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Journal articles on the topic 'Single Stage Inverter'

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Published: 4 June 2021
Last updated: 1 February 2022

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1

Saradhi, B. pardha, D. KOTESWARA RAJU D.KOTESWARA RAJU, and PRAVEEN YARASANI. "Fuel Cell Fed Single-Stage Boost Inverter with Coupled Inductor." International Journal of Scientific Research 2, no. 10 (June 1, 2012): 1–5. http://dx.doi.org/10.15373/22778179/oct2013/54.

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2

Prasad, B. S., S. Jain, and V. Agarwal. "Universal Single-Stage Grid-Connected Inverter." IEEE Transactions on Energy Conversion 23, no. 1 (March 2008): 128–37. http://dx.doi.org/10.1109/tec.2007.905066.

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3

Ciobotaru, Mihai, Remus Teodorescu, and Frede Blaabjerg. "Control of Single-Stage Single-Phase PV Inverter." EPE Journal 16, no. 3 (September 2006): 20–26. http://dx.doi.org/10.1080/09398368.2006.11463624.

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4

Soo, J. A., N. A. Rahman, and J. H. Leong. "A Single-Stage Square Wave Buck-Boost Inverter." Applied Mechanics and Materials 793 (September 2015): 280–85. http://dx.doi.org/10.4028/www.scientific.net/amm.793.280.

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This paper proposed a novel single-stage square wave buck-boost inverter (SWBBI). The proposed inverter is designed by using dual buck-boost converters. The input DC voltage of the proposed inverter can be either stepped-down or stepped-up in square output voltage waveform depending on the duty-cycle applied for each buck-boost converter. This characteristic is not found in conventional voltage source inverter where the output voltage is always lower than the input DC voltage. The proposed inverter is analyzed by a series of simulations using MATLAB/Simulink as well as experiments by using different values of duty-cycle. A conclusion about the feasibility of the proposed inverter is given by comparing the simulation and experimental results.
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5

Mohammad Noor, Siti Zaliha, Ahmad Maliki Omar, and M. A. M. Radzi. "Single-Phase Single Stage String Inverter for Grid Connected Photovoltaic System." Applied Mechanics and Materials 785 (August 2015): 177–81. http://dx.doi.org/10.4028/www.scientific.net/amm.785.177.

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This paper presents the development of single-phase single stage string inverters for grid connected photovoltaic system. The inverter is designed to generate an AC current in phase with the grid voltage and to extract the maximum power from the PV array. The maximum power point tracking (MPPT) is achieved by adjusting the modulation index and phase angle of the inverter’s voltage accordingly using fuzzy logic control algorithm. The prototype system is tested using 2 series of STP170s-24/Ac PV modules. Insulated Gate Bipolar Transistors (IGBTs) are used as power switches while the Sinusoidal Pulse Width Modulation (SPWM) scheme is used as the switching technique to synthesize the output waveform. Simulation model was developed in MATLAB/Simulink environment to study and evaluate behavior of the proposed converter. The results of the prototype system show good agreement with the simulation model.
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6

Brintha, J. Jane Justin, S. Rama Reddy, and N. Subashini. "Improved Output Voltage in Micro Wind Power Generator Fed Z Source Inverter Based System." Advanced Materials Research 984-985 (July 2014): 764–73. http://dx.doi.org/10.4028/www.scientific.net/amr.984-985.764.

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The micro wind power generation system is used to generate the power at low cost. In this paper, generator fed SEPIC, Z source inverter based systems are presented. The unique feature of Z source inverter is shoot-through duty cycle control by which any desired output voltage even greater than input line voltage is possible. Both buck-boost capabilities in single stage conversion are possible. This is not possible in conventional inverters. Also conversion losses are reduced in Z-source inverter due to single stage conversion which increases the output voltage of the system. Keywords: micro-wind power generation system, Single-Ended Primary Inductor converter, Z source inverter.
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7

Ibrahim, Mohamed E., Arafa S. Mansour, and Amr M. Abd-Elhady. "A novel single-stage single-phase buck–boost inverter." Electrical Engineering 99, no. 1 (September 17, 2016): 345–56. http://dx.doi.org/10.1007/s00202-016-0431-0.

