Comparison and Evaluation of Eddy Current Sensors

In the work eddy current sensors are described and evaluated. Theoretical part includes physical basics of the eddy currents, overview of available commercial products and technologies. Industrial sensors operation was assessed based on several working modes. Apart from this, the model was created in Matlab Simulink with Xilinx Blockset and then translated into a Xilinx ISE Design Suite compatible project. The performance of the resulting implementation was compared to the existing implementation in the Xilinx Spartan 3 FPGA board with the custom made sensor. Additionally, an introduction to FPGAs and VHDL is presented.

Field-Programmable Gate Array Card for Readout and Control of Cryoelectronics

The main goal of the present Master’s Thesis project was to create a field-programmable gate array (FPGA) based system for the control of single-electron transistors or other cryoelectronic devices. The FPGA and similar technologies are studied in the present work. The fixed and programmable logic are compared with each other. The main features and limitations of the hardware used in the project are investigated. The hardware and software connections of the device to the computer are shown in detail. The software development techniques for FPGA-based design are described. The steps of design for programmable logic are considered. Furthermore, the results of filters implemented in the software are illustrated.

Viitearkkitehtuuri Windows-sovelluksen käyttöliittymän modernisoimiseksi web-sovellukseksi

IT-järjestelmillä on tärkeä rooli organisaation liiketoiminnassa. Koska organisaation liiketoimintavaatimukset ja strategia muuttuvat ympäröivän maailman mukaan, täytyy järjestelmän arkkitehtuurin sopeutua vallitsevaan tilanteeseen sekä mahdollisiin muutoksiin lyhyellä ja pitkällä aikavälillä. Modernin web-sovelluksen arkkitehtuuri sopeutuu organisaation liiketoiminnan haasteisiin. Erityisesti hallinnolliseksi ongelmaksi organisaatiossa muodostuvat Windows-sovellukset, koska niiden ylläpito sitoo henkilöresursseja ja niiden käyttökonteksti on rajallinen. Tästä syystä organisaatiot ovat käyneet etsimään ratkaisuja kuinka korvata Windows-sovellukset web-sovelluksilla. Kustannustehokas ratkaisu on modernisoida Windows-sovelluksen käyttöliittymä web-sovellukseksi. Tämän diplomityön tavoitteena oli laatia Logica Suomi Oy yritykselle viitearkkitehtuuri Win-dows-sovelluksen käyttöliittymän modernisoimiseksi web-sovellukseksi. Työ suoritettiin Proof of Concept projektissa, jossa modernisointiin Logican pääkäyttäjäsovellus. Työn tarkoituksena oli tunnistaa laajalti käytetyt arkkitehtuurimallit ja menetelmät jotka mahdollistavat modernisoinnin toteutuksen. Lisäksi tarkoitus oli tunnistaa menetelmät ja ohjelmistot jotka mahdollistavat kustannustehokkaan ja laadukkaan web-sovelluksen kehittämisen ja toteuttamisen. Työn osatavoitteena oli laatia modernisoitavan pääkäyttäjäsovelluksen kokonaisarkkitehtuuri. Työn tuloksena saatiin viitearkkitehtuuri jota voidaan käyttää ja hyödyntää ohjelmistokehitysprojekteissa, asiakkaan dokumentaatiossa, myynnissä ja markkinoinnissa. Viitearkkitehtuurissa on esitelty modernit web-teknologiat joilla on mahdollista toteuttaa web-sovellus jonka käyttökokemus vastaa Windows-sovellusta. Lisäksi tuloksena saatiin pääkäyttäjäsovelluksen kokonaisarkkitehtuuri, jonka tärkeimpiä tuloksia ovat modernisoinnin tavoitetila ja sovellusarkkitehtuuri. Tärkeimpiä jatkotoimenpiteitä ovat viitearkkitehtuuriin pohjautuvan modernisointiviitekehyksen laadinta sekä modernisointiprojektin arviointiin käytettävien mittareiden määrittely, suunnittelu ja toteutus. Relevanttien mittareiden avulla voidaan todeta, vastaako modernisoitu sovellus organisaation liiketoimintavaatimuksia ja strategiaa.

One chip solution for low-cost active magnetic bearing system

In this work the implementation of the active magnetic bearing control system in a single FPGA is studied. Requirements for the full magnetic bearing control system are reviewed. Different control methods for active magnetic bearings are described shortly. Flux and the current base controllers are implemented in a FPGA. Suitability of the con-trollers for a low-cost magnetic bearing application is studied. Floating-point arithmetic’s are used in the controllers to ease designing burden and improve calculation precision. Per-formance of the flux controller is verified with simulations.

Study of Control Methods of a High-Frequency Cycloconverter for Domestic Induction Heating Appliances

A high-frequency cyclonverter acts as a direct ac-to-ac power converter circuit that does not require a diode bidge rectifier. Bridgeless topology makes it possible to remove forward voltage drop losses that are present in a diode bridge. In addition, the on-state losses can be reduced to 1.5 times the on-state resistance of switches in half-bridge operation of the cycloconverter. A high-frequency cycloconverter is reviewed and the charging effect of the dc-capacitors in ``back-to-back'' or synchronous mode operation operation is analyzed. In addition, a control method is introduced for regulating dc-voltage of the ac-side capacitors in synchronous operation mode. The controller regulates the dc-capacitors and prevents switches from reaching overvoltage level. This can be accomplished by variating phase-shift between the upper and the lower gate signals. By adding phase-shift between the gate signal pairs, the charge stored in the energy storage capacitors can be discharged through the resonant load and substantially, the output resonant current amplitude can be improved. The above goals are analyzed and illustrated with simulation. Theory is supported with practical measurements where the proposed control method is implemented in an FPGA device and tested with a high-frequency cycloconverter using super-junction power MOSFETs as switching devices.

Power and Performance Management Strategies on NoC-Based Multicore Platforms, Using DVFS, Adaptive Algorithm and Task Parallelism

This work presents synopsis of efficient strategies used in power managements for achieving the most economical power and energy consumption in multicore systems, FPGA and NoC Platforms. In this work, a practical approach was taken, in an effort to validate the significance of the proposed Adaptive Power Management Algorithm (APMA), proposed for system developed, for this thesis project. This system comprise arithmetic and logic unit, up and down counters, adder, state machine and multiplexer. The essence of carrying this project firstly, is to develop a system that will be used for this power management project. Secondly, to perform area and power synopsis of the system on these various scalable technology platforms, UMC 90nm nanotechnology 1.2v, UMC 90nm nanotechnology 1.32v and UMC 0.18 μmNanotechnology 1.80v, in order to examine the difference in area and power consumption of the system on the platforms. Thirdly, to explore various strategies that can be used to reducing system’s power consumption and to propose an adaptive power management algorithm that can be used to reduce the power consumption of the system. The strategies introduced in this work comprise Dynamic Voltage Frequency Scaling (DVFS) and task parallelism. After the system development, it was run on FPGA board, basically NoC Platforms and on these various technology platforms UMC 90nm nanotechnology1.2v, UMC 90nm nanotechnology 1.32v and UMC180 nm nanotechnology 1.80v, the system synthesis was successfully accomplished, the simulated result analysis shows that the system meets all functional requirements, the power consumption and the area utilization were recorded and analyzed in chapter 7 of this work. This work extensively reviewed various strategies for managing power consumption which were quantitative research works by many researchers and companies, it's a mixture of study analysis and experimented lab works, it condensed and presents the whole basic concepts of power management strategy from quality technical papers.