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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
61

Analysis of Electrical and Thermal Stresses in the Stress Relief System of Inverter Fed Medium Voltage Induction Motors

Sharifi-Ghazvini, Emad 10 January 2011 (has links)
Pulse width modulation (PWM) voltage source converters (VSC) are one type of motor drives that have become popular because they enable precise control of speed and torque in medium voltage motors. However, these drives are known to have adverse effects on the insulation system particularly on conductive armour tape (CAT) and semi-conductive stress grading tape (SGT). These tapes, which are crucial components of the insulation system, control the surface electrical stresses in the stator slot and in the end portion of the form-wound coils outside the grounded stator. The material properties of CAT and SGT and the methods by which they are applied on form-wound motor coils are traditionally designed for power frequency, or a 60 Hz sinusoidal voltage. However, because of the high frequencies associated with the repetition rate and the fast rise time of the PWM pulses, elevated electrical and thermal stresses develop in these tapes, which can lead to premature insulation failure. Little research has been conducted with respect to understanding the mechanism of dielectric heating as a function of frequency and repetitive pulse characteristics. The material characterization of CAT and SGT is a vital part of an investigation of the performance of the stress relief system at high frequencies. In this study, the anisotropic dielectric properties of CAT and SGT have been measured in dc and ac and in low and high electric fields. The laboratory experiments for determining the material characteristics are discussed and the results analyzed. According to the ac space charge limited field (SCLF) theory, the maximum ac tangential component of the electric field in a nonlinear resistive SGT on medium voltage form-wound motor coils can be predicted from the field dependent electrical conductivity and the frequency. However, the SCLF theory cannot predict the total electric field (vector sum of the tangential and normal components) in the air adjacent to the surface of the tapes. Simulations of the electric field using a finite element method (FEM), is one of the best ways of finding the resultant electric field distribution in the air space adjacent to the SGT. However, prior to this study, researchers simplified the modelling of the stress relief system to avoid the convergence problems that develop due to the nonlinearity of the SGT conductivity as a function of the electric field, and also because of the geometry and dimensions of the tapes when their depths are orders of magnitude smaller than the other dimensions associated with form-wound coils. For modelling the stress grading (SG) system at power frequency and at the rated voltage, the dc isotropic conductivity of the SGT and CAT has also been extensively investigated. However, relatively little work has been done with respect to the ac electrical behaviour of these materials and dc modelling cannot reflect the effects of high-frequency stresses on the machine insulation. In this study, comprehensive transient FEM modelling has been developed in order to simulate the insulation system with nonlinear field dependent materials. The actual dimensions of the components are applied in the model, and the appropriate material parameters for the FEM simulations are extracted from the experimental test results. One crucial point that has not been considered in previous studies is the effect of the component of the electric field that is normal to the surface of the coil. In most studies, only the tangential component of the electric field is considered; however, in this study, both components and the resultant electric field are computed. The surface tangential field is calculated with reference to the gradient of the surface potential as measured with an electrostatic voltmeter. It is shown that this technique can provide a reasonable estimate for the tangential field along the SG system, but not without limitations, which are discussed in detail. Based on laboratory work and analytical analysis, this research has successfully determined the relationship between the thermal effect of the PWM voltage and the other repetitive fast pulses, such as square wave and impulse voltages. The influence of the pulse characteristics on the development of stresses has also thoroughly investigated, and the results are presented. A coupled electric and thermal model that incorporates the finite element method (FEM) is used as a means of studying thermal stresses and determining appropriate remedies. However, using transient analysis as an approach for finding the temperature profile associated with high repetitive impulses (1-10 kHz) and fast rise times (~200 ns) is both difficult and impractical. According to these considerations, an alternative method has been developed from stationary analyses based on two sinusoidal voltages of different frequencies. The frequency and amplitude of these sinusoids are measured relative to the switching frequency, signal power, and nonlinearity of the system, and the results of the simulation are then verified experimentally, thus showing the efficacy of this method. This research also concluded that a capacitive SG system with conductive foil embedded in the groundwall insulation can be a practical alternative to a conventional SGT of form-wound coils in inverter fed motors. The performance of the capacitive SG scheme is independent of frequency and can therefore provide the required mitigation of the stress caused by repetitive fast pulses. The results of the evaluation of this system with respect to qualification tests demonstrate the effectiveness of the system.
62