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8

Venugopal, R., D. Mohan, and S. Manikandan. "Single Stage High Frequency LC Resonant Inverter." International Journal of Computer Applications 67, no. 25 (April 18, 2013): 16–19. http://dx.doi.org/10.5120/11743-7313.

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9

Zhou, Yufei, and Wenxin Huang. "Single-Stage Boost Inverter With Coupled Inductor." IEEE Transactions on Power Electronics 27, no. 4 (April 2012): 1885–93. http://dx.doi.org/10.1109/tpel.2011.2165855.

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10

Hossameldin, Abdelsalam, Ibrahim, and Williams. "Enhanced Performance Modified Discontinuous PWM Technique for Three-Phase Z-Source Inverter." Energies 13, no. 3 (January 26, 2020): 578. http://dx.doi.org/10.3390/en13030578.

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Various industrial applications require a voltage conversion stage from DC to AC. Among them, commercial renewable energy systems (RES) need a voltage buck and/or boost stage for islanded/grid connected operation. Despite the excellent performance offered by conventional two-stage converter systems (dc–dc followed by dc–ac stages), the need for a single-stage conversion stage is attracting more interest for cost and size reduction reasons. Although voltage source inverters (VSIs) are voltage buck-only converters, single stage current source inverters (CSIs) can offer voltage boost features, although at the penalty of using a large DC-link inductor. Boost inverters are a good candidate with the demerit of complicated control strategies. The impedance source (Z-source) inverter is a high-performance competitor as it offers voltage buck/boost in addition to a reduced passive component size. Several pulse width modulation (PWM) techniques have been presented in the literature for three-phase Z-source inverters. Various common drawbacks are annotated, especially the non-linear behavior at low modulation indices and the famous trade-off between the operating range and the converter switches’ voltage stress. In this paper, a modified discontinuous PWM technique is proposed for a three-phase z-source inverter offering: (i) smooth voltage gain variation, (ii) a wide operating range, (iii) reduced voltage stress, and (iv) improved total harmonic distortion (THD). Simulation, in addition to experimental results at various operating conditions, validated the proposed PWM technique’s superior performance compared to the conventional PWM techniques.
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11

Salem, Osama M., Haitham Z. Azazi, Dina S. M. Osheba, and Azza E. Lashine. "A proposed single-stage single-phase full bridge boost inverter." International Journal of Electronics 107, no. 1 (July 3, 2019): 60–81. http://dx.doi.org/10.1080/00207217.2019.1636305.

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12

Kumar, Ashok, and Parthasarathi Sensarma. "A Four-Switch Single-Stage Single-Phase Buck–Boost Inverter." IEEE Transactions on Power Electronics 32, no. 7 (July 2017): 5282–92. http://dx.doi.org/10.1109/tpel.2016.2605150.

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13

Ho, Carl Ngai Man, and Ken King Man Siu. "Manitoba Inverter—Single-Phase Single-Stage Buck-Boost VSI Topology." IEEE Transactions on Power Electronics 34, no. 4 (April 2019): 3445–56. http://dx.doi.org/10.1109/tpel.2018.2855560.

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14

Han, Xiao Min, and Lin Zhao. "Research of Single-Phase Two-Stage Photovoltaic Grid-Connected Inverter." Advanced Materials Research 655-657 (January 2013): 1571–75. http://dx.doi.org/10.4028/www.scientific.net/amr.655-657.1571.

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In order to meet the needs of different occasions for the low power photovoltaic grid-connected inverter, designed a single phase 3KW two stage photovoltaic grid-connected inverter. DC - DC link used an improved ZVT- Boost circuit to achieve maximum power point tracking (MPPT) control of the panels, DC-AC link used frequency doubling unipolar SPWM control to ensure the full-bridge inverter circuit output current waveform distortion rate minimum, at the same time to achieve the highest efficiency.
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15

Choi, Yoon-Geol, Hyeon-Seok Lee, Bongkoo Kang, Su-Chang Lee, and Sang-Jin Yoon. "Compact Single-Stage Micro-Inverter with Advanced Control Schemes for Photovoltaic Systems." Energies 12, no. 7 (March 31, 2019): 1234. http://dx.doi.org/10.3390/en12071234.

