Abstract
In this paper, a single-phase switched boost inverter is proposed. Dividing converted sources is a very popular technique in recent years, as well as the demand for high output voltage quality by the use of a small number of switches. The analysis and simulation study revealed that this inverter has a good potential in terms of conversion quality (high voltage gain, low total harmonic distortion (THD), low cost, simple structure, and easy to control) and can be used in photovoltaic applications as well as in embedded systems. Experimental results verify the functioning principle of the presented topology but this new topology needs more improvements to reach exactly the simulation results.
Issue Section:
Research Papers
Topics:
Circuits,
Cycles,
Simulation results,
Topology,
Stress,
Switches,
Simulation,
Design,
Signals
References
1.
Raveendhra
, D.
, and Pathak
, M. K.
, 2019
, “Recent Trends in Solar PV Inverter Topologies
,” Sol. Energy
, 183
, pp. 57
–73
. 10.1016/j.solener.2019.02.0652.
Mellit
, A.
, Pavan
, A.
, and Lughi
, V.
, 2014
, “Short-Term Forecasting of Power Production in a Large-Scale Photovoltaic Plant
,” Sol. Energy
, 105
, pp. 401
–413
. 10.1016/j.solener.2014.03.0183.
Zhang
, N.
, Sutanto
, D.
, and Muttaqi
, K. M.
, 2016
, “Design and Control of a Boost Inverter Based Multi-Input Converter
,” IEEE International Conference on Smart Grid Communications (SmartGridComm)
, Sydney
, NSW
, pp. 588
–593
.4.
Sreekanth
, T.
, Lakshminarasamma
, N.
, and Mishra
, K. A.
, 2016
, “Single Stage Grid Connected High Gain Buck-Boost Inverter with Maximum Power Point Tracking
,” IEEE Transactions on Energy Conversion.
, 32
(1
), pp. 330
–339
. 10.1109/TEC.2016.26333655.
Patel
, H.
, and Agarwal
, V.
, 2009
, “A Single-Stage Single-Phase Transformer- Less Doubly Grounded Grid-Connected PV Interface
,” IEEE Trans. Energy Conv.
, 24
(1
), pp. 93
–101
. 10.1109/TEC.2008.20065516.
Piri
, M.
, Niroomand
, M.
, and Hooshmand
, R.
, 2017
, “A Comprehensive Modeling of Grid-Connected Photovoltaic Systems Using Multiphase Converter Based on Reliability Concepts
,” ASME J. Sol. Energy Eng
, 139
(5
), p. 054502
. 10.1115/1.40373777.
Siddique
, M. D.
, Mekhilef
, S.
, Shah
, N. M.
, and Kumar
, C.
, 2019
, “A New Single-Phase Single Source Nine Level Boost Inverter Topology
,” IECON 2019—45th Annual Conference of the IEEE Industrial Electronics Society
, Lisbon, Portugal
, pp. 1521
–1525
.8.
Khan
, A. A.
, Eberle
, W.
, Wang
, L.
, Akber
, F.
, Ali Khan
, U.
, Lu
, Y. W.
, and Agamy
, M.
, 2020
, “Coupled-Inductor Buck-Boost Inverter with Reduced Current Ripple
,” IEEE Transactions on Power Electronics
, 35
(8
), pp. 7933
–7946
. 10.1109/TPEL.2019.29626689.
Al-Shetwi
, A. Q.
, and Sujod
, M. Z.
, 2017
, “B Modeling and Control of Grid-Connected Photovoltaic Power Plant With Fault Ride-Through Capability
,” ASME. J. Sol. Energy Eng.
, 140
(2
), p. 021001
. 10.1115/1.403859110.
Albert Alexander
, S.
, and Thathan
, M.
, 2014
, “Reduction of Voltage Harmonics in Solar Photovoltaic fed Inverter of Single Phase Stand Alone Power System
,” ASME. J. Sol. Energy Eng.
, 136
(4
), p. 044501
. 10.1115/1.402726711.
Amari
, Y.
, Hasni
, M.
, and Menaa
, M.
, 2018
, “Comparison Between Existing Transformer-Less PV Inverter Topologies
,” 2018 International Conference on Electrical Sciences and Technologies in Maghreb (CISTEM)
, Algiers
, 3
, pp. 1
–6
.12.
Prasad
, B.
, Jain
, S.
, and Agarwal
, V.
, 2008
, “Universal Single-Stage Grid- Connected Inverter
,” IEEE Trans. Energy Conv.
, 23
(1
), pp. 128
–137
. 10.1109/TEC.2007.90506613.
Sreekanth
, T.
, Narasamma
, N. L.
, and Mahesh
, K. M.
