Spelling suggestions: "subject:"selfoscillating"" "subject:"self_oscillating""
1 |
Advanced High-Frequency Electronic Ballasting Techniques for Gas Discharge LampsTao, Fengfeng 10 January 2002 (has links)
Small size, light weight, high efficacy, longer lifetime and controllable output are the main advantages of high-frequency electronic ballasts for gas discharge lamps. However, power line quality and electromagnetic interference (EMI) issues arise when a simple peak rectifying circuit is used. To suppress harmonic currents and improve power factor, input-current-shaping (ICS) or power-factor-correction (PFC) techniques are necessary.
This dissertation addresses advanced high-frequency electronic ballasting techniques by using a single-stage PFC approach. The proposed techniques include single-stage boost-derived PFC electronic ballasts with voltage-divider-rectifier front ends, single-stage PFC electronic ballasts with wide range dimming controls, single-stage charge-pump PFC electronic ballasts with lamp voltage feedback, and self-oscillating single-stage PFC electronic ballasts.
Single-stage boost-derived PFC electronic ballasts with voltage-divider-rectifier front ends are developed to solve the problem imposed by the high boost conversion ratio required by commonly used boost-derived PFC electronic ballast. Two circuit implementations are proposed, analyzed and verified by experimental results.
Due to the interaction between the PFC stage and the inverter stage, extremely high bus-voltage stress may exist during dimming operation. To reduce the bus voltage and achieve a wide-range dimming control, a novel PFC electronic ballast with asymmetrical duty-ratio control is proposed. Experimental results show that wide stable dimming operation is achieved with constant switching frequency.
Charge-pump (CP) PFC techniques utilize a high-frequency current source (CS) or voltage source (VS) or both to charge and discharge the so-called charge-pump capacitor in order to achieve PFC. The bulky DCM boost inductor is eliminated so that this family of PFC circuits has the potential for low cost and small size. A family of CPPFC electronic ballasts is investigated. A novel VSCS-CPPFC electronic ballast with lamp-voltage feedback is proposed to reduce the bus-voltage stress. This family of CPPFC electronic ballasts are implemented and evaluated, and verified by experimental results.
To further reduce the cost and size, a self-oscillating technique is applied to the CPPFC electronic ballast. Novel winding voltage modulation and current injection concepts are proposed to modulate the switching frequency. Experimental results show that the self-oscillating CS-CPPFC electronic ballast with current injection offers a more cost-effective solution for non-dimming electronic ballast applications. / Ph. D.
|
2 |
Résonateurs nanomécaniques auto-oscillants / Self-oscillating nanomechanical resonatorsBarois, Thomas 27 September 2012 (has links)
Un nanofil de carbure de silicium encastré à une de ses extrémités permet d'obtenir un résonateur mécanique réalisant un système modèle de poutre vibrante dans des régimes d'oscillation linéaire et non-linéaire. Les faibles masses et raideurs mécaniques des nanofils utilisés donnent lieu à une description des résonateurs où les forces électriques capacitives sont significatives. Si l'accordage en fréquence des résonateurs micro et nanométriques est une propriété usuelle liée aux forces électriques statiques, il sera montré que l'effet du couplage électromécanique dynamique introduit une dissipation associée aux courants électriques résultants de la vibration mécanique. Le rôle central du couplage électromécanique est mis en avant pour l'obtention d'un régime d'auto-oscillation. Lorsque le résonateur est parcouru par un courant d'émission de champ, une mise en vibration spontanée du résonateur autour de sa position d'équilibre est observée. L'introduction d'une excitation électrique alternative permet l'étude d'un régime de synchronisation externe où la dynamique de la phase de l'auto-oscillateur forcé présente un comportement remarquablement riche / When one end of a silicon carbide nanowire is clamped on a support, a mechanical resonator is obtained to achieve a model system of vibrating beam. The low weight and stiffness associated with mechanical dimensions of