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This paper proposes a grid-connected single-stage micro-inverter with low cost, small size, and high efficiency to drive a 320 W class photovoltaic panel. This micro-inverter has a new and advanced topology that consists of an interleaved boost converter, a full-bridge converter, and a voltage doubler. Variable switching frequency and advanced burst control schemes were devised and implemented. A 320 W prototype micro-inverter was very compact and slim with 60-mm width, 310-mm length, and 30-mm height. In evaluations, the proposed micro-inverter achieved CEC weighted efficiency of 95.55%, MPPT efficiency >95% over the entire load range, and THD 2.65% at the rated power. The proposed micro-inverter is well suited for photovoltaic micro-inverter applications that require low cost, small size, high efficiency, and low noise.
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16

Malik, Naveed, Sami Ullah, Amir Khan, and Farhan Ullah. "Designing and Analysis of Single Stage and Two Stage PV Inverter Connected to Weak Grid System." International journal of Engineering Works 7, no. 10 (October 16, 2020): 361–68. http://dx.doi.org/10.34259/ijew.20.710361368.

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In this research paper design, analysis and comparison of single stage and two stages Photovoltaic inverter connected to weak grid system is executed in terms of their maximum power point tracking, DC link voltage regulation, power factor and overall efficiency. Majority of the commercial and industrial loads are inductive in nature and result in a very low lagging power factor. However renewable energy sources have no reactive power generation and lagging power factor results in a weak grid system. For this purpose control mechanism comprises of three objectives is proposed in this research paper. These objectives are to obtain highest amount of power from photovoltaic array, the power must be deliver from photovoltaic array into the utility grid at unity power factor and to maintain desired voltage at the input of the inverter. In order to achieve these objectives nonlinear control mechanism of Photovoltaic inverter connected to weak grid system is established and implemented based on accurate mathematical modeling and by using Backstepping technique and Lyapunov Stability analysis. PI controller is used for the purpose to maintain desired voltage at input of the inverter according to the requirement of inverter. Both single stage and two stage models are developed and simulated in Simulink/Matlab environment.
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17

Mu, Xian Min, Feng Chun Liu, Guan Lin Li, and Xi You Chen. "Single Stage Push-Pull Forward Inverter of PV Power Source." Advanced Materials Research 354-355 (October 2011): 1359–62. http://dx.doi.org/10.4028/www.scientific.net/amr.354-355.1359.

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This paper proposed a single stage inverter for PhotoVoltaic(PV). The inverter is a push-pull forward converter employed synchronous rectifier technique. The push-pull forward converter is used to convert the photovoltaic battery output voltage into high frequency SPWM square wave, and the rectifier circuit is used to change the polarity of the isolation high frequency transformer output SPWM wave. For improve performance of the inverter in both the command tracking and the load disturbance regulation, a PID control strategy is realized by using the TMS320LF28335 DSP. Theoretical analysis and experimental results indicate that the proposed topology and control scheme are promising for the applications of PV power supply.
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18

Nguyen, Minh-Khai, and Tan-Tai Tran. "A Single-Phase Single-Stage Switched-Boost Inverter With Four Switches." IEEE Transactions on Power Electronics 33, no. 8 (August 2018): 6769–81. http://dx.doi.org/10.1109/tpel.2017.2754547.

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19

Serrano, Diego, Regina Ramos, Pedro Alou, Jesus A. Oliver, and Jose A. Cobos. "Multimode Modulation With ZVS for a Single-Phase Single-Stage Inverter." IEEE Transactions on Power Electronics 35, no. 5 (May 2020): 5319–30. http://dx.doi.org/10.1109/tpel.2019.2941471.

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20

Ma, You Jie, Shuai Wang, and Xue Song Zhou. "The Summary of the Inverter Used in PV System." Applied Mechanics and Materials 727-728 (January 2015): 616–19. http://dx.doi.org/10.4028/www.scientific.net/amm.727-728.616.

