An Optimized Transformerless Photovoltaic Grid-Connected Inverter

Unipolar sinusoidal pulsewidth modulation (SPWM) full-bridge inverter brings high-frequency common-mode voltage, which restricts its application in transformerless photovoltaic grid-connected inverters. In order to solve this problem, an optimized full-bridge structure with two additional switches and a capacitor divider is proposed in this paper, which guarantees that a freewheeling path is clamped to half input voltage in the freewheeling period. Sequentially, the high-frequency common-mode voltage has been avoided in the unipolar SPWM full-bridge inverter, and the output current flows through only three switches in the power processing period. In addition, a clamping branch makes the voltage stress of the added switches be equal to half input voltage. The operation and clamping modes are analyzed, and the total losses of power device of several existing topologies and proposed topology are fairly calculated. Finally, the common-mode performance of these topologies is compared by a universal prototype inverter rated at 1 kW.

[1]  Vassilios G. Agelidis,et al.  Multilevel converters for single-phase grid connected photovoltaic systems-an overview , 1998, IEEE International Symposium on Industrial Electronics. Proceedings. ISIE'98 (Cat. No.98TH8357).

[2]  Hendrik du T. Mouton,et al.  Natural balancing of three-level neutral-point-clamped PWM inverters , 2002, IEEE Trans. Ind. Electron..

[3]  J.M.A. Myrzik,et al.  String and module integrated inverters for single-phase grid connected photovoltaic systems - a review , 2003, 2003 IEEE Bologna Power Tech Conference Proceedings,.

[4]  R. Ruther,et al.  Assessment of thin-film technologies most suited for BIPV applications in Brazil: the PETROBRAS 44 kWp project , 2003, 3rd World Conference onPhotovoltaic Energy Conversion, 2003. Proceedings of.

[5]  Fan Shu STUDY OF THE COMMON-MODE VOLTAGE IN A HIGH-VOLTAGE ASDS SYSTEM , 2003 .

[6]  N. Shammas,et al.  Forward and reverse recovery behaviour of diodes in power converter applications , 2004, 2004 24th International Conference on Microelectronics (IEEE Cat. No.04TH8716).

[7]  A.D. Rajapakse,et al.  Electromagnetic transients simulation models for accurate representation of switching losses and thermal performance in power electronic systems , 2005, IEEE Transactions on Power Delivery.

[8]  F. Blaabjerg,et al.  A review of single-phase grid-connected inverters for photovoltaic modules , 2005, IEEE Transactions on Industry Applications.

[9]  Jan T. Bialasiewicz,et al.  Power-Electronic Systems for the Grid Integration of Renewable Energy Sources: A Survey , 2006, IEEE Transactions on Industrial Electronics.

[10]  U. Borup,et al.  Transformerless Photovoltaic Inverters Connected to the Grid , 2007, APEC 07 - Twenty-Second Annual IEEE Applied Power Electronics Conference and Exposition.

[11]  P. Sanchis,et al.  Transformerless Inverter for Single-Phase Photovoltaic Systems , 2007, IEEE Transactions on Power Electronics.

[12]  P. N. Tekwani,et al.  A Dual Five-Level Inverter-Fed Induction Motor Drive With Common-Mode Voltage Elimination and DC-Link Capacitor Voltage Balancing Using Only the Switching-State Redundancy—Part I , 2007, IEEE Transactions on Industrial Electronics.

[13]  Pablo Sanchis,et al.  Ground currents in single-phase transformerless photovoltaic systems , 2007 .

[14]  Yan Yang-guang Analysis and Calculation of Inverter Power Loss , 2008 .

[15]  Roberto González,et al.  Transformerless Single-Phase Multilevel-Based Photovoltaic Inverter , 2008, IEEE Transactions on Industrial Electronics.

[16]  Li Xiang-lin Application of the CIS Thin Film Solar Cells in the BIPV System with Large Commercial Project , 2008 .

[17]  Peter Zacharias,et al.  A Single-Stage PV Module Integrated Converter Based on a Low-Power Current-Source Inverter , 2008, IEEE Transactions on Industrial Electronics.

[18]  Z.J. Shen,et al.  New Physical Insights on Power MOSFET Switching Losses , 2009, IEEE Transactions on Power Electronics.

[19]  Stanislaw Pirog,et al.  Results of Investigation of Multicell Converters With Balancing Circuit—Part I , 2009, IEEE Transactions on Industrial Electronics.

[20]  Toshihisa Shimizu,et al.  A Practical Iron Loss Calculation for AC Filter Inductors Used in PWM Inverters , 2009, IEEE Transactions on Industrial Electronics.

[21]  S. Pirog,et al.  Results of Investigation of Multicell Converters With Balancing Circuit—Part II , 2009, IEEE Transactions on Industrial Electronics.