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Variable Ratio Matrix Transformer based LLC Converter for Two-Stage Low-Voltage DC-DC Converter Efficiency ImprovementHou, Zhengming 12 December 2022 (has links)
The low-voltage dc-dc converter (LDC) in electrical vehicles (EVs) is to convert high dc voltage (270V~430V) from traction battery to low dc voltage (12.5V~15.5V) for the vehicle auxiliary systems. Galvanic isolation is required in the LDC due to safety considerations. Three challenges exist in the LDC design: (1) wide regulation range; (2) high output current; (3) thermal management. The single stage solutions, such as phase-shift full-bridge converter and LLC resonant converter, have been widely studied in the past. A matrix transformer is widely adopted in single-stage LDC design to deal with the large current. At last, the low-profile design allows large footprint area for high power density and ease of cooling design.
However, the trade-off between wide regulation range and efficiency exists in single-stage LDC design. Recently, a two-stage solution is proposed to achieve high efficiency and wide regulation range at the same time. The fixed turn ratio LLC stage serves as a dc transformer (DCX) to meet the galvanic isolation requirements and PWM dc-dc stage regulates the output voltages.
In this thesis, a variable ratio matrix transformer-based LLC converter is proposed for two-stage LDC efficiency improvement. The transformer secondary copper losses are reduced by taking advantage of the adaptive number of element transformers. In addition, the PWM dc-dc stage achieves better efficiency with variable intermediate bus voltage. The operation principle and design considerations are studied in this thesis. The proposed 1600W two-stage LDC prototype achieves 96.82% full load efficiency under 400V input condition which is 1.2% efficiency higher than the fixed ratio LLC based two-stage design. Last but not least, the prototype shows a comparable efficiency to the fixed ratio LLC based two-stage design even under the low input voltage (270V) condition. / M.S. / The electrical vehicle market is growing rapidly in recent years. However, the driving range is one of the bottlenecks which imperils market growth in the future. Thus, efficient power modules in electric vehicles are desired to extend the driving range. Low voltage dc-dc converter is one of the power modules in electric vehicles which is rated at several kilowatts and converts traction battery voltage for the vehicle auxiliary system, such as air conditioner, headlights, power steering and etc. In this thesis, a variable ratio matrix transformer-based LLC converter is proposed for the two-stage low-voltage dc-dc converter efficiency improvement. Consequently, the driving range of electric vehicles is further extended.
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Estudo do efeito dos transformadores de relação de transformação variável sobre a capacidade de sincronização intermáquinas /Peraro, Naryanne Rodrigues. January 2010 (has links)
Orientador: Laurence Duarte Colvara / Banca: Percival Bueno de Araujo / Banca: Silvia Galvão de Souza Cervantes / Resumo: O presente trabalho trata da influência de transformadores de relação de transformação variável, o ULTC (Under Load Tap Changing) e o PS (Phase Shifter Transformer), nas interações entre máquinas em um ambiente multimáquinas. A rede é reduzida às barras internas dos geradores com representação das consequências da ação do ULTC e do PS nas admitâncias de transferência entre máquinas. São determinados coeficientes denominados coeficiente de eficácia e Fator de Efeito, em que se identificam propriedades úteis para avaliar os efeitos da variação da relação de transformação do ULTC e do PS nas interações entre cada par de máquinas do sistema, assim como estabelecimento de lei de controle do próprio ULTC e do PS com vistas a determinado desempenho dinâmico/transitório / Abstract: This work deals with the influence of the variable ratio transformer, the ULTC (Under Load Tap Changing) and the PS (Phase Shifter Transformer) in the interactions between machines in a multimachines environment. The network is reduced to the internal busses of generators with representation of the consequences of the PS and the ULTC action in the transfer admittances between machines. Coefficients called effectiveness coefficient and Effect Factor are determined, which have useful properties for evaluating the effects of changes in the transformation ratio of the ULTC and the PS in the interactions between each generic pair of system machines, as well as establishing the control law of the ULTC and the PS overlooking a particular dynamic/transient performance / Mestre
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Estudo do efeito dos transformadores de relação de transformação variável sobre a capacidade de sincronização intermáquinasPeraro, Naryanne Rodrigues [UNESP] 02 September 2010 (has links) (PDF)
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peraro_nr_me_ilha.pdf: 663082 bytes, checksum: dc7048d99fdf2e6eddfebc9f2dd1e186 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O presente trabalho trata da influência de transformadores de relação de transformação variável, o ULTC (Under Load Tap Changing) e o PS (Phase Shifter Transformer), nas interações entre máquinas em um ambiente multimáquinas. A rede é reduzida às barras internas dos geradores com representação das consequências da ação do ULTC e do PS nas admitâncias de transferência entre máquinas. São determinados coeficientes denominados coeficiente de eficácia e Fator de Efeito, em que se identificam propriedades úteis para avaliar os efeitos da variação da relação de transformação do ULTC e do PS nas interações entre cada par de máquinas do sistema, assim como estabelecimento de lei de controle do próprio ULTC e do PS com vistas a determinado desempenho dinâmico/transitório / This work deals with the influence of the variable ratio transformer, the ULTC (Under Load Tap Changing) and the PS (Phase Shifter Transformer) in the interactions between machines in a multimachines environment. The network is reduced to the internal busses of generators with representation of the consequences of the PS and the ULTC action in the transfer admittances between machines. Coefficients called effectiveness coefficient and Effect Factor are determined, which have useful properties for evaluating the effects of changes in the transformation ratio of the ULTC and the PS in the interactions between each generic pair of system machines, as well as establishing the control law of the ULTC and the PS overlooking a particular dynamic/transient performance
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