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the inverter is one of the key technologies in PV system. It transforms the DC power output by the PV panel to AC power that the grid needs. The main technologies of the inverter are the circuit topology and the control tactic. The circuit topologies of inverter including the frequency isolated PV grid-connected inverters, the high-frequency isolated PV grid-connected inverter, the single-stage non-isolated PV grid-connect inverter and the multi-level non-isolated PV grid-connected inverter. The control tactics including the voltage oriented control (VOC), the voltage-based direct power control (V-DPC), the virtual-flux oriented control (VFOC) and the virtual-flux based direct power control (VF-DPC).
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21

PEERLA SHAIK, KARIMULLA, MAJAHAR HUSSAIN MOHAMMAD, Syed KARIMULLA, and SHAIK MOHAMMAD IRSHAD. "Single stage boost inverter with low switching modulation technique." European Journal of Electrical Engineering 20, no. 4 (August 27, 2018): 413–26. http://dx.doi.org/10.3166/ejee.20.413-426.

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22

Chen, Rong, Jia-Sheng Zhang, Wei Liu, and Chang-Ming Zheng. "Half Load-Cycle Worked Dual SEPIC Single-Stage Inverter." Journal of Electrical Engineering and Technology 11, no. 1 (January 1, 2016): 143–49. http://dx.doi.org/10.5370/jeet.2016.11.1.143.

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23

Zhao, Ben, and Alexander Abramovitz. "Single stage high gain charge pump assisted micro-inverter." Solar Energy 139 (December 2016): 81–84. http://dx.doi.org/10.1016/j.solener.2016.09.020.

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24

Wang, C. M. "A Novel Single-Stage Full-Bridge Buck-Boost Inverter." IEEE Transactions on Power Electronics 19, no. 1 (January 2004): 150–59. http://dx.doi.org/10.1109/tpel.2003.820583.

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25

Cecati, C., A. Dell'Aquila, and M. Liserre. "A Novel Three-Phase Single-Stage Distributed Power Inverter." IEEE Transactions on Power Electronics 19, no. 5 (September 2004): 1226–33. http://dx.doi.org/10.1109/tpel.2004.835112.

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26

Wang, C. M. "A Novel Single-Stage Series-Resonant Buck–Boost Inverter." IEEE Transactions on Industrial Electronics 52, no. 4 (August 2005): 1099–108. http://dx.doi.org/10.1109/tie.2005.851642.

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27

Manikandan, C. T., K. P. Nithya, and M. Padmarasan. "Coupled Inductor based Single-Stage Boost Three- Phase Inverter." International Journal of Engineering Trends and Technology 22, no. 9 (April 25, 2015): 416–21. http://dx.doi.org/10.14445/22315381/ijett-v22p285.

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28

Abramovitz, Alexander, Ben Zhao, and Keyue Ma Smedley. "High-Gain Single-Stage Boosting Inverter for Photovoltaic Applications." IEEE Transactions on Power Electronics 31, no. 5 (May 2016): 3550–58. http://dx.doi.org/10.1109/tpel.2015.2457454.

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29

Fanghua Zhang and Chunying Gong. "A New Control Strategy of Single-Stage Flyback Inverter." IEEE Transactions on Industrial Electronics 56, no. 8 (August 2009): 3169–73. http://dx.doi.org/10.1109/tie.2009.2022065.

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30

Tsai, M. T., C. L. Chu, C. M. Mi, J. Y. Lin, and Y. C. Hsueh. "Designing a Single-Stage Inverter for Photovoltaic System Application." Mathematical Problems in Engineering 2013 (2013): 1–8. http://dx.doi.org/10.1155/2013/912487.

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This paper focuses on a full-bridge high-frequency isolated inverter which is proposed for distributed photovoltaic power supply application. The researched system consists of a full-bridge high-frequency DC/DC converter with the proposed symmetric phase-shift modulation algorithm to achieve the ZVS switching function and a line frequency unfolding bridge. It replaces the traditional two stages of independent control algorithms with a one-stage control to obtain high conversion efficiency. A TMS 320F2812 digital signal processor-based control technique is used to achieve the desired algorithm function for the grid-connected photovoltaic power system application. The researched system can have two operating methods depending on the applied situation. Finally, a prototype of 300 W with the maximum power point function is settled to verify the proposed idea.
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31

Palanidoss, Sriramalakshmi, Sreedevi Vellithiruthi Thazhathu, Mahajan Sagar Bhaskar, Ramani Kannan, and Payam Teimourzadeh Baboli. "Comprehensive review of single stage switched boost inverter structures." IET Power Electronics 14, no. 12 (July 6, 2021): 2031–51. http://dx.doi.org/10.1049/pel2.12166.

