A Modified Multiphase Boost Converter with Reduced Input Current Ripple: Split Inductance and Capacitance Configuration

Hay, Zoe M.

01 June 2018

This thesis presents the simulation, design, and hardware implementation of a modified multiphase boost converter. Converter design must consider noise imposed on input and output nodes which connect to and influence the operation of other devices. Excessive noise introduces EMI which can damage sensitive circuits or impede their operation. High ripple current degrades battery lifetime and reduces operating efficiency in connected systems such as PV arrays. Converters with high ripple current also experience greater peak conduction loss and require larger components. A two-phase implementation of a modified boost converter demonstrates the input current filtering benefits of the modified topology with increased power capacity. In a 12V to 19V 95W design, the modified multiphase design exhibits a reduced input current ripple of 1.103% compared to the 9.096% of the standard multiphase design while imposing minimal detriment to overall converter efficiency. The modified topology uses two inductors and one feedback capacitance per phase. Larger value inductors generally exhibit lower current ratings as well as larger size. The split inductance of the modified multiphase topology can be designed for occupation of less total volume than the single inductance of the standard multiphase topology.

DC-DC power converters

switching converters

boost

multiphase

modified

input current ripple

Power and Energy

A Multiphase Modified Boost Converter with Reduced Input Current Ripple: Combined Capacitors

Nissan, Omri

01 June 2018

The delivery of high power and smaller footprints through a non-isolated topology demands for the use of multiphase topology in DC-DC converters. Multiphase reduces the ripple observed on both the input and output waveforms; however, it may not be enough to connect to sensitive power sources such as renewable energy sources. A single-phase modified boost converter demonstrates the ability to acquire very minimal input current ripple by addition of passive components. The expansion to multiphase topology is the next logical step for higher power application while furthering the low input current ripple benefit. In this thesis, the multiphase modified boost topology is compared with the multiphase standard boost topology to explore the benefits and trade-offs of the proposed topology. A 12V input to 19V output at 95W output power multiphase standard and modified boost converters were designed and constructed for the thesis. Results from theoretical calculations, computer simulations, and hardware implementations were then compared to evaluate their performances. Results show that compared to the standard boost, the modified boost yields significantly less input current ripple at 2% under full load condition while maintaining output voltage ripple of 5% and higher than 90% efficiency.

dc/dc

boost converter

multiphase

minimum input current ripple

Electrical and Electronics

Power and Energy

Estudo do conversor D : an?lises qualitativa e quantitativa, crit?rios de dimensionamento e modelagem em espa?o de estados

Dutra, S?lvio Cesar Antunes

31 August 2018

Submitted by PPG Engenharia El?trica (engenharia.pg.eletrica@pucrs.br) on 2018-10-31T13:57:50Z No. of bitstreams: 1 SILVIO CESAR ANTUNES DUTRA_DIS.pdf: 2550584 bytes, checksum: 3dae5cef4ef20b66d5c7a4db79ae5cad (MD5) / Approved for entry into archive by Sheila Dias (sheila.dias@pucrs.br) on 2018-11-01T11:50:43Z (GMT) No. of bitstreams: 1 SILVIO CESAR ANTUNES DUTRA_DIS.pdf: 2550584 bytes, checksum: 3dae5cef4ef20b66d5c7a4db79ae5cad (MD5) / Made available in DSpace on 2018-11-01T12:00:28Z (GMT). No. of bitstreams: 1 SILVIO CESAR ANTUNES DUTRA_DIS.pdf: 2550584 bytes, checksum: 3dae5cef4ef20b66d5c7a4db79ae5cad (MD5) Previous issue date: 2018-08-31 / Power converters are widely used in the context of power electronics. In the same way that transformers have a fundamental role in applications involving AC circuits, power converters modify voltage magnitudes in DC circuits. These devices can either present an output voltage higher than the input voltage, acting as a Boost converter, or lower, acting, in this case, as a Buck converter. The input and output signals can also present either a voltage source or a current source behavior, depending on the topology. This work presents a systematic study of the D converter operating in the continuous conduction mode, in permanent regime, including the qualitative and quantitative analyzes, resulting in a methodology of dimensioning of the converter, as well as its modeling in space of states, which makes feasible studies of control strategies for it. Although this is not a new topology, this converter has recently been reintroduced due to its ability to increase efficiency in the energy conversion process, especially in photovoltaic systems. However, this research is fully justified given the lack of similar work for the D converter topology. This study was validated from tests performed in the PSIM simulation software, in addition to MATLAB / SIMULINK. A laboratory prototype was specially constructed for validation purposes in a rapid prototyping platform, as well as the consequent implementation in a PCI, for use in future works. / Os conversores est?ticos s?o amplamente utilizados no contexto da eletr?nica de pot?ncia. Da mesma forma que os transformadores t?m papel fundamental nas aplica??es que envolvem circuitos alimentados em corrente alternada, os conversores est?ticos realizam a transforma??o de magnitudes de tens?o em circuitos de corrente cont?nua. Tais dispositivos podem tanto apresentar em sua sa?da um valor de tens?o superior em rela??o ao sinal de entrada, atuando como elevadores, quanto inferior, atuando, neste caso, como redutores. Estes tamb?m podem apresentar suas sa?das ou entradas com um comportamento de fonte de tens?o ou corrente, dependendo da topologia utilizada. Este trabalho apresenta um estudo sistematizado do conversor D operando no modo de condu??o cont?nua, em regime permanente, incluindo as an?lises qualitativa e quantitativa, resultando em uma metodologia de dimensionamento do conversor, bem como a sua modelagem em espa?o de estados, o que viabiliza estudos de estrat?gias de controle para o mesmo. Apesar de n?o se tratar de uma nova topologia, recentemente este conversor foi reintroduzido, devido a sua capacidade de aumentar a efici?ncia no processo de convers?o de energia, especialmente em sistemas fotovoltaicos. Esta pesquisa encontra justificativa dada a inexist?ncia de trabalhos semelhantes especificamente para a topologia do conversor D. Este estudo foi validado a partir de ensaios realizados no software de simula??o PSIM, al?m do MATLAB/SIMULINK. Um prot?tipo de laborat?rio foi especialmente constru?do para fins de valida??o em uma plataforma de prototipagem r?pida, bem como a consequente implementa??o do mesmo em uma PCI, para utiliza??o em trabalhos futuros.

An?lises Qualitativa e Quantitativa

Baixa Ondula??o na Corrente de Entrada

Metodologia de Dimensionamento

Espa?o de Estados

States Space

Qualitative and Quantitative Analysis

Low Input Current Ripple

Design Methodology

ENGENHARIAS