Elektrotechninių įrenginių elektrodinaminių bandymų metodikos ir priemonių tyrimas / The investigation of elektrotechnical equipment‘s electrodynamics tests methodology and devices

Macevičius, Rimvydas 29 September 2008 (has links)
Įmonėje UAB ELGA nuolatos tobulina vidutinės įtampos skirstymo ir valdymo elektros įrenginių konstrukciją, todėl iškyla poreikis atlikti trumpo jungimo srovės bandymus naujai sukomplektuotai įrangai. Magistriniame darbe analizuojama įmonėje surenkamų vidutinės įtampos uždarųjų skirstyklų skirstymo ir valdymo elektros įrenginių USN-10, USN-20, naudojamų 6 ÷ 10, 24 kV įtampos, 50 Hz dažnio elektros energijos paskirstymui, prijungtų linijų apsaugai nuo perkrovimų ir trumpų jungimų atsparumo trumpojo jungimo srovėms tyrimo laboratorija. Narveliuose, ant ištraukiamojo elemento (vežimėlio) instaliuoti įvairių firmų pvz.: „ABB“; „SIEMENS“; „VEI“ ir t.t. vakuuminiai jungtuvai. Darbe pateikiami normatyviniai dokumentai, kuriais remiantis atliekami bandymai, bandymo laboratoriją sudarančių elementų varžų, terminio bei dinaminio atsparumo skaičiavimai, bandymo schemos, bei bandymų sąlygos. / Stock company „ELGA“ is constantly developing an air insulated medium voltage semi-metalclad type switchgear systems construction, so it happens that we need to do short – time and withstand current tests for new complemented equipment. The Master thesis analyses short – time and withstand current tests laboratory for in company prefab medium voltage semi-metalclad type switchgear systems USN-10, USN-20 designed to be used for 6 ÷ 10, 24 kV voltage, and 50Hz frequency power distribution, connected feeder with over current and overload protection. Various companies' circuit breakers for example „ABB“; „SIEMENS“; „VEI“ etc are installed on extractive element (trolley) in cubicle. Normative standards sustaining how the tests should be made, test laboratory formative elements resistant’s, short – time and withstand current calculation, test scheme and test conditions are presented in the Master thesis.
63

Analysis of Electrical and Thermal Stresses in the Stress Relief System of Inverter Fed Medium Voltage Induction Motors

