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Journal articles on the topic 'Interleaved boost PFC'

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Published: 4 June 2021
Last updated: 14 February 2022

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1

Nourani Esfetanaj, Naser, Huai Wang, Frede Blaabjerg, and Pooya Davari. "Differential Mode Noise Estimation and Filter Design for Interleaved Boost Power Factor Correction Converters." Applied Sciences 11, no. 6 (2021): 2716. http://dx.doi.org/10.3390/app11062716.

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Interleaved power factor correction (PFC) is widely used circuit topology due to good efficiency and power density for single-switch boost PFC. As the differential mode (DM) electromagnetic interference (EMI) noise magnitude depends upon the input current ripple, this research details a comprehensive study of DM EMI filter design for interleaved boost PFC with the aim of minimizing the component size. It is also demonstrated that the different numbers of interleaved stages and switching frequency influence the filter attenuation requirement and, thus, the EMI filter size. First, an analytical model is derived on the basis of the Norton equivalent circuit model for the differential mode noises of interleaved boost PFC within the frequency range of 9–500 kHz. The derived model can help identify the proper phase shifting among the interleaved boost converters in order to minimize the considered differential mode noises at the filter design frequency. So, a novel phase-shift method is developed to get a minimized attenuation required by a filter in Band B. Further, a volume optimization of the required DM filter was introduced based on the calculated filter attenuation and volumetric component parameters. Based on the obtained results, unconventional and conventional phase shifts have demonstrated a good performance in decreasing the EMI filter volume in Band B and Band A, respectively. A 2-kW interleaved PFC case study is presented to verify the theoretical analyses and the impact of phase-shifting on EMI filter size.
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2

Turksoy, Omer, Unal Yilmaz, and Ahmet Teke. "Minimizing Capacitance Value of Interleaved Power Factor Corrected Boost Converter for Battery Charger in Electric Vehicles." Elektronika ir Elektrotechnika 25, no. 5 (2019): 11–17. http://dx.doi.org/10.5755/j01.eie.25.5.24349.

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A dynamic voltage compensator (DVC) technique is presented for the minimizing of the capacitance value of the interleaved power factor corrected (PFC) boost converter for the battery charger in electric vehicles. This technique is based on eliminating the ripple on the capacitor by creating a voltage in the opposite direction as well as the amount of ripple on the capacitor. With the proposed method, the capacitance value is reduced by approximately five times. Reducing the size of the capacitor also provides the use of film-capacitors with a longer life. The other contribution of this study is designing a faster and more stable fully-digital control system, instead of the commonly used analogue controller of interleaved PFC boost converter. A 3.3 kW interleaved PFC boost converter is designed to verify the effect of the designed dynamic voltage compensator and digital controller.
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3

Ramesh, V., and Y. Kusuma Latha. "A Soft Switching Control Strategy Based on Interleaved Boost Converter for BLDC Motor Drive." International Journal of Power Electronics and Drive Systems (IJPEDS) 6, no. 3 (2015): 516. http://dx.doi.org/10.11591/ijpeds.v6.i3.pp516-523.

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In this paper, Zero-Voltage-Transition (ZVT) two-cell interleaved boost Power Factor Correction (PFC) converter for voltage source Inverter (VSI) fed permanent magnet brushless DC motor (PMBLDCM) drive has been proposed Scheme reduce the torque ripple of BLDC motor drive and also reduce the switching losses of VSI for Which an auxiliary circuit is designed and added to the interleaved boost converter. For achieving soft switching, only one switch is used in auxiliary circuit which reduces the torque ripple and switching losses. In this proposed control strategy, the DC link voltage is controlled with interleaved boost converter which is proportional to the desired speed of the BLDC motor. In this paper, six switch and four switch VSI is also implemented with interleaved boost converter topology. A comparison is made between the six switch and Four Switch VSI fed PMBLDC Motor drive and Torque Analysis as been done. To validate the proposed work, results are presented. The results showed that proposed converter control strategy operating under soft switching mode improves the efficiency of the drive system with PFC feature in wide range of the speed control.
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4

Ramesh, V., and Y. Kusuma Latha. "Comparison between an Interleaved Boost Converter and CUK Converter Fed BLDC Motor." International Journal of Power Electronics and Drive Systems (IJPEDS) 6, no. 3 (2015): 594. http://dx.doi.org/10.11591/ijpeds.v6.i3.pp594-602.