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32

Shunmugakani, P., and D. Kirubakaran. "Simulation and Implementation of Quasi-Z-Source Based Single-stage Buck/boost Inverter Fed Induction Motor." International Journal of Power Electronics and Drive Systems (IJPEDS) 7, no. 3 (September 1, 2016): 908. http://dx.doi.org/10.11591/ijpeds.v7.i3.pp908-914.

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Renewable power systems as distributed generation units often experience big changes in the inverter input voltage due to fluctuations of energy resources. Z-source inverter (ZSI) is known as a single-stage buck/boost inverter. The ZSI achieves voltage buck/boost in single stage, without additional switches. Triggering on state enables energy to be stored in inductors, which is released when at non-shoot-through state, followed by the voltage boost feature. The voltage-fed Z-source inverter/quasi-Z-source inverter (QZSI) has been presented suitable for photovoltaic (PV) applications mainly because of its single-stage buck<strong><em> </em></strong>and boost capability and the improved reliability.
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33

Razi, A., M. Nabil Hidayat, and M. N. Seroji. "Microinverter Topology based Single-stage Grid-connected Photovoltaic System: A Review." Indonesian Journal of Electrical Engineering and Computer Science 11, no. 2 (August 1, 2018): 645. http://dx.doi.org/10.11591/ijeecs.v11.i2.pp645-651.

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This paper discussed the topology development of a single-stage microinverter in grid-connected PV system. In general, the microinverter topologies can be categorized into four type of topologies: 1) Flyback inverter, 2) Double-boost inverter, 3) Derived zeta-cuk configuration and 4) Buck-boost inverter. Flyback configuration is widely used for single-stage microinverter which offers protection between solar panel and utility grid. However due to the bulkiness of the transformer, new arrangement circuit employ the Half-Bridge topology with film capacitor and microcontroller provide a good room for research and future developments to obtain greater efficiency and compact design of single-stage microinverter grid-connected PV system. Plus, there are several characteristics need to be taken care for future development of the microinverter technology.
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34

Nguyen, Minh-Khai, and Youn-Ok Choi. "Voltage Multiplier Cell-Based Quasi-Switched Boost Inverter with Low Input Current Ripple." Electronics 8, no. 2 (February 18, 2019): 227. http://dx.doi.org/10.3390/electronics8020227.

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A novel single-phase single-stage voltage multiplier cell-based quasi-switched boost inverter (VMC-qSBI) is proposed in this paper. By adding the voltage multiplier cell to the qSBI, the proposed VMC-qSBI has the following merits; a decreased voltage stress on an additional switch, a high voltage gain, a continuous input current, shoot through immunity, and a high modulation index. A new pulse-width modulation (PWM) control strategy is presented for the proposed inverter to reduce the input current ripple. To improve the voltage gain of the proposed inverter, an extension is addressed by adding the VMCs. The operating principle, steady-state analysis, and impedance parameter design guideline of the proposed inverter are presented. A comparison between the proposed inverter and other impedance source-based high-voltage gain inverters is shown. Simulation and experimental results are provided to confirm the theoretical analysis.
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35

Shunmugakani, P., and D. Kirubakaran. "Simulation and Implementation of Quasi-Z-Source Based Single-stage Buck/boost Inverter Fed Induction Motor." International Journal of Power Electronics and Drive Systems (IJPEDS) 7, no. 2 (June 1, 2016): 369. http://dx.doi.org/10.11591/ijpeds.v7.i2.pp369-378.