Sharifi-Ghazvini, Emad 10 January 2011 (has links)
Pulse width modulation (PWM) voltage source converters (VSC) are one type of motor drives that have become popular because they enable precise control of speed and torque in medium voltage motors. However, these drives are known to have adverse effects on the insulation system particularly on conductive armour tape (CAT) and semi-conductive stress grading tape (SGT). These tapes, which are crucial components of the insulation system, control the surface electrical stresses in the stator slot and in the end portion of the form-wound coils outside the grounded stator. The material properties of CAT and SGT and the methods by which they are applied on form-wound motor coils are traditionally designed for power frequency, or a 60 Hz sinusoidal voltage. However, because of the high frequencies associated with the repetition rate and the fast rise time of the PWM pulses, elevated electrical and thermal stresses develop in these tapes, which can lead to premature insulation failure. Little research has been conducted with respect to understanding the mechanism of dielectric heating as a function of frequency and repetitive pulse characteristics. The material characterization of CAT and SGT is a vital part of an investigation of the performance of the stress relief system at high frequencies. In this study, the anisotropic dielectric properties of CAT and SGT have been measured in dc and ac and in low and high electric fields. The laboratory experiments for determining the material characteristics are discussed and the results analyzed. According to the ac space charge limited field (SCLF) theory, the maximum ac tangential component of the electric field in a nonlinear resistive SGT on medium voltage form-wound motor coils can be predicted from the field dependent electrical conductivity and the frequency. However, the SCLF theory cannot predict the total electric field (vector sum of the tangential and normal components) in the air adjacent to the surface of the tapes. Simulations of the electric field using a finite element method (FEM), is one of the best ways of finding the resultant electric field distribution in the air space adjacent to the SGT. However, prior to this study, researchers simplified the modelling of the stress relief system to avoid the convergence problems that develop due to the nonlinearity of the SGT conductivity as a function of the electric field, and also because of the geometry and dimensions of the tapes when their depths are orders of magnitude smaller than the other dimensions associated with form-wound coils. For modelling the stress grading (SG) system at power frequency and at the rated voltage, the dc isotropic conductivity of the SGT and CAT has also been extensively investigated. However, relatively little work has been done with respect to the ac electrical behaviour of these materials and dc modelling cannot reflect the effects of high-frequency stresses on the machine insulation. In this study, comprehensive transient FEM modelling has been developed in order to simulate the insulation system with nonlinear field dependent materials. The actual dimensions of the components are applied in the model, and the appropriate material parameters for the FEM simulations are extracted from the experimental test results. One crucial point that has not been considered in previous studies is the effect of the component of the electric field that is normal to the surface of the coil. In most studies, only the tangential component of the electric field is considered; however, in this study, both components and the resultant electric field are computed. The surface tangential field is calculated with reference to the gradient of the surface potential as measured with an electrostatic voltmeter. It is shown that this technique can provide a reasonable estimate for the tangential field along the SG system, but not without limitations, which are discussed in detail. Based on laboratory work and analytical analysis, this research has successfully determined the relationship between the thermal effect of the PWM voltage and the other repetitive fast pulses, such as square wave and impulse voltages. The influence of the pulse characteristics on the development of stresses has also thoroughly investigated, and the results are presented. A coupled electric and thermal model that incorporates the finite element method (FEM) is used as a means of studying thermal stresses and determining appropriate remedies. However, using transient analysis as an approach for finding the temperature profile associated with high repetitive impulses (1-10 kHz) and fast rise times (~200 ns) is both difficult and impractical. According to these considerations, an alternative method has been developed from stationary analyses based on two sinusoidal voltages of different frequencies. The frequency and amplitude of these sinusoids are measured relative to the switching frequency, signal power, and nonlinearity of the system, and the results of the simulation are then verified experimentally, thus showing the efficacy of this method. This research also concluded that a capacitive SG system with conductive foil embedded in the groundwall insulation can be a practical alternative to a conventional SGT of form-wound coils in inverter fed motors. The performance of the capacitive SG scheme is independent of frequency and can therefore provide the required mitigation of the stress caused by repetitive fast pulses. The results of the evaluation of this system with respect to qualification tests demonstrate the effectiveness of the system.
64

Προσδιορισμός της απόδοσης αγωγών υψηλής τάσης για τη χρήση PowerLine Communication (PLC)

