High Step-Up Converter With Coupled-Inductor

Wai, Rong‐Jong; Duan, Rou-Yong

doi:10.1109/tpel.2005.854023

Cited by 536 publications

(209 citation statements)

References 23 publications

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“…However, in many applications the high gain requirements are such that the conventional DC-DC converter operates with extremely duty-cycle operation which may result in reverse-recovery problem and causes not only low efficiency but also creates electromagnetic interference (EMI) problems [13]. To extend the voltage gain ratio, several DC-DC converters with magnetic coupling techniques have been proposed, notwithstanding some disadvantages such as pulsating bus voltage remain and complex control schemes [26,27].…”

Section: Introductionmentioning

confidence: 99%

Bidirectional boost/buck quadratic converter for distributed generation systems with electrochemical storage systems

Pires

Foito

Cordeiro

2016

2016 IEEE International Conference on Renewable Energy Research and Applications (ICRERA)

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Abstract-The increasing number of distributed generation systems using renewable and non-conventional energy sources show the trend of future generation systems. Most of these systems require power electronic converters as an interface between the DC voltage buses and electrochemical storage systems. Such storage systems, like batteries or supercapacitors, usually need bidirectional DC-DC converters to allow their charge or discharge according with necessary operation conditions. In this paper, a non-isolated bidirectional Buck-Boost converter with high voltage gain for electrochemical storage devices used in distributed generation systems is presented. To achieve high voltage gain ratios, the proposed topology presents quadratic characteristics in both step-down (Buck) and step-up (Boost) operation modes. In addition to the wide conversion range, it presents continuous input and output current, reduced charging/discharging ripple and simple control circuitry. All these features allow the energy exchange smoothly and continuously resulting in a longer durability of storage devices. The principle of the operation of the proposed converter in both operation modes, as well as their theoretical analysis will be discussed. The performance of this bidirectional power converter is confirmed through simulation and experimental results.

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Section: Introductionmentioning

confidence: 99%

Bidirectional boost/buck quadratic converter for distributed generation systems with electrochemical storage systems

Pires

Foito

Cordeiro

2016

2016 IEEE International Conference on Renewable Energy Research and Applications (ICRERA)

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“…These converters are suited only for small power since they use more numbers of capacitors. In [4] and [5], a DC-DC converter using coupled inductors and diodes is proposed to provide high efficiency. High efficiency is achieved because the leakage energy is recycled and the output rectifier reverse-recovery problem is reduced.…”

Section: Introductionmentioning

confidence: 99%

Soft Switched Voltage Multiplier Cell based DC-DC Converter for Automotive Applications

Prabhakar

2014

Automatika

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Original scientific paperSoft switched voltage multiplier cell (VMC) based DC-DC converter is proposed in this paper. The proposed converter provides the required high voltage gain without using a transformer. Thus, a compact converter with high power density is obtained. The proposed topology has higher efficiency due to soft switching of active device. Experimental results prove that the converter operates with a maximum efficiency of 95% and provides good load regulation.Key words: Automotive applications, DC-DC converters, Power electronics, Soft switching DC-DC pretvarač zasnovan na tehnologiji laganog prebacivanja za primjene u auto industriji. DC-DC pretvarači zasnovani na tehnologijićelija naponskog množila predloženi su u ovomečlanku. Predloženi pretvarači pružaju zahtjevanu visoku voltažu be uporabe transformatora. Slijedom toga, dobivamo kompaktni pretvarač s visokom gustoćom energije. Predložena topologija ima veću efikasnost zahvaljujući laganon predacivanju aktivnih komponenti. Eksperimentalni rezultati pokazuju da pretvarač radi sa maksimalno 95% korisnosti ujedno pružajući i dobru regulaciju tereta.Ključne riječi: primjenene u automobilizmu, DC-DC konverteri, učinska elektronika, lagano prebacivanje

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“…Nevertheless, the same problem in [16] remained. By adding a switched-capacitor in series with the transformer, a new high boost ratio DC-DC converter with coupledinductor and switched capacitor was introduced [19]. With the switched-capacitor between the primary side and the secondary side of the coupled-inductor, the boost ratio increased and the output diode voltage stress was reduced.…”

Section: Introductionmentioning

confidence: 99%

Single-Ended High-Efficiency Step-up Converter Using the Isolated Switched-Capacitor Cell

Kim¹,

Jang²,

Park³

et al. 2013

Journal of Power Electronics

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The depletion of natural resources and renewable energy sources, such as photovoltaic (PV) energy, has been highlighted for global energy solution. The PV power control unit in the PV power-generation technology requires a high step-up DC-DC converter. The conventional step-up DC-DC converter has low efficiency and limited step-up ratio. To overcome these problems, a novel high step-up DC-DC converter using an isolated switched capacitor cell is proposed. The step-up converter uses the proposed transformer and employs the switched-capacitor cell to enable integration with the boost inductor. The output of the boost converter and isolated switched-capacitor cell are connected in series to obtain high step-up with low turn-on ratio. A hardware prototype with 30 V to 40 V input voltage and 340 V output voltage is implemented to verify the performance of the proposed converter. As an extended version, another novel high step-up isolated switched-capacitor single-ended DC-DC converter integrated with a tapped-inductor (TI) boost converter is proposed. The TI boost converter and isolated-switchedcapacitor outputs are connected in series to achieve high step-up. All magnetic components are integrated in a single magnetic core to lower costs. A prototype hardware with 20 V to 40 V input voltage, 340 V output voltage, and 100 W output power is implemented to verify the performance of the proposed converter.

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High Step-Up Converter With Coupled-Inductor

Cited by 536 publications

References 23 publications

Bidirectional boost/buck quadratic converter for distributed generation systems with electrochemical storage systems

Bidirectional boost/buck quadratic converter for distributed generation systems with electrochemical storage systems

Soft Switched Voltage Multiplier Cell based DC-DC Converter for Automotive Applications

Single-Ended High-Efficiency Step-up Converter Using the Isolated Switched-Capacitor Cell

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