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<p>Renewable power systems as distributed generation units often experience big changes in the inverter input voltage due to fluctuations of energy resources. Z-source inverter (ZSI) is known as a single-stage buck/boost inverter. The ZSI achieves voltage buck/boost in single stage, without additional switches. Triggering on state enables energy to be stored in inductors, which is released when at non-shoot-through state, followed by the voltage boost feature. The voltage-fed Z-source inverter/quasi-Z-source inverter (QZSI) have been presented suitable for photovoltaic (PV) applications mainly because of its single-stage buck<strong><em> </em></strong>and boost capability and the improved reliability.</p>
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36

Sampaio Garcia, Lucas, Luiz Carlos de Freitas, João Batista Vieira Júnior, Ernane Antônio Alves Coelho, Valdeir José Farias, and Luiz Carlos Gomes de Freitas. "Single-stage Current Source Inverter With Amplified Sinusoidal Output Voltage: Analysis, Simulation And Experimental Results." Eletrônica de Potência 16, no. 3 (August 1, 2011): 222–32. http://dx.doi.org/10.18618/rep.20113.222232.

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37

Mande, Daouda, João Pedro Trovão, and Minh Cao Ta. "Comprehensive Review on Main Topologies of Impedance Source Inverter Used in Electric Vehicle Applications." World Electric Vehicle Journal 11, no. 2 (April 26, 2020): 37. http://dx.doi.org/10.3390/wevj11020037.

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Power electronics play a fundamental role for electric transportation, renewable energy conversion and many other industrial applications. They have the ability to help achieve high efficiency and performance in power systems. However, traditional inverters such as voltage source and current source inverters present some limitations. Consequently, many research efforts have been focused on developing new power electronics converters suitable for many applications. Compared with the conventional two-stage inverter, Z-source inverter (ZSI) is a single-stage converter with lower design cost and high efficiency. It is a power electronics circuit of which the function is to convert DC input voltage to a symmetrical AC output voltage of desired magnitude and frequency. Recently, ZSIs have been widely used as a replacement for conventional two-stage inverters in the distributed generation systems. Several modifications have been carried out on ZSI to improve its performance and efficiency. This paper reviews the-state-of-art impedance source inverter main topologies and points out their applications for multisource electric vehicles. A concise review of main existing topologies is presented. The basic structural differences, advantages and limitations of each topology are illustrated. From this state-of-the-art review of impedance source inverters, the embedded quasi-Z-source inverter presents one of the promising architectures which can be used in multisource electric vehicles, with better performance and reliability. The utilization of this new topology will open the door to several development axes, with great impact on electric vehicles (EVs).
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38

Zakzouk, Nahla E., Ahmed K. Abdelsalam, Ahmed A. Helal, and Barry W. Williams. "High Performance Single-Phase Single-Stage Grid-Tied PV Current Source Inverter Using Cascaded Harmonic Compensators." Energies 13, no. 2 (January 13, 2020): 380. http://dx.doi.org/10.3390/en13020380.

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In this paper, a single-phase single-stage photovoltaic (PV) grid-tied system is investigated. The conventional pulse width modulated (PWM) voltage source inverter (VSI) is replaced by a PWM current source inverter (CSI) for its voltage boosting capabilities, inherent short-circuit proof and higher reliability features. Modeling, design, and analysis of the considered CSI are presented altogether with enhanced proposed control loops aided with a modified PWM technique. DC-link even current harmonics are commonly reflected as low-order odd harmonics in the grid resulting in a poor quality grid current. In order to overcome the latter, a high performance proportional resonant controller, applied in the inverter inner grid current loop, is proposed using cascaded resonant control units tuned at low-order frequencies to eliminate injected grid current harmonics. Hence, with a less-bulky smoothing inductor at the CSI DC-side, grid power quality and system efficiency are simultaneously improved. Simulation and experimental results verify the proposed controller effectiveness.
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39

Prakash Jayachandran, Arul, Booma Nagarajan, R. Akshaya, Mabel Jemima A, and Asaipriyan S. "Single Stage Boost Integrated High-Frequency Full Bridge Inverter for Induction Heating System." International Journal of Engineering & Technology 7, no. 2.24 (April 25, 2018): 63. http://dx.doi.org/10.14419/ijet.v7i2.24.12000.

