Hall Adaptation de mode Adaptation d'impédance Optical parametric oscillator Optical resonator Phase matching Second harmonic generation Pound-Drever-Hall method Mode matching Impedance matching
75	Systemization of RFID Tag Antenna Design Based on Optimization Techniques and Impedance Matching Charts Butt, Munam January 2012 (has links) The performance of commercial Radio Frequency Identification (RFID) tags is primarily limited by present techniques used for tag antenna design. Currently, industry techniques rely on identifying the RFID tag application (books, clothing, etc.) and then building antenna prototypes of different configurations in order to satisfy minimum read range requirements. However, these techniques inherently lack an electromagnetic basis and are unable to provide a low cost solution to the tag antenna design process. RFID tag performance characteristics (read-range, chip-antenna impedance matching, surrounding environment) can be very complex, and a thorough understanding of the RFID tag antenna design may be gained through an electromagnetic approach in order to reduce the tag antenna size and the overall cost of the RFID system. The research presented in this thesis addresses RFID tag antenna design process for passive RFID tags. With the growing number of applications (inventory, supply-chain, pharmaceuticals, etc), the proposed RFID antenna design process demonstrates procedures to design tag antennas for such applications. Electrical/geometrical properties of the antennas designed were investigated with the help of computer electromagnetic simulations in order to achieve optimal tag performance criteria such as read range, chip-impedance matching, antenna efficiency, etc. Experimental results were performed on the proposed antenna designs to compliment computer simulations and analytical modelling. Radio Frequency Identification (RFID) Tag Antenna UHF/HF tags Tag Performance Conjugate Impedance Matching Techniques T-Match Inductively Coupled Loop Nested Slot Dipoles Radiating Resistance Size Reduction Techniques Meandered Dipoles Inverted-F Configurations
76	Energieversorgung autarker Sensorsysteme im industriellen Umfeld durch kinetische Energiewandler mit Schwerpunkt auf dem elektrostatischen Wandlerprinzip Schaufuß, Jörg 12 November 2013 (has links) In der vorliegenden Arbeit wird die Entwicklung eines kinetischen Energy Harvesters vorgestellt, der auf Grundlage des elektrostatischen Wandlerprinzips aus Vibrationen elektrische Energie generiert. Für die Umsetzung wurde eine Siliziummikrostruktur entworfen, die für Arbeitsfrequenzen unter 100 Hz ausgelegt ist. Die Zahnstruktur der verwendeten Elektroden ermöglicht Spaltabstände im Submikrometerbereich und folglich große Kapazitätsänderungen, die durch die Elektrodengeometrie zusätzlich mit einer höheren Frequenz als die mechanische Bewegung stattfinden. Vergleichsweise große Leistungsausbeuten und geringe Quellimpedanzen sind dadurch erreichbar. Die geometrischen Parameter der Elektroden wurden unter Berücksichtigung der auftretenden Fertigungstoleranzen und Wechselwirkungen zueinander optimiert. Für die Ausnutzung einer ausreichend großen Inertialmasse wurde ein feinwerktechnisch hergestellter Hebelmechanismus an die Mikrostruktur angekoppelt. Über diesen wird zusätzlich ein neuer Ansatz zur Abstimmung der Eigenfrequenz des Harvesters umgesetzt. Experimentelle Untersuchungen zeigten Ausgangsleistungen im einstelligen Mikrowattbereich bei Anregungen im Zehntel m/s²-Bereich. Durch fortschreitende Optimierungen der Fertigungstechnologie sind noch deutliche Leistungssteigerungen um mindestens zwei Größenordnungen möglich. Weiterhin wird ein Energiemanagementsystem vorgestellt, welches die effiziente Übertragung der Energie auf den Verbraucher ermöglicht. / In this work the development of a kinetic energy harvester using the electrostatic conversion principle is presented. The silicon microstructure is designed to work in frequency ranges below 100Hz. Its toothed electrode structure enables gap distances in the sub micrometer range and consequently high changes of capacitance. Additionally, due to the electrode geometry the frequency of the capacitance changes is higher then the frequency of the mechanical movement. Thus high power outputs and low source impedances can be reached. The electrodes geometric parameters were optimized considering manufacturing tolerances and interactions of the parameters. To reach a sufficient inertial mass, a lever mechanism manufactured by precision engineering was connected to the microstructure. This mechanism also allows the implementation of a new method of frequency tuning. In experimental tests power outputs in the single digit microwatt range under excitations of 0.3 m/s² were reached. In accordance of further optimizations of the manufacturing technology significantly higher outputs, by at least two orders of magnitude, are possible,. Furthermore an energy management system is presented, that allows the efficient transfer of the electrical energy to the consumer. info:eu-repo/classification/ddc/620 ddc:620 Generator ; MEMS; Impedanz; Frequenz
77	Novel Closed-Loop Matching Network Topology for Reconfigurable Antenna Applications Smith, Nathanael J. 21 May 2014 (has links) No description available. Electromagnetism Electrical Engineering Electromagnetics adaptive impedance tuning tunable circuits and devices Automatic tuning topology impedance matching load impedance tuner impedance synthesizer near-field probe far-field power sensor closed-loop tuning antenna feed-back small antennas
78	Vysokofrekvenční a mezifrekvenční obvody krátkovlnné radiostanice / HF and IF circuits of shortwave radiostation Šnajdr, Václav January 2009 (has links) The study, description, design and implementation of selected blocks of multiband shortwave radio station are dealt with in the thesis. Focus is placed on the concept of multiband shortwave radio stations, with an emphasis on high frequency and intermediate frequency circuits. The first chapter is devoted to description of the transceiver block diagram which is designed as superheterodyne. The design of bandpass input filters, intermediate frequency crystal filters and output filters is described. Simulation results and the measured characteristics of the implemented functional blocks are presented. Furthermore, the amplifier circuits which maintain impedance matching of individual blocks are discussed. SSB signal generation in the transmitter part of radio station and final stage power amplification are depicted.