Μουστάκα, Μαρία, Σταμούλη, Αλεξία 16 June 2011 (has links)
Ο στόχος της διπλωματικής αυτής είναι η περιγραφή της αναδυόμενης τεχνολογίας PLC (PowerLine Communication). Η τεχνολογία αυτή με τη χρήση του πανταχού παρόντος ηλεκτρικού δικτύου προσφέρει ακόμα και σε απομακρυσμένους χρήστες πληθώρα ευρυζωνικών υπηρεσιών και πρόσβαση στο διαδίκτυο, αποτελώντας μια ανταγωνιστική επιλογή τρόπου επικοινωνίας. Για την κατανόηση της PLC τεχνολογίας αρχικά κρίνουμε απαραίτητη την λεπτομερή περιγραφή της δομής του ηλεκτρικού δικτύου, του εξοπλισμού που απαιτείται για την εφαρμογή της και των αρχιτεκτονικών της. Στη συνέχεια γίνεται αναφορά στα προβλήματα που παρουσιάζονται και χρήζουν αντιμετώπισης. Επιπρόσθετα, γίνεται σύντομη παρουσίαση των εναλλακτικών υπηρεσιών και σύγκριση των PLC με αυτές. Η μετάδοση μέσω ηλεκτροφόρων καλωδίων προσφέρει ένα μεγάλο εύρος ζώνης, παρέχοντας μία γκάμα πολυάριθμων υπηρεσιών, όπως το έξυπνο σπίτι ή το AMR (Automatic Meter Reading) για τη διευκόλυνση τόσο των οικιακών χρηστών όσο και των επιχειρησιακών. Η χρήση των γραμμών ηλεκτρικής ενέργειας ως τηλεπικοινωνιακό κανάλι απαιτεί την εφαρμογή των κατάλληλων τεχνικών πρόσβασης. Οι πιο διαδεδομένες τεχνικές είναι οι FDMA (Frequency Division Multiple Access), TDMA (Time Division Multiple Access) και CDMA (Code Division Multiple Access) . Η παρούσα διπλωματική επικεντρώθηκε στην TDMA και την FDMA με διαμόρφωση σήματος OFDM (Orthogonal Frequency Division Multiplexing) η οποία ονομάζεται OFDMA (Orthogonal Frequency Division Multiple Access). Πραγματοποιήθηκαν εξομοιώσεις σε Matlab διάφορων αλγορίθμων αναλογικής δικαιοσύνης με τεχνική OFDMA και ταυτόχρονη εξομοίωση της TDMA. Στόχος είναι να συγκρίνουμε τους αλγόριθμους αυτούς ως προς το συνολικό ρυθμό μετάδοσης και τη δικαιοσύνη κατανομής των πόρων στους χρήστες. Από τη σύγκριση αυτή προκύπτει ότι η τεχνική TDMA αποδίδει λιγότερο, ενώ από τους υπόλοιπους αλγόριθμους τα καλύτερα αποτελέσματα επιφέρει ο αλγόριθμος των Bill et al., με ισορροπία του συνολικού ρυθμού μετάδοσης και της επιθυμητής δικαιοσύνης. / Main goal of this diploma thesis is the description of the up and coming PLC (PowerLine Communication) technology. This technology offers access to the web and to several broadband services to even distant and isolated users, by exploiting the power line grid, widely spread to nearly all surface land sites, consisting this way a competitive communication alternative. For a better comprehension of the PLC technology, this work starts with a detailed description of the power line grid, the several PLC technology architectures and the necessary equipment for their application. Following this work, there is a reference to any possible problems that need to be overcome and a short comparative presentation of the PLC technology versus other alternatives to it. The data transmission over electricity lines offers a wide bandwidth and thus it may support a variety of applications, as the smart home and AMR (Automatic Meter Reading) for the proper service of either domestic or industrial users. The use of electricity power lines as a communication channel necessitates the application of multiple access Strategies as FDMA (Frequency Division Multiple Access), TDMA (Time Division Multiple Access) and CDMA (Code Division Multiple Access), which are currently the most popular. This thesis is focused on TDMA and FDMA with OFDM signal modulation. This technique is called OFDMA (Orthogonal Frequency Division Multiple Access). Several proportional rate constraints algorithms were simulated in Matlab applying both OFDMA and TDMA strategies in order to compare these algorithms in terms of the maximized total throughput and the fair allocation of resources to the end users (fairness). From this comparison it comes up that TDMA technique is less efficient, whereas from the other algorithms the most efficient is the one of Bill et al., that offers a good balance between total throughput and fairness.
65

Analys av kondensatorbatteriers tillkopplingsfenomen : Undersökning av de kopplingsfenomen som uppstår vid tillkoppling av kondensatorbatterier och deras påverkan på närliggande komponenter / Analysis of capacitor banks switching phenomena : Investigation of switching phenomena that occurs due to capacitor banks switching and their effects on surrounding components

Ezzeddine, Kassem, Oskarsson, Robert January 2017 (has links)
Många elektriska apparater är i behov av reaktiv effekt för att kunna fungera. Transport av reaktiv effekt tar onödig plats av den tillgängliga kapaciteten i elnätet, därför används kondensatorbatterier nära slutanvändaren för att generera reaktiv effekt. Därmed genereras och förbrukas den reaktiva effekten i en avskild del av nätet. Tillkoppling av kondensatorbatterier ger upphov till transienter som kan skada andra närliggande komponenter. Utifrån det verkliga ställverket Stallbacka i Trollhättan har denna rapport analyserat de transienter som uppstår efter tillkoppling av ett kondensatorbatteri inom mellanspänningsområdet. Analysen har innefattat hur stora transienterna blir efter olika förutsättningar och scenarier. Resultatet visade att transienterna i detta fall aldrig nådde upp till några allvarliga nivåer, och därmed klarade komponenterna sig med god marginal. Huruvida transienterna påverkar elkvaliteten är oklart, då det inte finns några definierade krav. Slutligen skulle ett beräkningsverktyg för förutspådda transienter tas fram. Beräkningsverktyget blev aldrig fullständigt på grund av den ohanterliga lösningen som erhölls. / Many electrical devices need reactive power to operate. Transmission of reactive power occupies a proportion of the available capacity in the power system and therefore capacitor banks are used near to the end user to generate reactive power. Thus, the reactive effect is generated and consumed in a separate part of the power system. Capacitor banks switching causes transients which may damage the surrounding components. Based on the real substation Stallbacka in Trollhättan, this study has analysed capacitor banks switching transients within the medium voltage level. The analysis has covered the size of these transients according to different conditions and scenarios. The result showed that the transients in this case never reached serious levels, thus there was no impact on the components. It is not clear whether the transients affect the power quality because there are no defined limits.  A calculation tool to the predicted transients was supposed to be created in the process. This calculation tool was never completed due to the unmanageable solution that was obtained.
66