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There is a great concern of torque ripple and power quality of three phase voltage source converter fed Permanent Magnet Brushless DC Motor (PMBLDCM). In this paper, two control strategies for BLDC motor drive has been investigated. One of the control strategies is based on PFC - CUK converter fed PMBLDCM drive and another one is PFC- interleaved boost converter fed BLDC motor drive. Comparison has been made between the two control stragies in terms of Torque ripple, Total harmonic distortion (THD) and power factor for different operating speeds. The proposed work as been implemented under MATLAB/simulink environment. Simulation results are presented to validate proposed work. From the results, it is observed that PFC interleaved Boost converter fed BLDC motor drive is more effective compared to CUK converter fed BLDC motor drive.
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5

Cheng, Chang, Cheng, Chang, Chung, and Chang. "A Single-Stage LED Streetlight Driver with Soft-Switching and Interleaved PFC Features." Electronics 8, no. 8 (2019): 911. http://dx.doi.org/10.3390/electronics8080911.

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This paper presents a single-stage driver with soft-switching and interleaved power-factor correction (PFC) features suitable for light-emitting diode (LED) energy-saving streetlight applications. The proposed LED streetlight driver integrates an interleaved buck-boost PFC converter with coupled inductors and a half-bridge LLC resonant converter into a single-stage power-conversion circuit with reduced voltage stress on the DC-linked capacitor and power switches, and it is suitable for operating at high utility-line voltages. Furthermore, coupled inductors in the interleaved buck-boost PFC converter are operated in discontinuous-conduction mode (DCM) for accomplishing PFC, and the half-bridge LLC resonant converter features zero-voltage switching (ZVS) to reduce switching losses of power switches, and zero-current switching (ZCS) to decrease conduction losses of power diodes. Operational modes and design considerations for the proposed LED streetlight driver are introduced. Finally, a 144 W (36V/4A)-rated LED prototype driver is successfully developed and implemented for supplying a streetlight module and operating with a utility-line input voltage of 220 V. High power factor, low output-voltage ripple factor, low output-current ripple factor, and high efficiency are achieved in the proposed LED streetlight driver.
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6

Kanimozhi, G., and V. T. Sreedevi. "Semibridgeless Interleaved PFC Boost Rectifier for PHEV Battery Chargers." IETE Journal of Research 65, no. 1 (2018): 128–38. http://dx.doi.org/10.1080/03772063.2017.1407268.

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7

Nussbaumer, T., K. Raggl, and J. W. Kolar. "Design Guidelines for Interleaved Single-Phase Boost PFC Circuits." IEEE Transactions on Industrial Electronics 56, no. 7 (2009): 2559–73. http://dx.doi.org/10.1109/tie.2009.2020073.

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8

da S. Postiglione, Cícero, André L. Fuerback, Claudinor Bitencourt Nascimento, Denizar Cruz Martins, and Arnaldo José Perin. "Ac–dc Serial-interleaved Boost Converter Applied In A Single-stage Pfc." Eletrônica de Potência 18, no. 4 (2013): 1170–79. http://dx.doi.org/10.18618/rep.2013.4.11701179.

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9

Latha, R., and J. Kanakaraj. "Design of Interleaved Three-Phase Single Switch Boost PFC Converter." Asian Journal of Research in Social Sciences and Humanities 6, no. 10 (2016): 647. http://dx.doi.org/10.5958/2249-7315.2016.01041.8.

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10

Cimini, Gionata, Maria Letizia Corradini, Gianluca Ippoliti, Giuseppe Orlando, and Matteo Pirro. "Passivity-Based PFC for Interleaved Boost Converter of PMSM drives." IFAC Proceedings Volumes 46, no. 11 (2013): 128–33. http://dx.doi.org/10.3182/20130703-3-fr-4038.00128.

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11

Kim, Jung-Hoon, and Tae-Hyun Jeon. "Analysis of Current Ripple for Two-Phase Interleaved Boost PFC." Transactions of the Korean Institute of Electrical Engineers 61, no. 3 (2012): 122–28. http://dx.doi.org/10.5370/kieep.2012.61.3.122.

