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2022 | OriginalPaper | Chapter

2. Topologies and Control Schemes of Grid-Tied Power Converters

Authors : Feng Gao, Tao Xu

Published in: Coordination and Optimization of Grid-Tied Power Converters

Publisher: Springer Singapore

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Abstract

This chapter introduces the topologies, modulation schemes, ac filters and basic control scheme of grid-tied power converters so that the readers can know how grid-tied power converters work.

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Literature
1.
go back to reference Holmes D, Lipo T (2003) Pulse width modulation for power converters: principles and practice. Wiley, New York, NY, USACrossRef Holmes D, Lipo T (2003) Pulse width modulation for power converters: principles and practice. Wiley, New York, NY, USACrossRef
2.
go back to reference Holmes DG (1996) The significance of zero space vector placement for carrier-based PWM schemes. IEEE Trans Ind Appl 32(5):1122–1129CrossRef Holmes DG (1996) The significance of zero space vector placement for carrier-based PWM schemes. IEEE Trans Ind Appl 32(5):1122–1129CrossRef
3.
go back to reference Hava AM, Kerkman RJ, Lipo TA (1998) A high-performance generalized discontinuous PWM algorithm. IEEE Trans Ind Appl 34(5):1059–1071CrossRef Hava AM, Kerkman RJ, Lipo TA (1998) A high-performance generalized discontinuous PWM algorithm. IEEE Trans Ind Appl 34(5):1059–1071CrossRef
4.
go back to reference Nabae A, Takahashi I, Akagi H (1981) A new neutral-point-clamped PWM inverter. IEEE Trans Ind Appl IA-17(5):518–523 Nabae A, Takahashi I, Akagi H (1981) A new neutral-point-clamped PWM inverter. IEEE Trans Ind Appl IA-17(5):518–523
5.
go back to reference McGrath BP, Holmes DG, Lipo T (2003) Optimized space vector switching sequences for multilevel inverters. IEEE Trans Power Electron 18(6):1293–1301CrossRef McGrath BP, Holmes DG, Lipo T (2003) Optimized space vector switching sequences for multilevel inverters. IEEE Trans Power Electron 18(6):1293–1301CrossRef
6.
go back to reference Knaup P (2007) INVERTER. International Patent Application WO/2007/048420 A1, 2007 Knaup P (2007) INVERTER. International Patent Application WO/2007/048420 A1, 2007
7.
go back to reference Kouro S, Leon JI, Vinnikov D et al (2015) Grid-connected photovoltaic systems: an overview of recent research and emerging PV converter technology. IEEE Ind Electron Mag 9(1):47–61 Kouro S, Leon JI, Vinnikov D et al (2015) Grid-connected photovoltaic systems: an overview of recent research and emerging PV converter technology. IEEE Ind Electron Mag 9(1):47–61
8.
go back to reference Chen Z, Guerrero JM, Blaabjerg F (2009) A review of the state of the art of power electronics for wind turbines. IEEE Trans Power Electron 24(8):1859–1875CrossRef Chen Z, Guerrero JM, Blaabjerg F (2009) A review of the state of the art of power electronics for wind turbines. IEEE Trans Power Electron 24(8):1859–1875CrossRef
9.
go back to reference Chong KHJ, Klug RD (2004) High power medium voltage drives. In: Proceedings of the 2004 international conference on power system technology, pp 658–664 Chong KHJ, Klug RD (2004) High power medium voltage drives. In: Proceedings of the 2004 international conference on power system technology, pp 658–664
10.
go back to reference Peng FZ, Lai JS, McKeever JW et al (1996) A multilevel voltage-source inverter with separate DC sources for static VAr generation. IEEE Trans Ind Appl 32(5):1130–1138CrossRef Peng FZ, Lai JS, McKeever JW et al (1996) A multilevel voltage-source inverter with separate DC sources for static VAr generation. IEEE Trans Ind Appl 32(5):1130–1138CrossRef
11.
go back to reference Marquardt R, Lesnicar A (2003) A new modular voltage source inverter topology. In: Conference record EPE, CD-ROM Marquardt R, Lesnicar A (2003) A new modular voltage source inverter topology. In: Conference record EPE, CD-ROM
12.
go back to reference Marquardt R (2018) Modular multilevel converters: state of the art and future progress. IEEE Power Electron Mag 5(4):24–31CrossRef Marquardt R (2018) Modular multilevel converters: state of the art and future progress. IEEE Power Electron Mag 5(4):24–31CrossRef
13.
go back to reference Carrara G, Gardella S, Marchesoni M et al (1992) A new multilevel PWM method: a theoretical analysis. IEEE Trans Power Electron 7(3):497–505CrossRef Carrara G, Gardella S, Marchesoni M et al (1992) A new multilevel PWM method: a theoretical analysis. IEEE Trans Power Electron 7(3):497–505CrossRef
