Abstract
Switched coupled inductor boost converter (SCIBC) for renewable energy systems is outlined in this paper. The proposed converter will be obtained from a combination of traditional step-up converter and coupling inductor stacks. The proposed converter’s gain is determined by the number of couple inductors within the stack and duty cycle. The proposed converter refers to a single regulated power electronics switch. The frequency of 10 MHz is applied to lower the L, C values and to eliminate the ripples of the output signal (Vout and Iout). Proposed converter design and function are explored in depth. The proposed converter for single couple inductor stack is simulated in MATLAB (version 2015b), and the outcomes are checked using theoretical values and reliability of the BLDC motor drive at constant speed with closed-loop flyback converter.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Fedak V, Siano P, Ramachandaramurthy VK (2007) Switched Inductor Boost Convertor for Renewable Energy Application. IEEE Tran Power Electron 1(17):324–332
Vipin D, Sanjeevikumar P, Karthikeyan V, Rajasekar S, Blaabjerg F, Pierluigi S (2017) Recent advances and challenges of fuel cell based power system architectures and control—a review. Renewable Sustainable Energy Rev 73:10–18
Hu Y, Cao W, Ji B, Si J, Chen X (2015) New multi-stage DC–DC converters for grid-connected photovoltaic systems. Renewable Energy 74:247–254
Padmanaban S, Blaabjerg F, Wheeler P, Ojo JO, Ertas AH (2017) High-voltage dc-dc converter topology for pv energy utilization—Investigation and implementation. Electric Power Compon Syst 45(3):221–232
Li W, He X (2011) Review of non-isolated high-step-up DC/DC converters in photovoltaic grid-connected applications. IEEE Trans Industr Electron 58(4):1239–1250. https://doi.org/10.1109/TIE.2010.2049715,April
Moradpour R, Ardi H, Tavakoli A (2017) Design and implementation of a new SEPIC-based high step-up DC/DC converter for renewable energy applications. IEEE Trans Industrial Electron 65(2):1290–1297. https://doi.org/10.1109/TIE.2017.2733421
Bhaskar MS, Kulkarni RM, Padmanaban S, Siano P, Blaabjerg F (2016) Hybrid non-isolated and non-inverting Nx interleaved DC-DC multilevel boost converter for renewable energy applications. In: 2016 IEEE 16th international conference on environment and electrical engineering (EEEIC). Florence, pp 1–6. https://doi.org/10.1109/EEEIC.2016.7555827
Bhaskar MS, Sanjeevikumar P, Blaabjerg F, Fedák V, Cernat M, Kulkarni RM (2016) Non isolated and non-inverting Cockcroft-Walton multiplier based hybrid 2Nx interleaved boost converterfor renewable energy applications. In: 2016 IEEE international power electronics and motion control conference (PEMC). Varna, pp 146–151. https://doi.org/10.1109/EPEPEMC.2016.7751989
Bhaskar MS, Padmanaban S, Blaabjerg F, Norum LE, Ertas AH (2016) 4Nx non-isolated and non-inverting hybrid interleaved multilevel boost converter based on VLSIm cell and cockcroft walton voltage multiplier for renewable energy applications. In: 2016 IEEE international conference on power electronics, drives and energy systems (PEDES). Trivandrum, pp1–6. https://doi.org/10.1109/PEDES.2016.7914529
Bhaskar MS, Padmanaban S, Kulkarni R, Blaabjerg F, Seshagiri S, Hajizadeh A (2016). Novel LY converter topologies for high gain transfer ratio-a new breed of XY family. In: 4th IET clean energy and technology conferenace, (CEAT 2016). Malaysia, pp 4(8)
Mahajan SB, Padmanaban S, Blaabjerg F (2017) A multistage DC-DC step-up self-balanced and magnetic component-free converter for photovoltaic applications: hardware implementation. Energies J MDPI Publicat Switzerlan10(5):719