Vliv samonosného optického kabelu na mechaniku venkovního vedení VN / Influence of All-dielectric self-supporting cable on the mechanics of middle voltage overhead line

Nedoma, Jakub January 2021 (has links)
This thesis is focused on assessing the impact of retrofitting dielectric All Dielectric Self-Supporting Cable (ADSS) to existing MV overhead line. This type of optical cable is a means of future strengthening of the communication infrastructure of the distribution network. However, its mechanical properties are significantly different from the properties ACSR cable, due to which its installation can be problematic in terms of meeting the requirements of the PNE 33 3301 standard. In practical part, this work deals with the design of the ADSS installation on the existing MV line and the determination of its impact based on the assessment of the results of this design.
67

Metodika návrhu svodičů přepětí VN pro vzduchem izolované rozváděče / Selection and Application of Surge Arresters for Middle-Voltage Air-Insulated Switchgears

Němec, Ondřej January 2013 (has links)
The purpose of this thesis is to introduce readers with design of a surge arresters in four different categories. In the first part of this thesis is described theory of overvoltage, surge arresters and testing. The second part of this thesis is focused on design of surge arresters to protect from overvoltage due switching capacitive loads. The thesis continued with design of surge arresters in medium voltage network. The next part is design of surge arresters to protect from overvoltage due switching inductive loads. The next point is protective distance of surge arresters in different lighting overvoltages. In the conclusion of this thesis is the appreciation of whole problems about surge arresters.
68

Měření elektrických veličin v distribučních sítích 22 kV a 0,4 kV s disperzními zdroji / Monitoring in Middle- and Low-Voltage distribution systems penetrated by distributed generation

Kolacia, Tomáš January 2015 (has links)
This thesis concerns monitoring in Middle- and Low-Voltage distribution systems penetrated by distributed generation. Monitoring itself means measuring voltages and power flows and sending relevant data to the supervisory system. The first part of the thesis describes distribution systems with differences between individual voltage levels. The following chapter is focused on consequences of high share of renewable energy sources in distribution systems. Most of the problems are partially resolved by technical conditions for connection of the new power sources. However, difficulties with voltage regulation and uncontrolled power flows to higher voltage levels remain. These are the reasons for measuring voltages and currents in medium voltage networks. Second to last subhead of this chapter is dedicated to possible benefits of monitoring. The fourth part of the thesis deals with voltage and current sensors with their advantages and disadvantages. The best suitable devices are chosen in the end of the chapter. It is crucial to mention that sensors are only part of measuring system. Analog outputs from current or voltage transformers need to be converted to digital signal and further processed. After that required quantities are finally sent. Properties of these circuit cards are described in the sixth chapter. Following part aims to define a certain key that will determine the suitable locations for installation of the measurement. The final part of the thesis compares measured voltages and power flows from real 22 kV network with calculated values from computer program PAS DAISY Bizon.
69

Aplikace senzorů a digitalizace podle IEC 61850 v sítích a rozvodnách vysokého napětí / Application of Sensors and Digitalization Based on IEC 61850 in Medium Voltage Networks and Switchgears