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12

Yang, Fei, Xinbo Ruan, Yang Yang, and Zhihong Ye. "Interleaved Critical Current Mode Boost PFC Converter With Coupled Inductor." IEEE Transactions on Power Electronics 26, no. 9 (2011): 2404–13. http://dx.doi.org/10.1109/tpel.2011.2106165.

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13

Baek, Jaeil, Moo-Hyun Park, Taewoo Kim, and Han-Shin Youn. "Modified Power Factor Correction (PFC) Control and Printed Circuit Board (PCB) Design for High-Efficiency and High-Power Density On-Board Charger." Energies 14, no. 3 (2021): 605. http://dx.doi.org/10.3390/en14030605.

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This paper presents a modified power factor correction (PFC) ON/OFF control and three-dimensional (3D) printed circuit board (PCB) design for a high-efficiency and high-power density onboard charger (OBC). By alternately operating one of two boost modules of the PFC stage at a 50% or less load condition, the proposed PFC control can reduce the load-independent power loss of the PFC stage, such as core loss and capacitor charging loss of switches. It enables OBCs to have high efficiency across a wide output power range and better thermal performance. The 3D-PCB design decouples a trade-off relationship of the PCB trace design and heat spreader design, increasing the power density of OBCs. A 3.3 kW prototype composed of an interleaved totem-pole bridgeless boost PFC converter and full-bridge (FB) LLC converter has been built and tested to verify the proposed PFC control and 3D-PCB effectiveness design. The prototype has 95.7% full power efficiency (98.2% PFC stage efficiency) and 52 W/in3 power density.
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14

Ramesh, V., and Y. Kusuma Latha. "An Interleaved Boost Converter Based PFC Control Strategy for BLDC motor." International Journal of Electrical and Computer Engineering (IJECE) 5, no. 5 (2015): 957. http://dx.doi.org/10.11591/ijece.v5i5.pp957-966.

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<p>In this paper, interleaved power factor correction (PFC) boost converter based control strategy for BLDC motor has been Proposed. The converter exhibits the characteristics of voltage doublers for duty greater than 0.5. The switching losses and losses during reverse recovery operation are considerably reduced in this proposed topology. This is due reduction in switching voltages due to voltage doubler mode. The proposed topology has high efficiency compared to conventional counterpart due to slight increase in conduction losses. In this paper, the proposed PFC control Strategy has been applied to a six switch and four switch VSI fed BLDC Motor drive for effective torque ripple minimization. A comparison is also made between the six switch and Four Switch VSI fed PMBLDC Motor drive.</p><br />
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15

Kommers Jappe, Tiago, Ramiro R. Polla, André L. Fuerback, Marcelo Lobo Heldwein, Thiago Batista Soeiro, and Roberto Andrich. "An Fpga-based Single-phase Interleaved Boost-type Pfc Rectifier Employing Gan Hemt Devices." Eletrônica de Potência 19, no. 4 (2014): 414–22. http://dx.doi.org/10.18618/rep.2014.4.414422.

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16

Shipra, Kumari, Rakesh Maurya, and Shambhu N. Sharma. "Port-controlled Hamiltonian-based controller for an interleaved boost PFC converter." IET Power Electronics 13, no. 16 (2020): 3627–36. http://dx.doi.org/10.1049/iet-pel.2020.0307.

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17

Barbosa, Lúcio dos Reis. "A Zero-Voltage-Transition Interleaved Boost Converter and Its Application to PFC." Advances in Power Electronics 2011 (December 4, 2011): 1–10. http://dx.doi.org/10.1155/2011/925618.

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An efficient power factor correction converter is presented. Two boost-topology switching cells are interleaved to minimize EMI while operating at lower switching frequency and soft switching to minimize losses. The result is a system with high conversion efficiency, able to operate in a pulse-width-modulation (PWM) way. Seven transition states of the ZVT converter in one switching period are described. In order to illustrate the operational principle key, implementation details, including simulations, are described. The validity of this converter is guaranteed by the obtained results.
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18

Okilly, Ahmed H., and Jeihoon Baek. "Optimal Design Analysis with Simulation and Experimental Performance Investigation of High-Power Density Telecom PFC Converters." Applied Sciences 11, no. 17 (2021): 7911. http://dx.doi.org/10.3390/app11177911.