Forouzesh M, Siwakoti YP, Gorji SA, Blaabjerg F, Lehman B (2017) Step-Up DC-DC converters: a comprehensive review of voltage- boosting techniques, topologies, and applications. IEEE Trans Power Electron 32(12):9143–9178. https://doi.org/10.1109/TPEL.2017.2652318,Dec
Rosas-Caro JC, Mayo-Maldonado JC, Cabrera RS, Rodriguez AG, Nacu SCE, Castillo-Ibarra R (2011) A Family of DC-DC multiplier converters, Avanc line publication. Eng Lett
Maroti PK, Ranjana MSB Prabhakar DK (2014) A novel high gain switched inductor multilevel buck-boost DC-DC converter for solar applications. In: 2014 IEEE 2nd international conference on electrical energy systems (ICEES). Chennai, pp 152–156. https://doi.org/10.1109/ICEES.2014.6924159
Mousa M, Ahmed M, Orabi M (2010) A switched inductor multilevel boost converter. In: 2010 IEEE international conference on power and energy. Kuala Lumpur, pp 819–823. https://doi.org/10.1109/PECON.2010.5697692
Balakrishnan S, Sreethumol MV (2014) An interleaved soft wwitched two inductor boost converter with improved load regulation. In: 2014 international conference on computation of power, energy, information and communication (ICCPEIC). IEEE, pp 164–167
Parsa L (2007) A novel high efficiency high power interleaved coupled-inductor boost DC converter for hybrid and fuel eell electric vehicle. In: 2007 IEEE vehicle power and propulsion conference
Sun J (2006) Dynamics characterization of coupled-inductor boost DC-DC converters. In: 2006 IEEE workshops on computers in power electronics
Wang J, Dunford WG, Mauch K (1997) Analysis of a ripple-free input-current boost converter with discontinuous conduction characteristics. In: IEEE transactions on power electronics
Axelrod B, Beck Y, Berkovich Y (2015) High step-up DC–DC converter based on the switched-coupled-inductor boost converter and diode-capacitor multiplier: steady state and dynamics. IET Power Electron 8(8):1420–1428
Nakamura Y, Yamamoto M (2011) Optimal control design method for trans-linked type multi-phase boost converter. In: 2011 IEEE ninth international conference on power electronics and drive systems
Suraj S, Soman S, Jijesh JJ (2016) Implementation of interleaved dual boost converter utilizing FPGA for PWM. In: 2016 IEEE international conference on recent trends in electronics, information & communication technology (RTEICT)
Chai Y, Li X (2017) A novel boost conversion with high voltage ratio. In: MATEC web of conferences
Gupta V, Anjana P, Narayan PP, Keshri JP, Tiwari HP (2013) A review on active power filter. In: Proceeding of international conference on advance trends in engineering & technology (ICATET-2013), pp 214–223
Keshri JP, Tiwari H (2017) Parameter-less fault locator using synchronized/un-synchronized data for overhead transmission line. In: 2017 international conference on computer, communications and electronics (comptelix), pp 260–264. https://doi.org/10.1109/COMPTELIX.2017.8003975
Keshri JP, Tiwari HP (2017) Fault location in overhead transmission line without using line parameter. In: 4th international conference on engineering and technology (ICSET), pp 11–15
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2022 The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
About this paper
Cite this paper
Pankaj, Keshri, J.P., Tiwari, H., Sadda, A. (2022). High Gain Converter with Switched Coupled Inductors for Renewable Energy Systems. In: Bansal, R.C., Agarwal, A., Jadoun, V.K. (eds) Advances in Energy Technology. Lecture Notes in Electrical Engineering, vol 766. Springer, Singapore. https://doi.org/10.1007/978-981-16-1476-7_30
Download citation
DOI: https://doi.org/10.1007/978-981-16-1476-7_30
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-16-1475-0
Online ISBN: 978-981-16-1476-7
eBook Packages: EngineeringEngineering (R0)