the micro and nanoscale wires lead to a regime where the capacitive electrical forces are significant for the dynamics of such resonators. If the frequency tuning of micro and nanoscale resonators is a usual property related to the static electrical forces, the effect of electromechanical dynamical coupling will also be considered to introduce a mechanical dissipation associated with electric currents driven by the vibration. The central role of the electromechanical coupling is put forward to obtain a self-oscillation regime. When the resonator is flowed by a field emission current, a spontaneous oscillation of the resonator around its equilibrium position is observed. The introduction of an electrical excitation allows the study of an external synchronization regime where the phase dynamics has a remarkable rich behavior
|
3 |
Exploitation de nouveaux phénomènes dans les systèmes nanoélectromécaniques : réalisation d'un nanorésonateur accordable / Exploitation of new phenomena in nano-electromechanical systems : application to the realization of a tunable nanoresonatorGouttenoire, Vincent 26 November 2009 (has links)
Ce travail de thèse porte sur l’étude de nouveaux phénomènes vibratoires dans les systèmes Nano-électromécaniques (NEMS) conçus à partir de nanofils (NFs) SiC ou de nanotubes de carbone (NCs) résonants. La configuration encastré-libre permet d'effectuer l'émission de champ (EC) pour caractériser nos échantillons et notamment mesurer le module de Young et le facteur de qualité (Q) de nos NEMS. Le chauffage du résonateur permet d'accroître fortement la valeur de Q des nanofils SiC (Qmax = 159 000). Les auto-oscillations observées sous EC sont obtenues seulement par l'application d'une tension continue et permettent un taux de conversion AC/DC de l'ordre de 50%. L'utilisation de NFs très résistifs couplée au courant d'EC est indispensable pour engendrer ces oscillations spontanées. La réalisation d'une nanoradio sous EC permet la démodulation d'un signal AM ou FM grâce à la résonance d'un NC. Nous décrivons une méthode originale pour exciter les vibrations d'un NF à partir du faisceau d'électrons d'un microscope électronique. L'évolution de la charge au bout du NF est la principale cause de ces auto-oscillations. La configuration encastré-encastré consiste à obtenir un transistor à base de NCs suspendus. Les composants sont caractérisés électriquement et mécaniquement dans un testeur sous pointe sous ultra vide à partir de techniques dites de mixing. La fréquence de résonance de ces échantillons est de l'ordre de 100 MHz et la démodulation d'un signal FM est réalisée pour la première fois dans cette configuration de NEMS. Pour l'ensemble des phénomènes découverts et traités dans ce manuscrit, un modèle et les simulations qui en découlent sont présentés et commentés / This thesis focuses on new phenomena in the mechanical resonances of SiC nanowires (NWs) and carbon nanotubes (CNs) of interest for the emerging field of nano-electro-mechanical systems (NEMS). The clamped-free confiuration allowed the study of our nanowire and nanotube samples by field emission (FE), including measuring the Young's modulus and the quality factor (Q). Heating NW resonators significantly increased their Q factor (Qmax = 159 000). Self-oscillations were observed during FE where only a DC voltage was applied, thus allowing DC/AC conversion with a rate of up to » 50%. Using highly resistive NWs coupled with FE current was required to generate these spontaneous oscillations. Achieving a nanoradio under FE allowed the demodulation of AM or FM signals through the mechanical resonance of CNs. We describe a new method to excite vibrations of a NW from the electron beam of an electron microscope. The evolution of the charge at the end of NW is the main source of these self-oscillations. The clamped-clamped configuration consists of a transistor based on suspended CNs. The devices are characterized electrically and mechanically in a probe station under ultrahigh vacuum with mixing techniques. The resonance frequencies of these samples was around 100 MHz. The demodulation of an FM signal was achieved for the first time in this NEMS configuration. For all the phenomena discovered and treated in this manuscript, a model and derived simulations are described and discussed
|
Page generated in 0.1029 seconds