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This paper proposes a new single-stage boost high frequency ac series resonant power inverter for high frequency induction heating (IH) applications. The proposed ac-ac converter consist of a single stage boost (SSB) converter and full-bridge ac series resonant inverter integrated circuit with a ac source voltage control strategy by controlling the inverter switches. The Simulink model is developed using MATLAB simulation software and the simulated results are examined. The output power is maintained to the required level by using phase shift control strategy and the simulated results are validated.
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40

R, Mr Avinash, Mr Savyasachi G K, Mr Raghunath M J, and Mr Pruthviraj B G. "A Single Stage Boost Inverter for Secondary Power Conversion Stage-Less PV Systems." IARJSET 4, no. 1 (January 15, 2017): 34–37. http://dx.doi.org/10.17148/iarjset.2017.4108.

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41

Coles, Charles. "Single Stage CCFL Backlight Resonant Inverter Using PWM Dimming Methods." SID Symposium Digest of Technical Papers 29, no. 1 (1998): 165. http://dx.doi.org/10.1889/1.1833720.

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42

Chien-Ming Wang and Teng-Jen Chen. "Novel single-stage half-bridge series-resonant buck-boost inverter." IEEE Transactions on Aerospace and Electronic Systems 40, no. 4 (October 2004): 1262–70. http://dx.doi.org/10.1109/taes.2004.1386879.

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43

Coronado-Mendoza, Alberto, Marco A. Pérez-Cisneros, José A. Domínguez-Navarro, Valentín Osuna-Enciso, Virgilio Zúñiga-Grajeda, and Kelly Joel Gurubel-Tun. "Dynamic phasors modeling for a single phase two stage inverter." Electric Power Systems Research 140 (November 2016): 854–65. http://dx.doi.org/10.1016/j.epsr.2016.04.020.

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Zhou, Guo Shun, Ye Jin Lin, Yan Cheng Liu, and Qin Jin Zhang. "Single-Phase Double-Stage PV Grid-Connected System Based on Multi-Carrier PWM." Advanced Materials Research 542-543 (June 2012): 1231–37. http://dx.doi.org/10.4028/www.scientific.net/amr.542-543.1231.

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In the traditional single-phase grid-connected photovoltaic(PV) system, the output grid-current has the shortcoming of high harmonic distortion rate. In order to solve the problem, an improved method on the inverter is proposed. The inverter consists of full-bridge circuit and auxiliary circuit. With the multi-carrier PWM, the inverter produces output voltages in five levels, which can reduce the THD of the grid current. At the same time, the hysteresis comparison method is introduced into traditional MPPT algorithm, which greatly avoids the oscillation problem of the maximum power point. At last, the simulation results show the effectiveness of the proposed method.
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45

Hwang, Duck-Hwan, Jung-Yong Lee, and Younghoon Cho. "Single-phase single-stage dual-buck photovoltaic inverter with active power decoupling strategy." Renewable Energy 126 (October 2018): 454–64. http://dx.doi.org/10.1016/j.renene.2018.03.069.

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46

Anand, Vishal, Anirban Pal, BalaSubrahmanyam Kuchibhatla, Ranganathan Gurunathan, and Kaushik Basu. "An Unidirectional Single Stage Single Phase Soft-Switched Resonant High Frequency Link Inverter." IEEE Transactions on Industry Applications 57, no. 4 (July 2021): 3238–51. http://dx.doi.org/10.1109/tia.2021.3072605.

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47

Rasheduzzaman, Md, Poria Fajri, Jonathan Kimball, and Brad Deken. "Modeling, Analysis, and Control Design of a Single-Stage Boost Inverter." Energies 14, no. 14 (July 7, 2021): 4098. http://dx.doi.org/10.3390/en14144098.

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A single-phase, single-stage, differential boost inverter comprises two independently-controlled boost DC-DC converters, with the load connected between their outputs. The net voltage on the load is sinusoidal and has a controllable frequency and magnitude that is larger than that of the DC source. The present work first derives steady-state and small-signal models of the inverter with parasitic elements. The results obtained from the line-to-output transfer function, control-to-output transfer function, open-loop input impedance, and open-loop output impedance models are compared with that of the ones obtained from the experimental testbed. Using the new models, a voltage mode controller is designed in the synchronous reference frame. The regulator design is explored through the use of an example. The results are verified against the small-signal model, then PLECS simulations, and finally a laboratory experiment. The results indicate excellent agreement between the model and experiment during transients in voltage reference, input source voltage, and output load. A sensitivity analysis is performed based on the inverter model considering the parameter variation. Finally, loss and efficiency estimations are provided in this work.
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48

Kim Gan, Chin, Sara Ragab Mahmoud, Kyairul Azmi Baharin, and Mohd Hendra Hairi. "Influence of Single-Phase Solar Photovoltaic Systems on Total Harmonic Distortion: A Case Study." Indonesian Journal of Electrical Engineering and Computer Science 12, no. 2 (November 1, 2018): 607. http://dx.doi.org/10.11591/ijeecs.v12.i2.pp607-611.