14.
go back to reference Liang Y, Nwankpa CO (1998) New type of STATCOM based on cascading voltage source inverters with phase-shifted unipolar SPWM. In: Conference record IEEE-IAS annual meeting, pp 1447–1453 Liang Y, Nwankpa CO (1998) New type of STATCOM based on cascading voltage source inverters with phase-shifted unipolar SPWM. In: Conference record IEEE-IAS annual meeting, pp 1447–1453
15.
go back to reference Chen W, Yang X, Zhang W et al (2016) Leakage current calculation for PV inverter system based on a parasitic capacitor model. IEEE Trans Power Electron 31(12):8205–8217 Chen W, Yang X, Zhang W et al (2016) Leakage current calculation for PV inverter system based on a parasitic capacitor model. IEEE Trans Power Electron 31(12):8205–8217
16.
go back to reference Kerekes T, Teodorescu R, Liserre M (2008) Common mode voltage in case of transformerless PV inverters connected to the grid. In: Proceedings of the IEEE international symposium on industrial electronics, pp 2390–2395 Kerekes T, Teodorescu R, Liserre M (2008) Common mode voltage in case of transformerless PV inverters connected to the grid. In: Proceedings of the IEEE international symposium on industrial electronics, pp 2390–2395
17.
go back to reference Victor M, Greizer F, Bremicker S et al (2008) Method of converting a direct current voltage from a source of direct current voltage, more specifically from a photovoltaic source of direct current voltage, into a alternating current voltage. U.S. Patent 7 411 802, 12 Aug 2008 Victor M, Greizer F, Bremicker S et al (2008) Method of converting a direct current voltage from a source of direct current voltage, more specifically from a photovoltaic source of direct current voltage, into a alternating current voltage. U.S. Patent 7 411 802, 12 Aug 2008
18.
go back to reference Heribert S, Christoph S, Jurgen K (2003) Inverter for transforming a DC voltage into an AC current or an AC voltage. Europe Patent 1 369 985 (A2), 13 May 2003 Heribert S, Christoph S, Jurgen K (2003) Inverter for transforming a DC voltage into an AC current or an AC voltage. Europe Patent 1 369 985 (A2), 13 May 2003
19.
go back to reference Yu W, Lai J, Qian H et al (2010) High-efficiency inverter with H6-type configuration for photovoltaic non-isolated AC module applications In: Proceedings of the IEEE applied power electronics conference and exposition, pp 1056–1061 Yu W, Lai J, Qian H et al (2010) High-efficiency inverter with H6-type configuration for photovoltaic non-isolated AC module applications In: Proceedings of the IEEE applied power electronics conference and exposition, pp 1056–1061
20.
go back to reference Zhou L, Gao F, Xu T (2017) A family of neutral-point-clamped circuits of single-phase PV inverters: generalized principle and implementation. IEEE Trans Power Electron 32(6):4307–4319CrossRef Zhou L, Gao F, Xu T (2017) A family of neutral-point-clamped circuits of single-phase PV inverters: generalized principle and implementation. IEEE Trans Power Electron 32(6):4307–4319CrossRef
21.
go back to reference Zhang H, Jouanne AV, Dai S (2000) Multilevel inverter modulation schemes to eliminate common-mode voltages. IEEE Trans Ind Appl 36(6):1645–1653CrossRef Zhang H, Jouanne AV, Dai S (2000) Multilevel inverter modulation schemes to eliminate common-mode voltages. IEEE Trans Ind Appl 36(6):1645–1653CrossRef
22.
go back to reference Zhou L, Gao F, Shen G et al (2016) Low leakage current transformerless three-phase photovoltaic inverter. Proc IEEE-ECCE 2016:1–5 Zhou L, Gao F, Shen G et al (2016) Low leakage current transformerless three-phase photovoltaic inverter. Proc IEEE-ECCE 2016:1–5
23.
go back to reference Giacomini JC, Michels L, Schuch L et al (2015) Design of a LCL filter for leakage current reduction in transformerless PV grid-connected three-level inverter. In: Proceedings of the 2015 IEEE applied power electronics conference and exposition, pp 239–245 Giacomini JC, Michels L, Schuch L et al (2015) Design of a LCL filter for leakage current reduction in transformerless PV grid-connected three-level inverter. In: Proceedings of the 2015 IEEE applied power electronics conference and exposition, pp 239–245
24.
go back to reference Li X, Xing X, Zhang C et al (2019) Simultaneous common-mode resonance circulating current and leakage current suppression for transformerless three-level T-type PV inverter system. IEEE Trans Ind Electron 66(6):4457–4467CrossRef Li X, Xing X, Zhang C et al (2019) Simultaneous common-mode resonance circulating current and leakage current suppression for transformerless three-level T-type PV inverter system. IEEE Trans Ind Electron 66(6):4457–4467CrossRef