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The spread of the 5G technology in the telecom power applications increased the need to supply high power density with higher efficiency and higher power factor. Thus, in this paper, the performance of the different power factor correction ( PFC ) topologies implemented to work with high power density telecom power applications are investigated. Two topologies, namely the conventional and the bridge interleaved continues-current-conduction mode (CCM) PFC boost converters are designed. Selection methodology of the switching elements, the manufacturing of the boost inductors, and the optimal design for the voltage and current control circuits based on the proposed small signal stability modeling are presented. The printed circuit board (PCB) for the two different PFC topologies with a power rating of 2 kW were designed. PSIM simulation and the experiments are used to show the supply current total harmonic distortions (THD), voltage ripples, power efficiency, and the power factor for the different topologies with different loading conditions.
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19

Bastari, Winarno Fadjar, and John Geral Mesah. "DESIGN AND DEVELOPMENT OF INTERLEAVED BOOST CONVERTER AS A POWER QUALITY IMPROVEMENT IN ONE PHASE ROTARY WITH INDUCTIVE AND RESISTIVE LOADS." BEST : Journal of Applied Electrical, Science, & Technology 1, no. 1 (2019): 28–31. http://dx.doi.org/10.36456/best.vol1.no1.2021.

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The unidirectional voltage source is obtained through an uncontrolled 220 Volt single phase full wave rectifier circuit. Installation of large amount capacitors as a filter affect input waveform. Due to the harmonics distort sinusoidal input voltage from the PLN grid. The difference in voltage waveforms and input currents that occur can affect the value of the resulting factor. Based on this problem, a study was made on theimprovement of power factors using a series of Interleaved Boost Converter which functioned as a series of Power Factor Correction (PFC) and voltage regulators with a setting method using Fuzzy logic. This Interleaved Boost Converter circuit is made to work in the condition of the Discontinues Conduction Mode (DCM) so that any load that is supplied to the circuit will make the system resistive. So, it is expected that thevoltage and input current waveforms will produce a factor value close to the unity value. The results of this study are the Interleaved Boost Converter series that can be used as a Power Factor Correction circuit and also as a voltage regulator. It improves power factor from 0.9 to 0.93.
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20

Bastari, Winarno Fadjar, and John Geral Mesah. "RANCANG BANGUN INTERLEAVED BOOST CONVERTER SEBAGAI PERBAIKAN KUALITAS DAYA PADA RANGKAIAN PENYEARAH SATU FASA DENGAN BEBAN INDUKTIF DAN RESISTIF." WAKTU: Jurnal Teknik UNIPA 17, no. 1 (2019): 72–76. http://dx.doi.org/10.36456/waktu.v17i01.1915.

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Sumber tegangan searah didapat melalui rangkaian penyearah gelombang penuh satu fasa tidak terkendali dari sumber tegangan jala – jala PLN sebesar 220 Volt. Pemasangan kapasitor sebagai filter dengan nilai atau jumlah yang cukup besar dapat menyebabkan bentuk gelombang arus masukan menjadi tidak sinusoidal (terdistorsi) akibat dari harmonisa yang muncul sedangkan tegangan masukan dari jala – jala PLN berbentuk sinusoidal. Perbedaan bentuk gelombang tegangan dan arus masukan yang terjadi ini dapat berpengaruh pada nilai faktor yang dihasilkan. Berdasarkan masalah ini dibuatlah suatu penelitian mengenai perbaikan faktor daya menggunakan rangkaian Interleaved Boost Converter yang difungsikan sebagai rangkaian Power Factor Correction (PFC) dan regulator tegangan dengan metode pengaturan menggunakan logika Fuzzy. Rangkaian Interleaved Boost Converter ini dibuat bekerja pada kondisi Discontinues Conduction Mode (DCM) agar apapun beban yang dicatu pada rangkaian akan membuat sistem bersifat resistif. Sehingga diharapkan bentuk gelombang tegangan dan arus masukan sama yang akan menghasilkan nilai faktor mendekati nilai unity. Hasil dari penelitian ini adalah rangkaian Interleaved Boost Converter yang sudah dapat difungsikan sebagai rangkaian Power Factor Correction dan juga sebagai regulator tegangan. Nilai Faktor daya yang dihasilkan adalah sebesar 0.93 dimana jika dibandingkan dengan nilai faktor daya dari Power Supply Swicthing 48V sebesar 0.90 sudah jauh lebih baik.
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Bastari, Winarno Fadjar, and John Geral Mesah. "RANCANG BANGUN INTERLEAVED BOOST CONVERTER SEBAGAI PERBAIKAN KUALITAS DAYA PADA RANGKAIAN PENYEARAH SATU FASA DENGAN BEBAN INDUKTIF DAN RESISTIF." WAKTU: Jurnal Teknik UNIPA 17, no. 1 (2019): 72–76. http://dx.doi.org/10.36456/waktu.v17i1.1915.