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<span>The installation of small-scale solar photovoltaic system has recently gaining popularity in Malaysia mainly driven by the Feed-in Tariff scheme. Given its relatively small generation capacity, the single-phase solar inverters are not required to comply with power quality standard. Neverthelss, the impact of small-scale solar system on the grid could become significant when the penetration is increasing over the years. In this regard, this paper presents a case study on the influence of single-phase grid-connected solar photovoltaic systems on the total harmonic distortion for current at the point of common coupling. Field measurements have been carried out for a total of 12 single-phase solar systems which were installed at three different locations at Universiti Teknikal Malaysia Melaka. Detailed analyses have been performed to characterize the aggregated current harmonic performance for the overall system. The findings from the presented case study suggest that the current quality from the inverter is highly dependent on the level of inverter output. Hence, the proper selection of the array-to-inverter ratio at the system design stage could greatly improve the overall total harmonic performance performance for current.</span><span>The installation of small-scale solar photovoltaic system has recently gaining popularity in Malaysia mainly driven by the Feed-in Tariff scheme. Given its relatively small generation capacity, the single-phase solar inverters are not required to comply with power quality standard. Neverthelss, the impact of small-scale solar system on the grid could become significant when the penetration is increasing over the years. In this regard, this paper presents a case study on the influence of single-phase grid-connected solar photovoltaic systems on the total harmonic distortion for current at the point of common coupling. Field measurements have been carried out for a total of 12 single-phase solar systems which were installed at three different locations at Universiti Teknikal Malaysia Melaka. Detailed analyses have been performed to characterize the aggregated current harmonic performance for the overall system. The findings from the presented case study suggest that the current quality from the inverter is highly dependent on the level of inverter output. Hence, the proper selection of the array-to-inverter ratio at the system design stage could greatly improve the overall total harmonic performance performance for current.</span>
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Vasudevan, Saravanan, M. Aravindan, V. Balaji, and M. Arumugam. "Experimental Verification of Single Phase Z Source Inverter for Photovoltaic Applications." International Journal of Power Electronics and Drive Systems (IJPEDS) 9, no. 2 (June 1, 2018): 698. http://dx.doi.org/10.11591/ijpeds.v9.i2.pp698-703.

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<p>A single phase Z source inverter is developed for better voltage boosting and inversion ability suited for photovoltaic power generation systems. The operation of the Z source inverter is described with relevant equations. Simple boost scheme is used for switching actions of the inverter. The performance of the inverter used for photovoltaic applications can be checked with simulation and experimental results, which prove that it has single-stage buck and boost capability and improved reliability.</p>
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Reddy, K. Rajasekhara, V. Nagabhaskar Reddy, and M. Vijaya Kumar. "Control of Single Stage Grid Tied Photovoltaic Inverter Using Incremental Conductance Method." International Journal of Power Electronics and Drive Systems (IJPEDS) 9, no. 4 (December 1, 2018): 1702. http://dx.doi.org/10.11591/ijpeds.v9.i4.pp1702-1708.

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In this investigation, a study on grid-connected Photovoltaic (PV) system with single stage power conversion (SSPC) is proposed. Double Stage Power Conversion (DSPC) topology contains two power conversion stages namely DC-DC conversion and DC-AC conversion, but the SSPC system converts DC power to high-quality AC power supply for grid connected PV system. The SSPC system has several advantages over DSPC, such as better use of the PV arrays, higher efficiency, low cost and compact size. Present work proposes a Sinusoidal Pulse Width Modulation (SPWM) along with incremental conductance Maximum Power Point Tracking (IC-MPPT) for inverter switching. The PV voltage and Grid Voltages verifies under normal and change of atmospheric conditions using MATLAB / SIMULINK.
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