Enfouissement d’une alimentation isolée sous contraintes de température et d’isolation / Integration of an insulated power supply under temperature and insulation constraints

Wanderoild-Morand, Yohan

10 October 2018

Certaines applications haute température telles que le forage, l’aéronautique ou l’aérospatial, amènent à repenser la conception des alimentations isolées permettant la commande des éléments de puissance. Ce mémoire s’articule autour de l’étude de la faisabilité et de l’enfouissement d’un convertisseur isolé possédant une forte isolation statique (10kV) et dynamique (<10 pF), pouvant travailler sous de hautes températures (>250°C), dans les gammes de tension de sortie de la dizaine de volts et de puissance de l’ordre du Watt. Pour ne pas être contraint par la température de Curie d’un matériau magnétique, cette alimentation DC/DC se base sur un transformateur à air. Dans un premier temps, cette thèse détaille l’origine, la mesure et l’estimation des éléments du modèle électrique choisi pour le transformateur. Ensuite, afin de maximiser la transmission de puissance, nous constituons un système résonnant en ajoutant des condensateurs en parallèle ou en série avec le transformateur, puis nous développons une méthode permettant d’accorder l’ensemble. La comparaison entre les topologies nous amène ensuite à choisir compensation série-série. Puis nous constatons que la technologie choisie pour les condensateurs, la contrainte d’isolation statique et dynamique peuvent diviser par plus de deux la puissance transmise au travers d’une surface. Enfin, nous abordons comment redresser et réguler la tension de sortie sans affecter la résonnance ou l’isolation apportée, tout en minimisant les pertes générées. Une dernière partie montre que, moyennant un système de dissipation un processus de fabrication adapté, il est possible d’intégrer la structure complète sur silicium / High temperature applications such as deep drilling, aeronautics or aerospace, lead to rework the isolated power supplies used for the control of the power elements. This work study the feasibility of an embedded converter with high static (10kV) and dynamic (<10 pF) insulation, able to work under high temperatures (> 250 ° C), in the ranges of dozens volts for the output voltage and several Watt of transmitted power. To avoid being constrained by a magnetic material Curie temperature of, we use a coreless transformer based DC/DC power supply. First of all, this thesis details the origin, the measurement and the estimation of the elements of the chosen transformer electric model. Then, to maximize the transferred power, we form a resonant structure by adding capacitors in parallel or in series with the transformer, then we develop a method to tune the whole. The comparison between the topologies leads us to choose a serial-serial compensation. Then we note that the technology chosen for capacitors, the static and dynamic insulation constraint can divide by more than two the power transmitted through a surface. Finally, we discuss how to rectify and regulate the output voltage without affecting the resonance or insulation provided, while minimizing the losses generated. A last part exhibit that with a suitable dissipation system and manufacturing process, it is possible to integrate the complete structure on silicon chips

Convertisseur isolé

Commande de grille

Transformateur à air

Alimentation résonnante

Isolated converter

Gate driver

Coreless transformer

Resonant power supply

620

DC/DC měniče pro průmyslové napájecí zdroje. / DC/DC converters for industrial power supplies

Chudý, Andrej

January 2021

This diploma thesis deals with design and comparison of selected DC/DC converters, where the better of them is practically realized. The first part of the diploma thesis is focused on the general analysis of DC/DC power converters. The following part is theoretical analysis focused on the first selected topology – step-up converter. The second analysed topology is forward converter with full bridge on the primary side. The theoretical analysis also includes a description of synchronous rectifier, the differences between hard and soft switching, and the types of secondary rectifiers. Another part specializes in the detailed calculation of main components of selected converters and their subsequent power dimensioning. Both designed topologies are compared according to the required aspects. The selected better topology is supplemented by the design of control circuits and an auxiliary power supply. Practical realization of converter and commissioning follows. The diploma thesis ends with verification measurements on the realized converter and their subsequent analysis.

Design Of An Educational Purpose Multifunctional Dc/dc Converter Board

Baglan, Fuat Onur

01 August 2008

In this thesis a multifunctional DC/DC converter board will be developed for utilization as an educational experiment set in the switched-mode power conversion laboratory of power electronic courses. The board has a generic power-pole structure allowing for easy configuration of various power converter topologies and includes buck, boost, buck-boost, flyback, and forward converter topologies. All the converters can be operated in the open-loop control mode with a switching frequency range of 30-100 kHz and a maximum output power of 20 W. Also the buck converter can be operated in voltage mode control and the buck-boost converter can be operated in peak-current-mode control for the purpose of demonstrating the closed loop control performance of DC/DC converters. The designed board allows for experimentation on the DC/DC converters to observe the macroscopic (steadystate/ dynamic, PWM cycle and low frequency) and microscopic (switching dynamic) behavior of the converters. In the experiments both such characteristics can be clearly observed such that students at basic learning level (involving only the macroscopic behavior), and students at advanced learning level (additionally involving the parasitic effects) can benefit from the experiments. The thesis reviews the switch mode conversion principles, gives the board design and proceeds with the experiments illustrating the capabilities of the experimental system.