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Sumber tegangan searah didapat melalui rangkaian penyearah gelombang penuh satu fasa tidak terkendali dari sumber tegangan jala – jala PLN sebesar 220 Volt. Pemasangan kapasitor sebagai filter dengan nilai atau jumlah yang cukup besar dapat menyebabkan bentuk gelombang arus masukan menjadi tidak sinusoidal (terdistorsi) akibat dari harmonisa yang muncul sedangkan tegangan masukan dari jala – jala PLN berbentuk sinusoidal. Perbedaan bentuk gelombang tegangan dan arus masukan yang terjadi ini dapat berpengaruh pada nilai faktor yang dihasilkan. Berdasarkan masalah ini dibuatlah suatu penelitian mengenai perbaikan faktor daya menggunakan rangkaian Interleaved Boost Converter yang difungsikan sebagai rangkaian Power Factor Correction (PFC) dan regulator tegangan dengan metode pengaturan menggunakan logika Fuzzy. Rangkaian Interleaved Boost Converter ini dibuat bekerja pada kondisi Discontinues Conduction Mode (DCM) agar apapun beban yang dicatu pada rangkaian akan membuat sistem bersifat resistif. Sehingga diharapkan bentuk gelombang tegangan dan arus masukan sama yang akan menghasilkan nilai faktor mendekati nilai unity. Hasil dari penelitian ini adalah rangkaian Interleaved Boost Converter yang sudah dapat difungsikan sebagai rangkaian Power Factor Correction dan juga sebagai regulator tegangan. Nilai Faktor daya yang dihasilkan adalah sebesar 0.93 dimana jika dibandingkan dengan nilai faktor daya dari Power Supply Swicthing 48V sebesar 0.90 sudah jauh lebih baik.
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22

Rexy, A. Inba, and R. Seyezhai. "Investigation of Current Control Techniques of AC-DC Interleaved Boost PFC Converter." Circuits and Systems 07, no. 04 (2016): 307–26. http://dx.doi.org/10.4236/cs.2016.74027.

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23

Huber, L., B. T. Irving, and M. M. Jovanovic. "Open-Loop Control Methods for Interleaved DCM/CCM Boundary Boost PFC Converters." IEEE Transactions on Power Electronics 23, no. 4 (2008): 1649–57. http://dx.doi.org/10.1109/tpel.2008.924611.

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24

Jati, Mentari Putri, Era Purwanto, Bambang Sumantri, Sutedjo Sutedjo, and Dimas Okky Anggriawan. "DESAIN DAN IMPLEMENTASI INTERLEAVED BOOST CONVERTER UNTUK POWER FACTOR CORRECTION MENGGUNAKAN PENGENDALI LOGIKA FUZZY." JURNAL INTEGRASI 12, no. 1 (2020): 41–47. http://dx.doi.org/10.30871/ji.v12i1.1430.