, 2014
, “A Single Stage Coupled Inductor Based High Gain DC-AC Buck-Boost Inverter for Photovoltaic (PV) Applications
,” IEEE 42nd Photovoltaic Specialist Conference (PVSC)
, New Orleans, LA
, 2015
, pp. 1
–5
.14.
Alishah
, R. S.
, Barzegar
, M.
, and Nazarpour
, D.
, 2014
, “A new Cascade Boost Inverter for Photovoltaic Applications with Minimum Number of Elements
,” Inter. Trans. Electrical Energy Systems
, 25
(7
), pp. 1241
–1256
. 10.1002/etep.190015.
Chien-Ming
, W.
, 2005
, “A Novel Single-Stage Series-Resonant Buck–Boost Inverter
,” IEEE Trans. Ind. Electron.
, 52
(4
), pp. 1099
–1108
. 10.1109/TIE.2005.85164216.
Zhao
, B.
, and Abramovitz
, A.
, 2016
, “Single Stage High Gain Charge Pump Assisted Micro-Inverter
,” Sol. Energy
, 139
, pp. 81
–84
. 10.1016/j.solener.2016.09.02017.
Saha
, S.
, and Sundarsingh
, V. P.
, 1996
, “Novel Grid-Connected Photovoltaic Inverter
,” Proc. Inst. Elect. Eng.
, 143
, pp. 219
–224
. 10.1049/ip-gtd:1996005418.
Lalili
, L.
, Mellit
, A.
, Lourci
, N.
, Medjahed
, B.
, and Boubakir
, C.
, 2013
, “State Feedback Control and Variable Step Size MPPT Algorithm of Three-Level Grid-Connected Photovoltaic Inverter
,” Sol. Energy
, 98
, pp. 561
–571
. 10.1016/j.solener.2013.10.02419.
Gerald
, C. R.
, Kaliamoorthy
, I. M.
, Rajasekaran
, V.
, and Sekar
, R. M.
, 2015
, “Single-Phase Cascaded Grid Connected Multilevel Inverter for Interfacing Renewable Energy Sources With Microgrid
,” ASME J. Sol. Energy Eng.
, 137
(5
), p. 051004
. 10.1115/1.403088620.
Bausière
R.
, Labrique
F.
, and Séguier
G.
, 1999
, “Les Convertisseurs De L’electronique de puissance
,” Chap.1, Volume 3, La conversion continu-continu. Tec & Doc Lavoisier, p. 26
.21.
Sridhar
, R.
, Jayasankar
, K. C.
, Dash
, S. S.
, and Avasthy
, V.
, 2013
, “A Single Stage Photovoltaic Inverter With Common Power Factor Control and Maximum Power Point Tracking Circuit
,” ASME J. Sol. Energy Eng.
, 136
(2
), p. 021020
. 10.1115/1.402551522.
Caceres
, R. O.
, García
, W. M.
, and Camacho
, O. E.
, 1998
, “A Buck-Boost DC-AC Converter: Operation, Analysis, and Control
,” 6th IEEE Power Electronics Congress. Technical Proceedings. CIEP 98
, pp. 126
–131
.23.
Rajendran
, S.
, and Senthil
, K.
, 2013
, “A Single Phase AC Grid Tied Solar Power Generation Using Boost DC–AC Inverter With Modified Non-Linear State Variable Structure Control
,” Aust. J. Basic Appl. Sci.
, 3
, pp. 140
–148
.24.
Lin
, W.
, Zeng
, J.
, Hu
, J.
, and Junfeng
, L.
, 2020
, “Hybrid Nine-Level Boost Inverter with Simplified Control and Reduced Active Devices
,” IEEE J. Emerging Selected Topics Power Electronics.
25.
Nguyen
, M.
, Duong
, T.
, Lim
, Y.
, Choi
, J.
, Vilathgamuwa
, D. M.
, and Walker
, G. R.
, 2020
, “DC-Link Quasi-Switched Boost Inverter with Improved PWM Strategy and Its Comparative Evaluation
,” IEEE Access
, 8
, pp. 53857
–53867
. 10.1109/ACCESS.2020.298112626.
Nandi
, P.
, and Adda
, R.
, 2020
, “Integration of Boost-Type Active Power Decoupling Topology With Single-Phase Switched Boost Inverter
,” IEEE Transactions on Power Electronics
, 35
(11
), pp. 11965
–11975
. 10.1109/TPEL.2020.298840227.
Sandhu
, M.
, and Thakur
, T.
, 2019
, “Reduction of Harmonics In a Hybrid PV/Wind Microgrid Using a Modified Multilevel Inverter
,” IEEE Electrical Power and Energy Conference (EPEC)
, Montreal, QC, Canada
, pp. 1
–6
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