25.
go back to reference Liserre M, Blaabjerg F, Hansen S (2005) Design and control of an LCL-filter-based three-phase active rectifier. IEEE Trans Ind Appl 41(5):1281–1291CrossRef Liserre M, Blaabjerg F, Hansen S (2005) Design and control of an LCL-filter-based three-phase active rectifier. IEEE Trans Ind Appl 41(5):1281–1291CrossRef
26.
go back to reference Tang Y, Loh PC, Wang P et al (2012) Exploring inherent damping characteristic of LCL-filters for three-phase grid-connected voltage source inverters. IEEE Trans Power Electron 27(3):1433–1443CrossRef Tang Y, Loh PC, Wang P et al (2012) Exploring inherent damping characteristic of LCL-filters for three-phase grid-connected voltage source inverters. IEEE Trans Power Electron 27(3):1433–1443CrossRef
27.
go back to reference Bellescize H (1932) La reception synchrone. Onde Elect 11:230–240 Bellescize H (1932) La reception synchrone. Onde Elect 11:230–240
28.
go back to reference Santos Filho RM, Seixas PF, Cortizo PC et al (2008) Comparison of three single-phase PLL algorithms for UPS applications. IEEE Trans Ind Electron 55(8):2923–2932CrossRef Santos Filho RM, Seixas PF, Cortizo PC et al (2008) Comparison of three single-phase PLL algorithms for UPS applications. IEEE Trans Ind Electron 55(8):2923–2932CrossRef
29.
go back to reference Golestan S, Guerrero JM, Vasquez JC (2017) Three-phase PLLs: a review of recent advances. IEEE Trans Power Electron 32(3):1894–1907CrossRef Golestan S, Guerrero JM, Vasquez JC (2017) Three-phase PLLs: a review of recent advances. IEEE Trans Power Electron 32(3):1894–1907CrossRef
30.
go back to reference Golestan S, Guerrero JM, Vasquez JC (2017) Single-phase PLLs: a review of recent advances. IEEE Trans Power Electron 32(12):9013–9030CrossRef Golestan S, Guerrero JM, Vasquez JC (2017) Single-phase PLLs: a review of recent advances. IEEE Trans Power Electron 32(12):9013–9030CrossRef
31.
go back to reference Golestan S, Monfared M, Freijedo FD (2012) Design and tuning of a modified power-based PLL for single-phase grid-connected power conditioning systems. IEEE Trans Power Electron 27(8):3639–3650CrossRef Golestan S, Monfared M, Freijedo FD (2012) Design and tuning of a modified power-based PLL for single-phase grid-connected power conditioning systems. IEEE Trans Power Electron 27(8):3639–3650CrossRef
32.
go back to reference Han Y, Luo M, Zhao X et al (2016) Comparative performance evaluation of orthogonal-signal-generators-based single-phase PLL algorithms—a survey. IEEE Trans Power Electron 31(5):3932–3944CrossRef Han Y, Luo M, Zhao X et al (2016) Comparative performance evaluation of orthogonal-signal-generators-based single-phase PLL algorithms—a survey. IEEE Trans Power Electron 31(5):3932–3944CrossRef
33.
go back to reference Wang J, Liang J, Gao F et al (2015) A method to improve the dynamic performance of moving average filter-based PLL. IEEE Trans Power Electron 30(10):5978–5990CrossRef Wang J, Liang J, Gao F et al (2015) A method to improve the dynamic performance of moving average filter-based PLL. IEEE Trans Power Electron 30(10):5978–5990CrossRef
34.
go back to reference Wang YF, Li YW (2011) Grid synchronization PLL based on cascaded delayed signal cancellation. IEEE Trans Power Electron 26(7):1987–1997CrossRef Wang YF, Li YW (2011) Grid synchronization PLL based on cascaded delayed signal cancellation. IEEE Trans Power Electron 26(7):1987–1997CrossRef
35.
go back to reference Neves FAS, Souza HEP, Cavalcanti MC et al (2012) Digital filters for fast harmonic sequence component separation of unbalanced and distorted three-phase signals. IEEE Trans Ind Electron 59(10):3847–3859CrossRef Neves FAS, Souza HEP, Cavalcanti MC et al (2012) Digital filters for fast harmonic sequence component separation of unbalanced and distorted three-phase signals. IEEE Trans Ind Electron 59(10):3847–3859CrossRef
36.
go back to reference Wang YF, Li YW (2013) A grid fundamental and harmonic component detection method for single-phase systems. IEEE Trans Power Electron 28(5):2204–2213CrossRef Wang YF, Li YW (2013) A grid fundamental and harmonic component detection method for single-phase systems. IEEE Trans Power Electron 28(5):2204–2213CrossRef
Metadata
Title
Topologies and Control Schemes of Grid-Tied Power Converters
Authors
Feng Gao
Tao Xu
Copyright Year
2022
Publisher
Springer Singapore
DOI
https://doi.org/10.1007/978-981-16-7446-4_2