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Beberapa tahun terakhir terjadi peningkatan kebutuhan sumber daya tegangan dc. Kebanyakan dari rangkaian elektronika daya pada sumber tegangan dc menggunakan full wave rectifier. Pemasangan nilai kapasitor yang cukup besar sebagai filter pada full wave rectifier dapat menyebabkan bentuk gelombang arus input menjadi tidak sinusoidal (terdistorsi). Perbedaan bentuk gelombang tegangan dan arus input berpengaruh pada besar kecilnya faktor daya. Interleaved Boost Converter (IBC) yang difungsikan sebagai Power Factor Correction (PFC) dengan menggunakan metode pengendali logika fuzzy diterapkan pada sistem untuk mencapai faktor daya mendekati unity. IBC bekerja pada discontinuous conduction mode (DCM). Saat rectifier menyuplai beban yang bersifat resistif maka arus input memiliki bentuk gelombang yang sefasa dengan gelombang tegangan input. Simulasi dan implementasi alat menggunakan beban yang bervariasi. Hasilnya IBC sebagai PFC dapat memperbaiki faktor daya dari 0.67 menjadi 0.93.
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25

La, Jae-Du. "Study of DCM Interleaved Boost PFC Converter without the Detection of the Inductor Current." Transactions of the Korean Institute of Electrical Engineers P 65, no. 4 (2016): 303–8. http://dx.doi.org/10.5370/kieep.2016.65.4.303.

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26

Yang, Fei, Chunhui Li, Yong Cao, and Kai Yao. "Two-Phase Interleaved Boost PFC Converter With Coupled Inductor Under Single-Phase Operation." IEEE Transactions on Power Electronics 35, no. 1 (2020): 169–84. http://dx.doi.org/10.1109/tpel.2019.2914532.

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27

Xiaojun Xu, Wei Liu, and A. Q. Huang. "Two-Phase Interleaved Critical Mode PFC Boost Converter With Closed Loop Interleaving Strategy." IEEE Transactions on Power Electronics 24, no. 12 (2009): 3003–13. http://dx.doi.org/10.1109/tpel.2009.2019824.

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28

Xu, Hengshan, Diyi Chen, Fei Xue, and Xutao Li. "Optimal Design Method of Interleaved Boost PFC for Improving Efficiency from Switching Frequency, Boost Inductor, and Output Voltage." IEEE Transactions on Power Electronics 34, no. 7 (2019): 6088–107. http://dx.doi.org/10.1109/tpel.2018.2872427.

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29

Cao, Guoen, and Hee-Jun Kim. "Improved Bridgeless Interleaved Boost PFC Rectifier with Optimized Magnetic Utilization and Reduced Sensing Noise." Journal of Power Electronics 14, no. 5 (2014): 815–26. http://dx.doi.org/10.6113/jpe.2014.14.5.815.

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30

Zhiliang Zhang, Chuangang Xu, and Yan-Fei Liu. "A Digital Adaptive Discontinuous Current Source Driver for High-Frequency Interleaved Boost PFC Converters." IEEE Transactions on Power Electronics 29, no. 3 (2014): 1298–310. http://dx.doi.org/10.1109/tpel.2013.2260175.

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31

Jang, Yungtaek, and Milan M. Jovanovic. "Interleaved Boost Converter With Intrinsic Voltage-Doubler Characteristic for Universal-Line PFC Front End." IEEE Transactions on Power Electronics 22, no. 4 (2007): 1394–401. http://dx.doi.org/10.1109/tpel.2007.900502.

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32

Musumeci, Salvatore, Radu Bojoi, Eric Armando, Stefano Borlo, and Fabio Mandrile. "Three-Legs Interleaved Boost Power Factor Corrector for High-Power LED Lighting Application." Energies 13, no. 7 (2020): 1728. http://dx.doi.org/10.3390/en13071728.

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In this article, a three-leg interleaved boost Power Factor Corrector (IBPFC) converter for energy-efficient LED lighting systems connected to the main grid was discussed. This IBPFC circuit presented features 60 kHz of commutation frequency and up to 3 kW of power rating. The controlled rectifier front-end boost PFC supplied a DC/DC converter to drive power LEDs suitable for street lighting or a lighting system for a stadium, etc. The IBPFC operated in continuous current mode (CCM). The ripple impact of the IBPFC converter was analyzed and a novel methodology of inductance design was presented. In the proposed design approach, the derivative calculation of the current ripple peak compared with the derivative of the input current was used to define a critical inductance value to ensure the CCM condition. Experimental validation was provided on a 3kW prototype.
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33

Jones, J. Stanly, S. Sutha, and R. Saravanan. "The Prototype Implementation of Interleaved Based PFC Rectification Light Emitting Diodes Systems for Low Power Applications." Advanced Science, Engineering and Medicine 12, no. 4 (2020): 499–505. http://dx.doi.org/10.1166/asem.2020.2549.