Štefanka, Martin January 2016 (has links)
Vzduchem izolované vysokonapěťové rozváděče jsou nedílnou součástí energetického distribučního řetězce a to jak v průmyslovém, tak ve veřejném sektoru. Hlavní funkcí rozváděče je ochrana pracovního personálu, rozpojování/odpojování a spínání, izolování, měření proudů a napětí, chránění a ovládání zatížení a komunikace dat do řídících systémů. V každé z výše zmíněných funkcí probíhal technologický vývoj v průběhu posledních 40 let. Dnešní rozváděče jsou spolehlivé a elektrickému oblouku odolné zařízení, zoptimalizované téměř k fyzikálním limitům dielektrických, elektromagnetických a termodynamických polí. Vakuové vypínače zajišťují stálou a spolehlivou vypínací funkci. Taktéž v oblasti chránění, řízení a komunikace došlo k mnoha technologickým proměnám. Od elektromechanických relé přes zařízení založená na tranzistorech, později na jednoúčelových mikroprocesorech, až po dnešní multifunkční vysoce výkonná mikroprocesorová inteligentní elektronická zařízení. Pouze oblast měření proudů a napětí setrvala z technologického hlediska posledních 40 let beze změny. K dominujícím měřícím technologiím dneška stále ještě patří indukčně založené transformátory proudu a napětí. Byly sice provedeny některé pokusy k obměně technologie měření jako takové, nicméně bez dosažení úspěchu. Tato dizertační práce je zaměřena na poskytnutí nového náhledu na alternativní technologii měření v elektrických sítích a ve vzduchem izolovaných vysokonapěťových rozváděčích, kterou lze využít jak pro měření proudu, tak i napětí. Tato práce vysvětluje, proč Rogowského cívky, odporové a kapacitní děliče jsou tou správnou volbou a měly by být použity ve vysokonapěťových rozváděčích a podrobně analyzuje přesnost měření a jejich příslušné meze. Dále tato práce popisuje, že pro nasazování nových měřících technologií musí být postupováno systematicky. Senzory připojené k inteligentním elektronickým přístrojům a schopností komunikace založené na IEC 61850 spolu s vysokorychlostní komunikační sběrnicí Ethernetu vytvoří systém, který zjednoduší a sjednotí konstrukci rozváděčů a umožní oddělit aspekty projektování měření od studie zkratových selektivit. V práci je také uveden příklad, jak tento nový systém může přinést změny a zjednodušení do oblastí projektování a řízení. V této práci jsou popsány výsledky několikaletého úsilí při stanovení nových měřících a digitalizovaných přístupů ve vysokonapěťových rozváděčích pod autorovým vedením. Toto úsilí také vedlo k uvedení nového produktu – UniGear Digital - konceptu od ABB. Závěrečná část práce demonstruje praktické nasazení všech výsledků v této práci při skutečných aplikacích.
70

Characterization and evaluation of a 6.5-kV silicon carbide bipolar diode module

Filsecker, Felipe 07 December 2016 (has links)
This work presents a 6.5-kV 1-kA SiC bipolar diode module for megawatt-range medium voltage converters. The study comprises a review of SiC devices and bipolar diodes, a description of the die and module technology, device characterization and modelling and benchmark of the device at converter level. The effects of current change rate, temperature variation, and different insulated-gate bipolar transistor (IGBT) modules for the switching cell, as well as parasitic oscillations are discussed. A comparison of the results with a commercial Si diode (6.5 kV and 1.2 kA) is included. The benchmark consists of an estimation of maximum converter output power, maximum switching frequency, losses and efficiency in a three level (3L) neutral point clamped (NPC) voltage-source converter (VSC) operating with SiC and Si diodes. The use of a model predictive control (MPC) algorithm to achieve higher efficiency levels is also discussed. The analysed diode module exhibits a very good performance regarding switching loss reduction, which allows an increase of at least 10 % in the output power of a 6-MVA converter. Alternatively, the switching frequency can be increased by 41 %.:1 Introduction 2 State of the art of SiC devices and medium-voltage diodes 2.1 Silicon carbide diodes and medium-voltage modules 2.2 Medium-voltage power diodes 3 Characterization of the SiC PiN diode module 37 3.1 Introduction 3.2 Experimental setup 3.3 Experimental results: static behaviour 3.4 Experimental results: switching behaviour 3.5 Comparison with 6.5-kV silicon diode 3.6 Oscillations in the SiC diode 3.7 Summary 4 Comparison at converter level 4.1 Introduction 4.2 Power device modelling 4.3 Determination of maximum converter power rating 4.4 Analysis 4.5 Increased efficiency through model predictive control 4.6 Summary 5 Conclusion

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