79	A SiGe BiCMOS LNA for mm-wave applications Janse van Rensburg, Christo 01 February 2012 (has links) A 5 GHz continuous unlicensed bandwidth is available at millimeter-wave (mm-wave) frequencies around 60 GHz and offers the prospect for multi gigabit wireless applications. The inherent atmospheric attenuation at 60 GHz due to oxygen absorption makes the frequency range ideal for short distance communication networks. For these mm-wave wireless networks, the low noise amplifier (LNA) is a critical subsystem determining the receiver performance i.e., the noise figure (NF) and receiver sensitivity. It however proves challenging to realise high performance mm-wave LNAs in a silicon (Si) complementary metal-oxide semiconductor (CMOS) technology. The mm-wave passive devices, specifically on-chip inductors, experience high propagation loss due to the conductivity of the Si substrate at mm-wave frequencies, degrading the performance of the LNA and subsequently the performance of the receiver architecture. The research is aimed at realising a high performance mm-wave LNA in a Si BiCMOS technology. The focal points are firstly, the fundamental understanding of the various forms of losses passive inductors experience and the techniques to address these issues, and secondly, whether the performance of mm-wave passive inductors can be improved by means of geometry optimising. An associated hypothesis is formulated, where the research outcome results in a preferred passive inductor and formulates an optimised passive inductor for mm-wave applications. The performance of the mm-wave inductor is evaluated using the quality factor (Q-factor) as a figure of merit. An increased inductor Q-factor translates to improved LNA input and output matching performance and contributes to the lowering of the LNA NF. The passive inductors are designed and simulated in a 2.5D electromagnetic (EM) simulator. The electrical characteristics of the passive structures are exported to a SPICE netlist which is included in a circuit simulator to evaluate and investigate the LNA performance. Two LNAs are designed and prototyped using the 13μ-m SiGe BiCMOS process from IBM as part of the experimental process to validate the hypothesis. One LNA implements the preferred inductor structures as a benchmark, while the second LNA, identical to the first, replaces one inductor with the optimised inductor. Experimental verification allows complete characterization of the passive inductors and the performance of the LNAs to prove the hypothesis. According to the author's knowledge, the slow-wave coplanar waveguide (S-CPW) achieves a higher Q-factor than microstrip and coplanar waveguide (CPW) transmission lines at mm-wave frequencies implemented for the 130 nm SiGe BiCMOS technology node. In literature, specific S-CPW transmission line geometry parameters have previously been investigated, but this work optimises the signal-to-ground spacing of the S-CPW transmission lines without changing the characteristic impedance of the lines. Optimising the S-CPW transmission line for 60 GHz increases the Q-factor from 38 to 50 in simulation, a 32 % improvement, and from 8 to 10 in measurements. Furthermore, replacing only one inductor in the output matching network of the LNA with the higher Q-factor inductor, improves the input and output matching performance of the LNA, resulting in a 5 dB input and output reflection coefficient improvement. Although a 5 dB improvement in matching performance is obtained, the resultant noise and gain performance show no significant improvement. The single stage LNAs achieve a simulated gain and NF of 13 dB and 5.3 dB respectively, and dissipate 6 mW from the 1.5 V supply. The LNA focused to attain high gain and a low NF, trading off linearity and as a result obtained poor 1 dB compression of -21.7 dBm. The LNA results are not state of the art but are comparable to SiGe BiCMOS LNAs presented in literature, achieving similar gain, NF and power dissipation figures. / Dissertation (MEng)--University of Pretoria, 2012. / Electrical, Electronic and Computer Engineering / unrestricted Slow-wave cpw (S-CPW) Electromagnetic (EM) analysis Transmission line Coplanar waveguide (CPW) Low-noise amplifier (LNA) Bipolar cmos (BICMOS) Millimeter-wave (mm-wave) Silicon germanium (SIGE) Cascode amplifier Impedance matching network (IMN) Heterojunction bipolar transistor (HBT) Integrated circuit (IC) UCTD
80	Vysokofrekvenční měřič výkonu / RF power meter Hlaváč, Štěpán January 2013 (has links) This master’s thesis describes various principles of measurement of electromagnetic waves in a free space and on a line. Used sensors and their real parameters are given for every method. The analysis of protections of high-frequency inputs of measuring instruments is done here and the most suitable method and protections of input for realization are chosen. The analysis of design of secondary protection of high-frequency input is done in this project. The protection of input is realized and measured. The suitable method of measurement is chosen as well as the sensor for measurement of power. The block diagram and circuit diagram of the meter of power are designed. According to designed conception the measuring instrument for measurement of power is realized and its single qualities are measured during the realization. In the final part its precision is measured and the evaluation of results is done.

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