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This proposed topology presents the interleaved boost AC–DC rectification for power factor correction. This topology operating at CCM. It has low semiconductor components, low cost, less complexity and it has low ripple voltage. It's PF reach to high at AC side and also has high efficiency and reduced harmonics. This AC–DC rectifier controlled with a PID switching controller which is used to a utilized laptop and mobile charging applications. This topology verified by Matlab Simulink and bridgeless topology LED electronics prototype kit has tested and verified.
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34

Gangavarapu, Sivanagaraju, and Akshay Kumar Rathore. "Analysis and Design of Interleaved DCM Buck–Boost Derived Three-Phase PFC Converter for MEA." IEEE Transactions on Transportation Electrification 7, no. 3 (2021): 1954–63. http://dx.doi.org/10.1109/tte.2021.3056114.

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35

Liu, Yitao, Shan Yin, Xuewei Pan, Huaizhi Wang, Guibin Wang, and Jianchun Peng. "Effects of Nonlinearity in Input Filter on the Dynamic Behavior of an Interleaved Boost PFC Converter." Energies 10, no. 10 (2017): 1530. http://dx.doi.org/10.3390/en10101530.

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36

Park, Moo-Hyun, Jaeil Baek, Yeonho Jeong, and Gun-Woo Moon. "An Interleaved Totem-Pole Bridgeless Boost PFC Converter with Soft-Switching Capability Adopting Phase-Shifting Control." IEEE Transactions on Power Electronics 34, no. 11 (2019): 10610–18. http://dx.doi.org/10.1109/tpel.2019.2900342.

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37

Lee, Jun Hyok, Kwang-Soon Jung, Kyung-Jung Lee, et al. "Design and Implementation of a Control System for the Interleaved Boost PFC Converter in On-Board Battery Chargers." Transactions of The Korean Institute of Electrical Engineers 65, no. 5 (2016): 843–50. http://dx.doi.org/10.5370/kiee.2016.65.5.843.

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38

Lopes da Costa, Israel Divan, Carlos Renato Magalhães Duarte, and Diego Santos Gonçalves. "ANALISE DE UM RETIFICADOR MONOFÁSICO COM ALTO FATOR DE POTÊNCIA UTILIZANDO O CONVERSOR BOOST INTERLEAVED DE DUAS FASES FRENTE ÀS NORMATIVAS IEC61000-3-2 (2009) CLASSE D." Engevista 20, no. 4 (2018): 572. http://dx.doi.org/10.22409/engevista.v20i4.9558.

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Este artigo objetiva-se a avaliar de maneira prática, a aplicação do conversor boost intercalado no modo pre-regulador de fator de potência, como solução ao problema de distorção harmônica e empobrecimento do fator de potência que os retificadores convencionais associados a filtro capacitivo, interface inicial entre a rede elétrica monofásica ou trifásica e muitos dos sistemas eletrônicos de potência, inserem no sistema elétrico. O baixo fator de potência, baixa eficiência energética, inserção de distorção harmônica e interferência eletromagnética se tornaram hoje os principais distúrbios gerados de maneira indireta pelas cargas que compõe o sistema elétrico de potência. Retificação com alto fator de potência se torna neste contexto, uma obrigatoriedade frente às normativas IEC61000-3-2 e IEEE519. A preocupação com a qualidade da energia elétrica levará a uma nova topologia, que trata da retificação em alto fator de potência utilizando-se da estratégia do PFC Ativo aplicando o conversor boost, e como otimização de eficiência desta estrutura será demostrado posteriormente o conversor em arranjo intercalado – Interleaved PFC. Ao analisarmos de maneira prática os resultados obtidos, percebe-se o quão benéfico se torna para o sistema elétrico de potencia, trabalhar-se com correção ativa de fator de potencia integrada a sistemas front-end em equipamentos eletroeletrônicos. A densidade de potencia de um equipamento pode melhorar significativamente ao se intercalar múltiplos conversores no que se relaciona a minimização dos elementos passivos filtrantes de componentes EMI.
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39

Ku, Chung-Ping, Dan Chen, Chun-Shih Huang, and Chih-Yuan Liu. "A Novel SFVM-M$^{\bm 3}$ Control Scheme for Interleaved CCM/DCM Boundary-Mode Boost Converter in PFC Applications." IEEE Transactions on Power Electronics 26, no. 8 (2011): 2295–303. http://dx.doi.org/10.1109/tpel.2010.2096544.

