05309nam 2200637 450 991081202760332120230707220010.01-119-08137-81-119-08135-11-119-08133-5(CKB)3710000000361274(EBL)1895370(SSID)ssj0001467476(PQKBManifestationID)11815491(PQKBTitleCode)TC0001467476(PQKBWorkID)11514539(PQKB)11646160(MiAaPQ)EBC1895370(Au-PeEL)EBL1895370(CaPaEBR)ebr11025869(CaONFJC)MIL770167(OCoLC)904405333(EXLCZ)99371000000036127420150314h20152015 uy 0engur|n|---|||||txtccrAnalysis and design of multicell DC/CD converters using vectorized models /Thierry MeynardLondon, England ;Hoboken, New Jersey :ISTE :Wiley,2015.©20151 online resource (160 p.)Focus Series,2051-249XDescription based upon print version of record.1-84821-800-1 Includes bibliographical references and index.Cover; Title Page; Copyright; Contents; 1: General Properties of Multilevel Converters; 1.1. Time-domain: multilevel waveform and apparent switching frequency; 1.2. Frequency domain: harmonic cancellation; 1.3. Transient response; 1.4. Conclusion; 2: Topologies of Multilevel DC/DC Converters; 2.1. Series connection; 2.1.1. Direct series connection with isolated sources; 2.1.2. Flying capacitor; 2.2. Parallel connection; 2.2.1. Interleaved choppers with star-connected inductors; 2.2.2. Interleaved choppers with InterCell Transformers (ICTs); 2.3. Series-parallel connection3: Concept of Vectorization in PLECS3.1. Vectorized components; 3.2. Star-connection block and parallel multicell converter; 3.3. Series connection block and series multicell converter; 3.4. Generalized multicell commutation cell; 3.5. Practice; 3.5.1. How to?; 3.5.2. Basic blocks; 4: Vectorized Modulator for Multilevel Choppers; 4.1. General principle; 4.2. xZOH: equalizing multisampler for multilevel choppers; 4.2.1. Control as the main source of perturbation; 4.2.2. Handling duty cycle variation; 4.2.2.1. An exact solution for unmodulated signals; 4.2.2.2. Accounting for switching4.2.2.3. Handling fast transients (at the sampling frequency)4.2.2.4. Handling emergency transients (instantaneous and asynchronous); 4.2.3. Frequency response of the equalizing sampler and modulator; 4.3. Practice; 5: Voltage Balance in Series Multilevel Converters; 5.1. Basic principles; 5.2. Linear circuits; 5.2.1. Internal balancers; 5.2.2. External balance boosters; 5.2.3. Pros and cons of internal/external balance boosters; 5.3. Nonlinear variants; 5.3.1. Internal balance boosters; 5.3.2. External balance boosters; 5.4. Loss-based design; 5.4.1. Introduction5.4.2. Internal balance boosters5.4.3. External balance boosters; 5.5. Vectorized models of balance boosters; 6: Filter Design; 6.1. Requirements; 6.1.1. Steady state: current ripple, voltage ripple and standards; 6.1.2. Transients; 6.1.3. Extra design constraints; 6.2. Design process; 7: Design of Magnetic Components for Multilevel Choppers ; 7.1. Requirements and problem formulation; 7.2. Area product; 7.2.1. Low frequency - low ripple formulation for filtering inductors; 7.2.2. General formulation for filtering inductors; 7.2.3. Application to inductors for interleaved converters7.2.4. Extension to InterCell Transformers7.3. Optimal area product of magnetic components for interleaved converters; 7.3.1. Optimal area product for inductors; 7.3.2. Optimal area product for InterCell Transformers; 7.4. Weight-optimal dimensions for a given area product; 7.4.1. For inductors; 7.4.2. For InterCell Transformers; 7.4.2.1. Flux and section of horizontal legs; 7.4.2.2. Determination of optimal dimensions; 7.5. Volume-optimal dimensions for a given area product; 7.6. Number of turns and air gap; 7.7. Accounting for current overload7.8. Optimal phase sequence for InterCell TransformersIn recent years, multilevel topologies have been introduced to allow static converters of electrical energy to address medium voltage (series connection) or high current (parallel connection). The new degrees of freedom provided by these topologies are a potential source of improvement, but they also make the design process more complex. The author of this book shows how the concepts of vectorization and design masks can be used to help the designer in comparing different designs and making the right choices. The book addresses series and parallel multicell conversion directly and the conceFocus series (London, England)DC-to-DC convertersDC-to-DC converters.621.3132Meynard Thierry853285MiAaPQMiAaPQMiAaPQBOOK9910812027603321Analysis and design of multicell DC3989210UNINA