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40

Chen, Hung-Chi, and Jhen-Yu Liao. "Modified Interleaved Current Sensorless Control for Three-Level Boost PFC Converter With Considering Voltage Imbalance and Zero-Crossing Current Distortion." IEEE Transactions on Industrial Electronics 62, no. 11 (2015): 6896–904. http://dx.doi.org/10.1109/tie.2015.2435695.

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41

Kong, Zhonghua, Zaifei Luo, Qingbo Hu, and Ligang Wu. "Studies Characteristics of Bridgeless Interleaved Boost PFC Circuit." DEStech Transactions on Computer Science and Engineering, icmsie (February 20, 2018). http://dx.doi.org/10.12783/dtcse/icmsie2017/18788.

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42

"Implementation of Interleaved Three Stage Boost Converter Fed Dc Drive With Zero-Voltage Transition." International Journal of Engineering and Advanced Technology 8, no. 6S2 (2019): 1–6. http://dx.doi.org/10.35940/ijeat.f1001.0886s219.

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This paper manages reenactment of Voltage Controlled PFC based interleaved support Converter sustained DC engine Drive in open circle . An epic delicate exchanging interleaved coupled-inductor support converter is proposed in this paper. Just a solitary dynamic delicate exchanging module is expected to all the while accomplish the delicate exchanging property of the two switches in the interleaved coupled-inductor support converter. The better productivity is accomplished with the less segments and cost. The two principle switches can accomplish the ZVT turn-on and littler current mood killer at the same time when the single dynamic delicate exchanging module is dynamic. The aftereffects of three phase ILBC are contrasted and those of two phase ILBC.. [1],[ 3],[5]
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Hua, Chih-Chiang, Ching-Chun Chuang, Hung-Chi Lee, Chih-Wei Chuang, and Chuan-Ming Niu. "Research on a Bridgeless Interleaved PFC Boost Converter with Voltage Doubler Feature." Journal of Robotics, Networking and Artificial Life, 2020. http://dx.doi.org/10.2991/jrnal.k.200512.002.

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44

Soares, Jefferson Wilhelm Meyer, and Alceu Andre Badin. "An Interleaved PFC Boost Converter with Soft Commutations and Voltage Follower Characteristics." IEEE Transactions on Industrial Electronics, 2021, 1. http://dx.doi.org/10.1109/tie.2021.3101020.

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45

Genc, N., and H. Uzmus. "Digital Control of Bridgeless Interleaved PFC Boost Converter Based on Predicted Input Current." IETE Journal of Research, October 29, 2019, 1–15. http://dx.doi.org/10.1080/03772063.2019.1682070.

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46

"Design, Analysis and Implementation of a Novel Soft-Switched Bridgeless Interleaved Boost PFC Converter." International Journal of Recent Technology and Engineering 8, no. 2 (2019): 3930–35. http://dx.doi.org/10.35940/ijrte.b2866.078219.

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In the modern era, the electronic equipments are widely used and it is required to maintain the supply current harmonics within the standards specified by IEC. Efforts are taken to get better power factor of these supplies using Bridgeless Interleaved Boost Converter (IBC) topology. The efficiency and the power factor of the bridgeless converter is improved in contrast to the conventional PFC as the bridged structure is eliminated. Main objective of the paper is to propose a novel Zero Voltage Switched Bridgeless IBC. This bridgeless configuration is investigated by analyzing the attributes such as output power, mark-space ratio, source voltage, input current with each other. With zero-voltage switching, the voltage regulator can engage in soft switching, which helps to minimize switching losses and electromagnetic interference. This paper also compares performance parameters such as power factor, efficiency, THD and ripple with and without ZVS in a bridgeless IBC circuit. The results show that there is a considerable ripple reduction and power factor improvement with increase in efficiency on incorporating soft switching. Replication of the projected circuit is executed in simulation and the outputs are verified using hardware implementation.
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